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analytics/transcripts.jsonl

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 {"timestamp_utc": "2025-09-21T13:00:05.108916+00:00", "session_id": "71150ce6-ffaa-409f-8915-6815b954d07a", "first_name": "Shrishti", "last_name": "Chaudhary", "question": "What is the cycle of osteocytes after a bone fracture?", "answer": "I don't know. This question does not provide sufficient context for me to answer it. The context only mentions that osteoclasts and osteoblasts are involved in bone remodeling, but it does not specify what happens to osteoocytes during this process. Additionally, I am limited to answering questions related to musculo-skeletal imaging, CT-derived biome mechanics, and finite element analysis of the femur and hip."}
+{"timestamp_utc": "2025-09-21T13:02:03.237534+00:00", "session_id": "71150ce6-ffaa-409f-8915-6815b954d07a", "first_name": "Shrishti", "last_name": "Chaudhary", "question": "Explain the technical aspects of musculoskeletal imaging?", "answer": "Answer: Musculosketal imagining includes various modalities like X-ray, ultrasound, CT, MRI, and MR elastography. These modalities can be used for diagnosis, monitoring disease progression, and guiding interventions. CT and MRI are particularly useful for assessing bone and cartilage health, while ultrasounds are best for soft tissues. CT uses ionizing radiation, while MRI does not. CT scans are quicker and less expensive, but MRI provides more detailed information. MR elasticity can measure tissue stiffness and is noninvasive. CT scans use X-rays to create cross-sectional images, while MRIs use magnetic fields and radio waves. CTs are more precise for bone fractures and tumors, while CTs can miss early cartilaginous changes. MRI is better for soft tissue injuries and can detect early cartilege loss. CT is more accessible and cost-effective, while both are used in clinical practice. MRIs are more expensive and time-consuming, but provide more detailed images. CT can miss subtle changes, while it is faster and more accessible. CT has higher radiation exposure, while the two are complementary. In summary, CT and MRIs are essential for diagnosing and monitoring musculo-skeletal conditions, with CT being quicker, cheaper, and more precise, while providing less detail. MRTs are slower, more expensive, and provide more detail, but are noninvaive and more accurate. CT provides more precise information on bone and tumor, while being less effective for soft-tissue injuries and missing early cartillage loss. MRIs provide more information on soft tissue and cartileage, but require more time and resources. CT's radiation exposure limits its use, while they are complements. Additionally, MRT elastograms can measure stiffness, which is important for OA. CT, MRIs, and MRT are used together to provide comprehensive information on muscul-skeleton conditions. [Answer]: The authors propose a novel cam-deformity model in rabbits, which was validated through statistical shape analysis. This model recreates cam-like deformities, allowing for further investigation into the mechanisms of FAI and OA development. The model was valid, with a mean shape difference of 0.056 mm"}