image stringlengths 51 51 | prompt stringclasses 62
values | answer stringlengths 262 778 | cot stringclasses 127
values | final_diagnosis unknown |
|---|---|---|---|---|
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the patella medial subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 BMLs, G... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [77, 109, 266, 325, 191, 304], "final_diagnosis": {"patella medial BML": {"... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
77,
109,
266,
325,
191,
304
],
"final_diagnosis": {
"patella_medial_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the patella lateral subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 BMLs, ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [46, 80, 267, 324, 189, 304], "final_diagnosis": {"patella lateral BML": {"... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
46,
80,
267,
324,
189,
304
],
"final_diagnosis": {
"patella_lateral_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur medial trochlea subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is an increased signal intensity in the subregion. It's size is less than 33% of the subregion. There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final d... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is an increased signal intensity in the subregion. It's size is less than 33% of the subregion. There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
79,
133,
156,
257,
181,
251
],
"final_diagnosis": {
"femur_medial_trochlea_BML": {
"Size_of_BML_(including_cyst)": 1,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur medial central subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 B... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [77, 131, 106, 235, 154, 247], "final_diagnosis": {"femur medial central BM... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
77,
131,
106,
235,
154,
247
],
"final_diagnosis": {
"femur_medial_central_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur medial posterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [76, 132, 86, 196, 167, 248], "final_diagnosis": {"femur medial posterior B... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
76,
132,
86,
196,
167,
248
],
"final_diagnosis": {
"femur_medial_posterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur lateral trochlea subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [40, 79, 188, 268, 181, 257], "final_diagnosis": {"femur lateral trochlea B... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
40,
79,
188,
268,
181,
257
],
"final_diagnosis": {
"femur_lateral_trochlea_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur lateral central subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [36, 79, 129, 231, 167, 254], "final_diagnosis": {"femur lateral central BM... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
36,
79,
129,
231,
167,
254
],
"final_diagnosis": {
"femur_lateral_central_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur lateral posterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [32, 77, 93, 192, 173, 256], "final_diagnosis": {"femur lateral posterior B... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
32,
77,
93,
192,
173,
256
],
"final_diagnosis": {
"femur_lateral_posterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia medial anterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [78, 125, 156, 224, 0, 163], "final_diagnosis": {"tibia medial anterior BML... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
78,
125,
156,
224,
0,
163
],
"final_diagnosis": {
"tibia_medial_anterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia medial central subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 B... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [78, 126, 126, 177, 0, 172], "final_diagnosis": {"tibia medial central BML"... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
78,
126,
126,
177,
0,
172
],
"final_diagnosis": {
"tibia_medial_central_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia medial posterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [77, 128, 79, 133, 0, 164], "final_diagnosis": {"tibia medial posterior BML... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
77,
128,
79,
133,
0,
164
],
"final_diagnosis": {
"tibia_medial_posterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia lateral anterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [20, 70, 155, 231, 1, 150], "final_diagnosis": {"tibia lateral anterior BML... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
20,
70,
155,
231,
1,
150
],
"final_diagnosis": {
"tibia_lateral_anterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia lateral central subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [20, 70, 129, 176, 0, 170], "final_diagnosis": {"tibia lateral central BML"... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
20,
70,
129,
176,
0,
170
],
"final_diagnosis": {
"tibia_lateral_central_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia lateral posterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [18, 70, 84, 138, 0, 167], "final_diagnosis": {"tibia lateral posterior BML... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
18,
70,
84,
138,
0,
167
],
"final_diagnosis": {
"tibia_lateral_posterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia subspinous subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 BMLs,... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [66, 84, 81, 230, 0, 170], "final_diagnosis": {"tibia subspinous BML": {"Si... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
66,
84,
81,
230,
0,
170
],
"final_diagnosis": {
"tibia_subspinous_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the patella medial subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grade 0: No... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
77,
109,
266,
325,
191,
304
],
"final_diagnosis": {
"patella_medial_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the patella lateral subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grade 0: N... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
46,
80,
267,
324,
189,
304
],
"final_diagnosis": {
"patella_lateral_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur medial trochlea subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grad... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | {
"bounding_box": [
79,
133,
156,
257,
181,
251
],
"final_diagnosis": {
"femur_medial_trochlea_cartilage_lesion": {
"size": 1,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur medial central subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grade... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
77,
131,
106,
235,
154,
247
],
"final_diagnosis": {
"femur_medial_central_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur medial posterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gra... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
76,
132,
86,
196,
167,
248
],
"final_diagnosis": {
"femur_medial_posterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur lateral trochlea subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gra... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
40,
79,
188,
268,
181,
257
],
"final_diagnosis": {
"femur_lateral_trochlea_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur lateral central subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grad... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
36,
79,
129,
231,
167,
254
],
"final_diagnosis": {
"femur_lateral_central_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur lateral posterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gr... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
32,
77,
93,
192,
173,
256
],
"final_diagnosis": {
"femur_lateral_posterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia medial anterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grad... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
78,
125,
156,
224,
0,
163
],
"final_diagnosis": {
"tibia_medial_anterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia medial central subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grade... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
78,
126,
126,
177,
0,
172
],
"final_diagnosis": {
"tibia_medial_central_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia medial posterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gra... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
77,
128,
79,
133,
0,
164
],
"final_diagnosis": {
"tibia_medial_posterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia lateral anterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gra... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
20,
70,
155,
231,
1,
150
],
"final_diagnosis": {
"tibia_lateral_anterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia lateral central subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grad... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
20,
70,
129,
176,
0,
170
],
"final_diagnosis": {
"tibia_lateral_central_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia lateral posterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gr... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
18,
70,
84,
138,
0,
167
],
"final_diagnosis": {
"tibia_lateral_posterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the patella superior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte sh... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
46,
109,
266,
325,
189,
304
],
"final_diagnosis": {
"patella_superior_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the patella inferior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte sh... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
46,
109,
266,
325,
189,
304
],
"final_diagnosis": {
"patella_inferior_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the patella medial location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte shou... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
77,
109,
266,
325,
191,
304
],
"final_diagnosis": {
"patella_medial_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the patella lateral location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte sho... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
46,
80,
267,
324,
189,
304
],
"final_diagnosis": {
"patella_lateral_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur medial anterior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophy... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
79,
133,
156,
257,
181,
251
],
"final_diagnosis": {
"femur_medial_anterior_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur medial central location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyt... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
40,
79,
188,
268,
181,
257
],
"final_diagnosis": {
"femur_medial_central_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur medial posterior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteoph... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
76,
132,
86,
196,
167,
248
],
"final_diagnosis": {
"femur_medial_posterior_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur lateral anterior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteoph... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
32,
77,
93,
192,
173,
256
],
"final_diagnosis": {
"femur_lateral_anterior_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur lateral central location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophy... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
36,
79,
129,
231,
167,
254
],
"final_diagnosis": {
"femur_lateral_central_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur lateral posterior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteop... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
32,
77,
93,
192,
173,
256
],
"final_diagnosis": {
"femur_lateral_posterior_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the tibia medial location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
78,
125,
156,
224,
0,
163
],
"final_diagnosis": {
"tibia_medial_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the tibia lateral location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte shoul... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
20,
70,
155,
231,
1,
150
],
"final_diagnosis": {
"tibia_lateral_osteophyte": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, assess Hoffa-synovitis. Hoffa-synovitis is scored using MOAKS grading based on the hyperintensity (brightness) in Hoffa's fat pad: Grade 0: Normal (fat pad looks dark throughout with minimal traceable linear streaks), Grade 1: Mild (fat pad looks dark in general but with some mild areas ... | The Hoffa's fat pad is located between the patella inferior border, the patellar tendon, the femur trochlear articular surface, the menisci, and the tibia anterior part. It is well seen in the sagittal view on the DESS image. The degree of Hoffa-Synovitis is graded by the hyperintensity (brightness) in Hoffa's fat pad.... | The Hoffa's fat pad is located between the patella inferior border, the patellar tendon, the femur trochlear articular surface, the menisci, and the tibia anterior part. It is well seen in the sagittal view on the DESS image. The degree of Hoffa-Synovitis is graded by the hyperintensity (brightness) in Hoffa's fat pad.... | {
"bounding_box": [
46,
100,
193,
298,
75,
228
],
"final_diagnosis": {
"Hoffa-Synovitis": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, assess effusion-synovitis. Effusion-synovitis is scored using MOAKS grading based on the size of the fluid signal in the joint cavity: Grade 0: Physiologic amount of fluid, Grade 1: Small amount of fluid continuous in the retropatellar space, Grade 2: Medium amount of fluid, with slight ... | The effusion-synovitis is best seen in the axial view. The knee joint fluid is seen as hyperintense (bright) in the DESS image. The amount of fluid is physiologic, not enough to be continuous in the retropatellar space. I can see the joint capsule region, but there is minimal to no fluid accumulation visible as hyperin... | The effusion-synovitis is best seen in the axial view. The knee joint fluid is seen as hyperintense (bright) in the DESS image. The amount of fluid is physiologic, not enough to be continuous in the retropatellar space. I can see the joint capsule region, but there is minimal to no fluid accumulation visible as hyperin... | {
"bounding_box": [
26,
136,
1,
382,
1,
292
],
"final_diagnosis": {
"effusion-synovitis": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, measure medial meniscus anterior extrusions. Meniscal extrusion is measured as the maximum protrusion distance from the tibial plateau. Meniscal extrusion is scored using MOAKS grading: Grade 0: Extrusion is below 2mm, Grade 1: Extrusion is between 2 to 3mm, Grade 2: Extrusion is between... | The medial meniscus anterior extrusion is measured by the maximum distance the meniscus is protruding from the margin of the tibial articular surface. It is measured in the sagittal view. The extrusion is below 2mm.
Final diagnosis: {"bounding_box": [84, 130, 92, 220, 135, 167], "final_diagnosis": {"medial meniscus an... | The medial meniscus anterior extrusion is measured by the maximum distance the meniscus is protruding from the margin of the tibial articular surface. It is measured in the sagittal view. The extrusion is below 2mm. | {
"bounding_box": [
84,
130,
92,
220,
135,
167
],
"final_diagnosis": {
"medial_meniscus_anterior_extrusion": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, measure medial meniscus medial extrusions. Meniscal extrusion is measured as the maximum protrusion distance from the tibial plateau. Meniscal extrusion is scored using MOAKS grading: Grade 0: Extrusion is below 2mm, Grade 1: Extrusion is between 2 to 3mm, Grade 2: Extrusion is between 3... | The medial meniscus medial extrusion is measured by the maximum distance the meniscus is protruding from the margin of the tibial articular surface. It is measured in the coronal view. The extrusion is below 2mm.
Final diagnosis: {"bounding_box": [84, 130, 92, 220, 135, 167], "final_diagnosis": {"medial meniscus media... | The medial meniscus medial extrusion is measured by the maximum distance the meniscus is protruding from the margin of the tibial articular surface. It is measured in the coronal view. The extrusion is below 2mm. | {
"bounding_box": [
84,
130,
92,
220,
135,
167
],
"final_diagnosis": {
"medial_meniscus_medial_extrusion": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, measure lateral meniscus anterior extrusions. Meniscal extrusion is measured as the maximum protrusion distance from the tibial plateau. Meniscal extrusion is scored using MOAKS grading: Grade 0: Extrusion is below 2mm, Grade 1: Extrusion is between 2 to 3mm, Grade 2: Extrusion is betwee... | The lateral meniscus anterior extrusion is measured by the maximum distance the meniscus is protruding from the margin of the tibial articular surface. It is measured in the sagittal view. The extrusion is below 2mm.
Final diagnosis: {"bounding_box": [21, 72, 98, 199, 144, 183], "final_diagnosis": {"lateral meniscus a... | The lateral meniscus anterior extrusion is measured by the maximum distance the meniscus is protruding from the margin of the tibial articular surface. It is measured in the sagittal view. The extrusion is below 2mm. | {
"bounding_box": [
21,
72,
98,
199,
144,
183
],
"final_diagnosis": {
"lateral_meniscus_anterior_extrusion": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, measure lateral meniscus lateral extrusions. Meniscal extrusion is measured as the maximum protrusion distance from the tibial plateau. Meniscal extrusion is scored using MOAKS grading: Grade 0: Extrusion is below 2mm, Grade 1: Extrusion is between 2 to 3mm, Grade 2: Extrusion is between... | The lateral meniscus lateral extrusion is measured by the maximum distance the meniscus is protruding from the margin of the tibial articular surface. It is measured in the coronal view. The extrusion is below 2mm.
Final diagnosis: {"bounding_box": [21, 72, 98, 199, 144, 183], "final_diagnosis": {"lateral meniscus lat... | The lateral meniscus lateral extrusion is measured by the maximum distance the meniscus is protruding from the margin of the tibial articular surface. It is measured in the coronal view. The extrusion is below 2mm. | {
"bounding_box": [
21,
72,
98,
199,
144,
183
],
"final_diagnosis": {
"lateral_meniscus_lateral_extrusion": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, describe the medial meniscus anterior morphology. Meniscal morphology is scored using MOAKS grading: Grade 0: Normal meniscus, Grade 1: Signal abnormality (not severe enough to be considered a tear), Grade 2: Radial tear, Grade 3: Horizontal tear, Grade 4: Vertical tear, Grade 5: Complex... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | {
"bounding_box": [
84,
130,
92,
220,
135,
167
],
"final_diagnosis": {
"medial_meniscus_anterior_morphology": {
"morphology": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, describe the medial meniscus body morphology. Meniscal morphology is scored using MOAKS grading: Grade 0: Normal meniscus, Grade 1: Signal abnormality (not severe enough to be considered a tear), Grade 2: Radial tear, Grade 3: Horizontal tear, Grade 4: Vertical tear, Grade 5: Complex tea... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | {
"bounding_box": [
84,
130,
92,
220,
135,
167
],
"final_diagnosis": {
"medial_meniscus_body_morphology": {
"morphology": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, describe the medial meniscus posterior morphology. Meniscal morphology is scored using MOAKS grading: Grade 0: Normal meniscus, Grade 1: Signal abnormality (not severe enough to be considered a tear), Grade 2: Radial tear, Grade 3: Horizontal tear, Grade 4: Vertical tear, Grade 5: Comple... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is signal abnormality that is not... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is signal abnormality that is not... | {
"bounding_box": [
84,
130,
92,
220,
135,
167
],
"final_diagnosis": {
"medial_meniscus_posterior_morphology": {
"morphology": 1
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, describe the lateral meniscus anterior morphology. Meniscal morphology is scored using MOAKS grading: Grade 0: Normal meniscus, Grade 1: Signal abnormality (not severe enough to be considered a tear), Grade 2: Radial tear, Grade 3: Horizontal tear, Grade 4: Vertical tear, Grade 5: Comple... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | {
"bounding_box": [
21,
72,
98,
199,
144,
183
],
"final_diagnosis": {
"lateral_meniscus_anterior_morphology": {
"morphology": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, describe the lateral meniscus body morphology. Meniscal morphology is scored using MOAKS grading: Grade 0: Normal meniscus, Grade 1: Signal abnormality (not severe enough to be considered a tear), Grade 2: Radial tear, Grade 3: Horizontal tear, Grade 4: Vertical tear, Grade 5: Complex te... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | {
"bounding_box": [
21,
72,
98,
199,
144,
183
],
"final_diagnosis": {
"lateral_meniscus_body_morphology": {
"morphology": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, describe the lateral meniscus posterior morphology. Meniscal morphology is scored using MOAKS grading: Grade 0: Normal meniscus, Grade 1: Signal abnormality (not severe enough to be considered a tear), Grade 2: Radial tear, Grade 3: Horizontal tear, Grade 4: Vertical tear, Grade 5: Compl... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | The normal meniscus is triangular shaped, with meniscal fibrocartilage showing uniformly low–to–intermediate signal structure in DESS MRI. If there are signal abnormality in the meniscus, or shape abnormality, disruption of continuity, etc, it is regarded as meniscus abnormality. There is no signal abnormality or any m... | {
"bounding_box": [
21,
72,
98,
199,
144,
183
],
"final_diagnosis": {
"lateral_meniscus_posterior_morphology": {
"morphology": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, assess the ACL. Provide your reasoning, the bounding box of the ACL region and indicate for the following: whether there is a complete tear and whether there is an associated BML or cyst at the site of insertion or origin, and whether there has been ACL repair. Provide your reasoning, th... | The normal ACL shows uniformly low-signal, discrete fibrous bands running from femur to tibia on DESS MRI, with continuous fibers and smooth margins. I need to assess if there is a complete tear of the ACL. The ACL fibers are continuous, indicating no complete tear. I need to check for bone marrow lesions (BML) or cyst... | The normal ACL shows uniformly low-signal, discrete fibrous bands running from femur to tibia on DESS MRI, with continuous fibers and smooth margins. I need to assess if there is a complete tear of the ACL. The ACL fibers are continuous, indicating no complete tear. I need to check for bone marrow lesions (BML) or cyst... | {
"bounding_box": [
63,
86,
115,
191,
146,
246
],
"final_diagnosis": {
"ACL": {
"Complete_Tear?": 0,
"Associated_with_BML/cyst_at_site_of_insertion_or_origin?": 0,
"ACL_Repair": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, assess the PCL. Provide your reasoning, the bounding box of the PCL region and indicate for the following: whether there is a complete tear and whether there is an associated BML or cyst at the site of insertion or origin. Provide your reasoning, the bounding box of the PCL region, and t... | The normal PCL shows uniformly low-signal, discrete fibrous bands running from femur to tibia on DESS MRI, with continuous fibers and smooth margins. I need to assess if there is a complete tear of the PCL. The PCL fibers are continuous, indicating no complete tear. I need to check for bone marrow lesions (BML) or cyst... | The normal PCL shows uniformly low-signal, discrete fibrous bands running from femur to tibia on DESS MRI, with continuous fibers and smooth margins. I need to assess if there is a complete tear of the PCL. The PCL fibers are continuous, indicating no complete tear. I need to check for bone marrow lesions (BML) or cyst... | {
"bounding_box": [
68,
100,
84,
169,
126,
214
],
"final_diagnosis": {
"PCL": {
"Complete_Tear?": 0,
"Associated_with_BML/cyst_at_site_of_insertion_or_origin?": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, assess the patellar tendon. Provide your reasoning, the bounding box of the patellar tendon region, and whether there is a signal abnormality. Provide your reasoning, the bounding box of the patellar tendon region, and the assessment. The output format should be a JSON object with the bo... | The patellar tendon should have low-to-intermediate signal, straight hypointense band from the inferior patellar pole to the tibial tuberosity. I need to assess if there is any signal abnormality in the patellar tendon. There is no signal abnormality in the patellar tendon.
Final diagnosis: {"final_diagnosis": {"Patel... | The patellar tendon should have low-to-intermediate signal, straight hypointense band from the inferior patellar pole to the tibial tuberosity. I need to assess if there is any signal abnormality in the patellar tendon. There is no signal abnormality in the patellar tendon. | {
"final_diagnosis": {
"Patellar_Tendon": {
"Signal_abnormality": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, detect pes anserine bursitis, if there is any. Provide your reasoning and whether it is present. The output format should be a JSON object with the pes anserine bursitis presence: {"pes_anserine_bursitis_presence": {"presence": (0 | 1)}}
### Answer (think step by step):
| For pes anserine bursitis, the coronal view is used for evaluation. Pes anserine is a bursa that lies anterior and inferior to the medial tibial plateau. I need to check for signs of bursitis in this area. There is no sign of pes anserine bursitis.
Final diagnosis: {"final_diagnosis": {"pes_anserine_bursitis_presence"... | For pes anserine bursitis, the coronal view is used for evaluation. Pes anserine is a bursa that lies anterior and inferior to the medial tibial plateau. I need to check for signs of bursitis in this area. There is no sign of pes anserine bursitis. | {
"final_diagnosis": {
"pes_anserine_bursitis_presence": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, detect iliotibial band signal, if there is any. Provide your reasoning and whether it is present. The output format should be a JSON object with the iliotibial band signal presence: {"iliotibial_band_signal_presence": {"presence": (0 | 1)}}
### Answer (think step by step):
| The iliotibial band is a strong, dense, broad layer of fascia that is part of the fascia lata. I need to check for any signal abnormality in this structure. The iliotibial band shows thin low-signal fascia against the lateral femur, without high-signal interface.
Final diagnosis: {"final_diagnosis": {"iliotibial_band_... | The iliotibial band is a strong, dense, broad layer of fascia that is part of the fascia lata. I need to check for any signal abnormality in this structure. The iliotibial band shows thin low-signal fascia against the lateral femur, without high-signal interface. | {
"final_diagnosis": {
"iliotibial_band_signal_presence": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, detect a popliteal cyst, if there is any. Provide your reasoning and whether it is present. The output format should be a JSON object with the popliteal cyst presence: {"popliteal_cyst_presence": {"presence": (0 | 1)}}
### Answer (think step by step):
| Popliteal cysts are not true cysts and represent fluid in the semimembranosus–gastrocnemius bursa. The communication between the joint space allows intraarticular joint fluid to communicate with this bursa. I need to check for fluid collection in this region. There is no fluid in this region.
Final diagnosis: {"final_... | Popliteal cysts are not true cysts and represent fluid in the semimembranosus–gastrocnemius bursa. The communication between the joint space allows intraarticular joint fluid to communicate with this bursa. I need to check for fluid collection in this region. There is no fluid in this region. | {
"final_diagnosis": {
"popliteal_cyst_presence": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, detect infrapatellar bursitis, if there is any. Provide your reasoning and whether it is present. The output format should be a JSON object with the infrapatellar bursitis presence: {"infrapatellar_bursitis_presence": {"presence": (0 | 1)}}
### Answer (think step by step):
| Infrapatellar bursa is located inferior to Hoffa's fat pad adjacent to the patellar tendon. I need to check for signs of bursitis in this area. There is no fluid collection or hyperintense signal intensity in this area.
Final diagnosis: {"final_diagnosis": {"infrapatellar_bursitis_presence": {"grade": 0}}} | Infrapatellar bursa is located inferior to Hoffa's fat pad adjacent to the patellar tendon. I need to check for signs of bursitis in this area. There is no fluid collection or hyperintense signal intensity in this area. | {
"final_diagnosis": {
"infrapatellar_bursitis_presence": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, detect prepatellar bursitis, if there is any. Provide your reasoning and whether it is present. The output format should be a JSON object with the prepatellar bursitis presence: {"prepatellar_bursitis_presence": {"presence": (0 | 1)}}
### Answer (think step by step):
| Prepatellar bursa lies anterior to the patella. I need to check for signs of bursitis in this area. There is no fluid collection or hyperintense signal intensity in this area.
Final diagnosis: {"final_diagnosis": {"prepatellar_bursitis_presence": {"grade": 0}}} | Prepatellar bursa lies anterior to the patella. I need to check for signs of bursitis in this area. There is no fluid collection or hyperintense signal intensity in this area. | {
"final_diagnosis": {
"prepatellar_bursitis_presence": {
"grade": 0
}
}
} |
/data/images/9010308/00M/20040915_10243212_1.nii.gz | ### Question:
In this DESS MRI, detect a ganglion cyst, if there is any. Provide your reasoning and whether it is present. The output format should be a JSON object with the ganglion cyst presence: {"ganglion_cyst_presence": {"presence": (0 | 1)}}
### Answer (think step by step):
| Ganglion cysts will show hyperintense signal, and is surrounded in a capsule (cyst). They are different from popliteal cysts, which originate from the joint fluid. They can be unilocular or multilocular, or lobular. I need to check for the presence of ganglion cysts. There are no ganglion cysts.
Final diagnosis: {"fin... | Ganglion cysts will show hyperintense signal, and is surrounded in a capsule (cyst). They are different from popliteal cysts, which originate from the joint fluid. They can be unilocular or multilocular, or lobular. I need to check for the presence of ganglion cysts. There are no ganglion cysts. | {
"final_diagnosis": {
"ganglion_cyst_presence": {
"grade": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the patella medial subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 BMLs, G... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is an increased signal intensity in the subregion. It's size is less than 33% of the subregion. There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final d... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is an increased signal intensity in the subregion. It's size is less than 33% of the subregion. There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
72,
99,
251,
305,
176,
273
],
"final_diagnosis": {
"patella_medial_BML": {
"Size_of_BML_(including_cyst)": 1,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the patella lateral subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 BMLs, ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [44, 73, 252, 304, 175, 275], "final_diagnosis": {"patella lateral BML": {"... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
44,
73,
252,
304,
175,
275
],
"final_diagnosis": {
"patella_lateral_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur medial trochlea subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is an increased signal intensity in the subregion. It's size is less than 33% of the subregion. There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final d... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is an increased signal intensity in the subregion. It's size is less than 33% of the subregion. There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
77,
124,
169,
253,
191,
244
],
"final_diagnosis": {
"femur_medial_trochlea_BML": {
"Size_of_BML_(including_cyst)": 1,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur medial central subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 B... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [77, 124, 112, 234, 165, 242], "final_diagnosis": {"femur medial central BM... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
77,
124,
112,
234,
165,
242
],
"final_diagnosis": {
"femur_medial_central_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur medial posterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [77, 126, 98, 199, 180, 245], "final_diagnosis": {"femur medial posterior B... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
77,
126,
98,
199,
180,
245
],
"final_diagnosis": {
"femur_medial_posterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur lateral trochlea subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [35, 78, 171, 256, 189, 249], "final_diagnosis": {"femur lateral trochlea B... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
35,
78,
171,
256,
189,
249
],
"final_diagnosis": {
"femur_lateral_trochlea_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur lateral central subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [35, 79, 116, 229, 171, 248], "final_diagnosis": {"femur lateral central BM... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
35,
79,
116,
229,
171,
248
],
"final_diagnosis": {
"femur_lateral_central_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the femur lateral posterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [36, 77, 100, 197, 179, 249], "final_diagnosis": {"femur lateral posterior ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
36,
77,
100,
197,
179,
249
],
"final_diagnosis": {
"femur_lateral_posterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia medial anterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [82, 124, 153, 214, 0, 168], "final_diagnosis": {"tibia medial anterior BML... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
82,
124,
153,
214,
0,
168
],
"final_diagnosis": {
"tibia_medial_anterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia medial central subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 B... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [82, 125, 122, 169, 0, 182], "final_diagnosis": {"tibia medial central BML"... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
82,
125,
122,
169,
0,
182
],
"final_diagnosis": {
"tibia_medial_central_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia medial posterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [84, 125, 85, 139, 0, 177], "final_diagnosis": {"tibia medial posterior BML... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
84,
125,
85,
139,
0,
177
],
"final_diagnosis": {
"tibia_medial_posterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia lateral anterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [27, 75, 132, 213, 0, 162], "final_diagnosis": {"tibia lateral anterior BML... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
27,
75,
132,
213,
0,
162
],
"final_diagnosis": {
"tibia_lateral_anterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia lateral central subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [28, 77, 115, 163, 0, 183], "final_diagnosis": {"tibia lateral central BML"... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
28,
77,
115,
163,
0,
183
],
"final_diagnosis": {
"tibia_lateral_central_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia lateral posterior subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: ... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final diagnosis: {"bounding_box": [29, 79, 76, 127, 0, 176], "final_diagnosis": {"tibia lateral posterior BML... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
29,
79,
76,
127,
0,
176
],
"final_diagnosis": {
"tibia_lateral_posterior_BML": {
"Size_of_BML_(including_cyst)": 0,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose bone-marrow lesions (BMLs) in the tibia subspinous subregion? BMLs are scored using three MOAKS components: Size (Grade 0: None, Grade 1: <33% of subregion, Grade 2: 33-66% of subregion, Grade 3: >66% of subregion), Number (Grade 0: None, Grade 1: 1 BML, Grade 2: 2 BMLs,... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is an increased signal intensity in the subregion. It's size is less than 33% of the subregion. There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic.
Final d... | I should detect hyperintense areas (BMLs) vs. normal low-signal bone; exclude vascular streaks (normal). There is an increased signal intensity in the subregion. It's size is less than 33% of the subregion. There is no signal intensity difference in the bone, which makes it normal. The lesion is purely cystic. | {
"bounding_box": [
68,
87,
85,
213,
0,
182
],
"final_diagnosis": {
"tibia_subspinous_BML": {
"Size_of_BML_(including_cyst)": 1,
"Number_of_BML_within_subregion": 0,
"%_of_lesion_that_is_BML_(excluding_cyst)": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the patella medial subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grade 0: No... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | {
"bounding_box": [
72,
99,
251,
305,
176,
273
],
"final_diagnosis": {
"patella_medial_cartilage_lesion": {
"size": 2,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the patella lateral subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grade 0: N... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | {
"bounding_box": [
44,
73,
252,
304,
175,
275
],
"final_diagnosis": {
"patella_lateral_cartilage_lesion": {
"size": 2,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur medial trochlea subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grad... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | {
"bounding_box": [
77,
124,
169,
253,
191,
244
],
"final_diagnosis": {
"femur_medial_trochlea_cartilage_lesion": {
"size": 2,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur medial central subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grade... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | {
"bounding_box": [
77,
124,
112,
234,
165,
242
],
"final_diagnosis": {
"femur_medial_central_cartilage_lesion": {
"size": 1,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur medial posterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gra... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
77,
126,
98,
199,
180,
245
],
"final_diagnosis": {
"femur_medial_posterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur lateral trochlea subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gra... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | {
"bounding_box": [
35,
78,
171,
256,
189,
249
],
"final_diagnosis": {
"femur_lateral_trochlea_cartilage_lesion": {
"size": 2,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur lateral central subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grad... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is loss of cartilage in th... | {
"bounding_box": [
35,
79,
116,
229,
171,
248
],
"final_diagnosis": {
"femur_lateral_central_cartilage_lesion": {
"size": 1,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the femur lateral posterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gr... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
36,
77,
100,
197,
179,
249
],
"final_diagnosis": {
"femur_lateral_posterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia medial anterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grad... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
82,
124,
153,
214,
0,
168
],
"final_diagnosis": {
"tibia_medial_anterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia medial central subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grade... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
82,
125,
122,
169,
0,
182
],
"final_diagnosis": {
"tibia_medial_central_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia medial posterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gra... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
84,
125,
85,
139,
0,
177
],
"final_diagnosis": {
"tibia_medial_posterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia lateral anterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gra... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
27,
75,
132,
213,
0,
162
],
"final_diagnosis": {
"tibia_lateral_anterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia lateral central subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Grad... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
28,
77,
115,
163,
0,
183
],
"final_diagnosis": {
"tibia_lateral_central_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, can you diagnose cartilage lesions in the tibia lateral posterior subregion? Cartilage lesions are scored using two MOAKS components: Size (Grade 0: None, Grade 1: <10% of surface area, Grade 2: 10-75% of surface area, Grade 3: >75% of surface area) and Percent of full-thickness loss (Gr... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | The cartilage looks gray in the DESS image. It covers the articular surfaces of the bones. I need to see whether the patient's cartilage has a smooth surface, evenly distributed thickness. If there is an abrupt thinning of cartilage, disruption of contour, it implies a cartilage lesion. There is no abrupt change in car... | {
"bounding_box": [
29,
79,
76,
127,
0,
176
],
"final_diagnosis": {
"tibia_lateral_posterior_cartilage_lesion": {
"size": 0,
"depth": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the patella superior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte sh... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
44,
99,
251,
305,
175,
275
],
"final_diagnosis": {
"patella_superior_osteophyte": {
"grade": 1
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the patella inferior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte sh... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
44,
99,
251,
305,
175,
275
],
"final_diagnosis": {
"patella_inferior_osteophyte": {
"grade": 1
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the patella medial location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte shou... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
72,
99,
251,
305,
176,
273
],
"final_diagnosis": {
"patella_medial_osteophyte": {
"grade": 1
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the patella lateral location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte sho... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
44,
73,
252,
304,
175,
275
],
"final_diagnosis": {
"patella_lateral_osteophyte": {
"grade": 1
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur medial anterior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophy... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
77,
124,
169,
253,
191,
244
],
"final_diagnosis": {
"femur_medial_anterior_osteophyte": {
"grade": 0
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur medial central location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyt... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
35,
78,
171,
256,
189,
249
],
"final_diagnosis": {
"femur_medial_central_osteophyte": {
"grade": 1
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur medial posterior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteoph... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
77,
126,
98,
199,
180,
245
],
"final_diagnosis": {
"femur_medial_posterior_osteophyte": {
"grade": 2
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur lateral anterior location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteoph... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
36,
77,
100,
197,
179,
249
],
"final_diagnosis": {
"femur_lateral_anterior_osteophyte": {
"grade": 1
}
}
} |
/data/images/9048308/00M/20050221_10169609_1.nii.gz | ### Question:
In this DESS MRI, identify and grade the osteophyte at the femur lateral central location. Osteophytes are scored using MOAKS grading: Grade 0: None, Grade 1: Small, Grade 2: Medium, Grade 3: Large. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophy... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | Osteophytes, also known as bony spurs, are shown as bumps or projections that stick out from the bones. They are graded according to size. If there are multiple osteophytes in a given subregion, the largest will be evaluated. The size of osteophyte should reflect protuberance (how far the osteophyte extends from the jo... | {
"bounding_box": [
35,
79,
116,
229,
171,
248
],
"final_diagnosis": {
"femur_lateral_central_osteophyte": {
"grade": 1
}
}
} |
Subsets and Splits
Train Data with Large Cartilage Lesions
Retrieves images and answers for cases where the femur medial central cartilage lesion is both large and deep, providing insights into significant medical findings.