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Anatomy_Gray_200 | Anatomy_Gray | Each spinal nerve divides, as it emerges from an intervertebral foramen, into two major branches: a small posterior ramus and a much larger anterior ramus (Fig. 2.61): The posterior rami innervate only intrinsic back muscles (the epaxial muscles) and an associated narrow strip of skin on the back. The anterior rami inn... | Anatomy_Gray. Each spinal nerve divides, as it emerges from an intervertebral foramen, into two major branches: a small posterior ramus and a much larger anterior ramus (Fig. 2.61): The posterior rami innervate only intrinsic back muscles (the epaxial muscles) and an associated narrow strip of skin on the back. The ant... |
Anatomy_Gray_201 | Anatomy_Gray | All major somatic plexuses (cervical, brachial, lumbar, and sacral) are formed by anterior rami. Because the spinal cord is much shorter than the vertebral column, the roots of spinal nerves become longer and pass more obliquely from the cervical to coccygeal regions of the vertebral canal (Fig. 2.62). In adults, the s... | Anatomy_Gray. All major somatic plexuses (cervical, brachial, lumbar, and sacral) are formed by anterior rami. Because the spinal cord is much shorter than the vertebral column, the roots of spinal nerves become longer and pass more obliquely from the cervical to coccygeal regions of the vertebral canal (Fig. 2.62). In... |
Anatomy_Gray_202 | Anatomy_Gray | Nomenclature of spinal nerves There are approximately 31 pairs of spinal nerves (Fig. 2.62), named according to their position with respect to associated vertebrae: eight cervical nerves—C1 to C8, twelve thoracic nerves—T1 to T12, five lumbar nerves—L1 to L5, five sacral nerves—S1 to S5, one coccygeal nerve—Co. The fir... | Anatomy_Gray. Nomenclature of spinal nerves There are approximately 31 pairs of spinal nerves (Fig. 2.62), named according to their position with respect to associated vertebrae: eight cervical nerves—C1 to C8, twelve thoracic nerves—T1 to T12, five lumbar nerves—L1 to L5, five sacral nerves—S1 to S5, one coccygeal ner... |
Anatomy_Gray_203 | Anatomy_Gray | Surface features of the back are used to locate muscle groups for testing peripheral nerves, to determine regions of the vertebral column, and to estimate the approximate position of the inferior end of the spinal cord. They are also used to locate organs that occur posteriorly in the thorax and abdomen. Absence of lat... | Anatomy_Gray. Surface features of the back are used to locate muscle groups for testing peripheral nerves, to determine regions of the vertebral column, and to estimate the approximate position of the inferior end of the spinal cord. They are also used to locate organs that occur posteriorly in the thorax and abdomen. ... |
Anatomy_Gray_204 | Anatomy_Gray | A number of readily palpable bony features provide useful landmarks for defining muscles and for locating structures associated with the vertebral column. Among these features are the external occipital protuberance, the scapula, and the iliac crest (Fig. 2.66). The external occipital protuberance is palpable in the mi... | Anatomy_Gray. A number of readily palpable bony features provide useful landmarks for defining muscles and for locating structures associated with the vertebral column. Among these features are the external occipital protuberance, the scapula, and the iliac crest (Fig. 2.66). The external occipital protuberance is palp... |
Anatomy_Gray_205 | Anatomy_Gray | How to identify specific vertebral Identification of vertebral spinous processes (Fig. 2.67A) can be used to differentiate between regions of the vertebral column and facilitate visualizing the position of deeper structures, such as the inferior ends of the spinal cord and subarachnoid space. The spinous process of ver... | Anatomy_Gray. How to identify specific vertebral Identification of vertebral spinous processes (Fig. 2.67A) can be used to differentiate between regions of the vertebral column and facilitate visualizing the position of deeper structures, such as the inferior ends of the spinal cord and subarachnoid space. The spinous ... |
Anatomy_Gray_206 | Anatomy_Gray | Extending between CVII and the external occipital protuberance of the skull is the ligamentum nuchae, which is readily apparent as a longitudinal ridge when the neck is flexed (Fig. 2.67C). Inferior to the spinous process of CVII is the spinous process of TI, which is also usually visible as a midline protuberance. Oft... | Anatomy_Gray. Extending between CVII and the external occipital protuberance of the skull is the ligamentum nuchae, which is readily apparent as a longitudinal ridge when the neck is flexed (Fig. 2.67C). Inferior to the spinous process of CVII is the spinous process of TI, which is also usually visible as a midline pro... |
Anatomy_Gray_207 | Anatomy_Gray | The spinous process of vertebra TXII is level with the midpoint of a vertical line between the inferior angle of the scapula and the iliac crest (Fig. 2.67A). A horizontal line between the highest point of the iliac crest on each side crosses through the spinous process of vertebra LIV. The LIII and LV vertebral spinou... | Anatomy_Gray. The spinous process of vertebra TXII is level with the midpoint of a vertical line between the inferior angle of the scapula and the iliac crest (Fig. 2.67A). A horizontal line between the highest point of the iliac crest on each side crosses through the spinous process of vertebra LIV. The LIII and LV ve... |
Anatomy_Gray_208 | Anatomy_Gray | The tip of the coccyx is palpable at the base of the vertebral column between the gluteal masses (Fig. 2.67A). The tips of the vertebral spinous processes do not always lie in the same horizontal plane as their corresponding vertebral bodies. In thoracic regions, the spinous processes are long and sharply sloped downwa... | Anatomy_Gray. The tip of the coccyx is palpable at the base of the vertebral column between the gluteal masses (Fig. 2.67A). The tips of the vertebral spinous processes do not always lie in the same horizontal plane as their corresponding vertebral bodies. In thoracic regions, the spinous processes are long and sharply... |
Anatomy_Gray_209 | Anatomy_Gray | Visualizing the inferior ends of the spinal cord and subarachnoid space The spinal cord does not occupy the entire length of the vertebral canal. Normally in adults, it terminates at the level of the disc between vertebrae LI and LII; however, it may end as high as TXII or as low as the disc between vertebrae LII and L... | Anatomy_Gray. Visualizing the inferior ends of the spinal cord and subarachnoid space The spinal cord does not occupy the entire length of the vertebral canal. Normally in adults, it terminates at the level of the disc between vertebrae LI and LII; however, it may end as high as TXII or as low as the disc between verte... |
Anatomy_Gray_210 | Anatomy_Gray | Because the subarachnoid space can be accessed in the lower lumbar region without endangering the spinal cord, it is important to be able to identify the position of the lumbar vertebral spinous processes. The LIV vertebral spinous process is level with a horizontal line between the highest points on the iliac crests. ... | Anatomy_Gray. Because the subarachnoid space can be accessed in the lower lumbar region without endangering the spinal cord, it is important to be able to identify the position of the lumbar vertebral spinous processes. The LIV vertebral spinous process is level with a horizontal line between the highest points on the ... |
Anatomy_Gray_211 | Anatomy_Gray | A number of intrinsic and extrinsic muscles of the back can readily be observed and palpated. The largest of these are the trapezius and latissimus dorsi muscles (Fig. 2.69A and 2.69B). Retracting the scapulae toward the midline can accentuate the rhomboid muscles (Fig. 2.69C), which lie deep to the trapezius muscle. T... | Anatomy_Gray. A number of intrinsic and extrinsic muscles of the back can readily be observed and palpated. The largest of these are the trapezius and latissimus dorsi muscles (Fig. 2.69A and 2.69B). Retracting the scapulae toward the midline can accentuate the rhomboid muscles (Fig. 2.69C), which lie deep to the trape... |
Anatomy_Gray_212 | Anatomy_Gray | Fig. 2.4 Nervous system. Fig. 2.5 Vertebrae. Fig. 2.6 A typical vertebra. A. Superior view. B. Lateral view. Fig. 2.7 Back muscles. A. Extrinsic muscles. B. Intrinsic muscles. Deep groupSerratus posteriorinferiorSerratus posteriorsuperiorSuboccipitalLevator scapulaeSpleniusRhomboid minorSuperficial groupABIntermediate ... | Anatomy_Gray. Fig. 2.4 Nervous system. Fig. 2.5 Vertebrae. Fig. 2.6 A typical vertebra. A. Superior view. B. Lateral view. Fig. 2.7 Back muscles. A. Extrinsic muscles. B. Intrinsic muscles. Deep groupSerratus posteriorinferiorSerratus posteriorsuperiorSuboccipitalLevator scapulaeSpleniusRhomboid minorSuperficial groupA... |
Anatomy_Gray_213 | Anatomy_Gray | Fig. 2.9 Spinal nerves (transverse section). Fig. 2.10 Relationships of the back to other regions. Cervical region• supports and moves head• transmits spinal cord and vertebral arteries between head and neck Thoracic region• support for thoraxLumbar region• support for abdomenSacral region• transmits weight to lower li... | Anatomy_Gray. Fig. 2.9 Spinal nerves (transverse section). Fig. 2.10 Relationships of the back to other regions. Cervical region• supports and moves head• transmits spinal cord and vertebral arteries between head and neck Thoracic region• support for thoraxLumbar region• support for abdomenSacral region• transmits weig... |
Anatomy_Gray_214 | Anatomy_Gray | Fig. 2.12 Intervertebral foramina. Fig. 2.13 Dermatomes innervated by posterior rami of spinal nerves. C2C3C4T2T3T4T5T6T7T8T9L5S1S2S4S3S5, Co*The dorsal rami of L4 and L5 may not have cutaneousbranches and may therefore not be represented asdermatomes on the backL4L3L2L1T11T12T10 Fig. 2.14 Vertebrae. Fig. 2.15 Radiogra... | Anatomy_Gray. Fig. 2.12 Intervertebral foramina. Fig. 2.13 Dermatomes innervated by posterior rami of spinal nerves. C2C3C4T2T3T4T5T6T7T8T9L5S1S2S4S3S5, Co*The dorsal rami of L4 and L5 may not have cutaneousbranches and may therefore not be represented asdermatomes on the backL4L3L2L1T11T12T10 Fig. 2.14 Vertebrae. Fig.... |
Anatomy_Gray_215 | Anatomy_Gray | Fig. 2.17 Radiograph of lumbar region of vertebral column. A. Anteroposterior view. B. Lateral view. RibTransverse processPedicleSpinous process of LIVA Location ofintervertebral discVertebral body of LIIIIntervertebral foramenB Fig. 2.18 Development of the vertebrae. Fig. 2.19 Typical vertebra. Fig. 2.20 Regional vert... | Anatomy_Gray. Fig. 2.17 Radiograph of lumbar region of vertebral column. A. Anteroposterior view. B. Lateral view. RibTransverse processPedicleSpinous process of LIVA Location ofintervertebral discVertebral body of LIIIIntervertebral foramenB Fig. 2.18 Development of the vertebrae. Fig. 2.19 Typical vertebra. Fig. 2.20... |
Anatomy_Gray_216 | Anatomy_Gray | E. Sacrum. F. Coccyx. Transverse processDensDensForamen transversariumSuperior viewSuperior viewSuperior viewPosterior viewPosterosuperior viewBAnterior tuberclePosterior tubercleAnterior archLateral massPosterior archFacet for densFacet for occipital condyleImpressionsfor alarligamentsAlarligamentsTectorial membrane (... | Anatomy_Gray. E. Sacrum. F. Coccyx. Transverse processDensDensForamen transversariumSuperior viewSuperior viewSuperior viewPosterior viewPosterosuperior viewBAnterior tuberclePosterior tubercleAnterior archLateral massPosterior archFacet for densFacet for occipital condyleImpressionsfor alarligamentsAlarligamentsTector... |
Anatomy_Gray_217 | Anatomy_Gray | Anterior viewDorsolateral viewPosterior viewFacet for articulation with pelvic boneEFAnterior sacral foraminaPosterior sacral foraminaCoccygeal cornuIncomplete sacral canal Fig. 2.21 Radiograph showing CI (atlas) and CII (axis) vertebrae. Open mouth, anteroposterior (odontoid peg) view. Superior articularfacet of CIIDe... | Anatomy_Gray. Anterior viewDorsolateral viewPosterior viewFacet for articulation with pelvic boneEFAnterior sacral foraminaPosterior sacral foraminaCoccygeal cornuIncomplete sacral canal Fig. 2.21 Radiograph showing CI (atlas) and CII (axis) vertebrae. Open mouth, anteroposterior (odontoid peg) view. Superior articular... |
Anatomy_Gray_218 | Anatomy_Gray | Fig. 2.25 Radiograph of the lumbar region of the vertebral column demonstrating a wedge fracture of the L1 vertebra. This condition is typically seen in patients with osteoporosis. Fig. 2.26 Radiograph of the lumbar region of the vertebral column demonstrating three intrapedicular needles, all of which have been placed... | Anatomy_Gray. Fig. 2.25 Radiograph of the lumbar region of the vertebral column demonstrating a wedge fracture of the L1 vertebra. This condition is typically seen in patients with osteoporosis. Fig. 2.26 Radiograph of the lumbar region of the vertebral column demonstrating three intrapedicular needles, all of which ha... |
Anatomy_Gray_219 | Anatomy_Gray | Fused bodies of cervical vertebraeA HemivertebraPartial lumbarization of first sacral vertebraB Fig. 2.30 A. MRI of a spine with multiple collapsed vertebrae due to diffuse metastatic myeloma infiltration. B1, B2. Positron emission tomography CT (PETCT) study detecting cancer cells in the spine that have high glucose m... | Anatomy_Gray. Fused bodies of cervical vertebraeA HemivertebraPartial lumbarization of first sacral vertebraB Fig. 2.30 A. MRI of a spine with multiple collapsed vertebrae due to diffuse metastatic myeloma infiltration. B1, B2. Positron emission tomography CT (PETCT) study detecting cancer cells in the spine that have ... |
Anatomy_Gray_220 | Anatomy_Gray | Fig. 2.38 Interspinous ligaments. Fig. 2.39 Axial slice MRI through the lumbar spine demonstrating bilateral hypertrophy of the ligamentum flavum. Fig. 2.40 Radiograph of lumbar region of vertebral column, oblique view (“Scottie dog”). A. Normal radiograph of lumbar region of vertebral column, oblique view. In this vie... | Anatomy_Gray. Fig. 2.38 Interspinous ligaments. Fig. 2.39 Axial slice MRI through the lumbar spine demonstrating bilateral hypertrophy of the ligamentum flavum. Fig. 2.40 Radiograph of lumbar region of vertebral column, oblique view (“Scottie dog”). A. Normal radiograph of lumbar region of vertebral column, oblique vie... |
Anatomy_Gray_221 | Anatomy_Gray | Fig. 2.41 A. Anterior lumbar interbody fusion (ALIF). B. Posterior lumbar interbody fusion (PLIF). Fig. 2.42 Superficial group of back muscles—trapezius and latissimus dorsi. Spinous process of CVIIAcromionSpine of scapulaIliac crestGreater occipital nerve(posterior ramus of C2)Third occipital nerve(posterior ramus of ... | Anatomy_Gray. Fig. 2.41 A. Anterior lumbar interbody fusion (ALIF). B. Posterior lumbar interbody fusion (PLIF). Fig. 2.42 Superficial group of back muscles—trapezius and latissimus dorsi. Spinous process of CVIIAcromionSpine of scapulaIliac crestGreater occipital nerve(posterior ramus of C2)Third occipital nerve(poste... |
Anatomy_Gray_222 | Anatomy_Gray | Fig. 2.45 Rhomboid muscles and levator scapulae. Fig. 2.46 Innervation and blood supply of the rhomboid muscles. Dorsal scapular nerveTrapeziusLatissimus dorsiRhomboid minorRhomboid majorLevator scapulaeSuperficial branch of transverse cervical arteryDeep branch of transverse cervical artery Fig. 2.47 Intermediate grou... | Anatomy_Gray. Fig. 2.45 Rhomboid muscles and levator scapulae. Fig. 2.46 Innervation and blood supply of the rhomboid muscles. Dorsal scapular nerveTrapeziusLatissimus dorsiRhomboid minorRhomboid majorLevator scapulaeSuperficial branch of transverse cervical arteryDeep branch of transverse cervical artery Fig. 2.47 Int... |
Anatomy_Gray_223 | Anatomy_Gray | Fig. 2.51 Deep group of back muscles—transversospinales and segmental muscles. Spinous process of CVIIObliquus capitis inferiorObliquus capitis superiorRectus capitis posterior minorRectus capitis posterior majorSemispinalis thoracisIntertransversariusErector spinaeRotatores thoracis(short, long)Levatores costarum(shor... | Anatomy_Gray. Fig. 2.51 Deep group of back muscles—transversospinales and segmental muscles. Spinous process of CVIIObliquus capitis inferiorObliquus capitis superiorRectus capitis posterior minorRectus capitis posterior majorSemispinalis thoracisIntertransversariusErector spinaeRotatores thoracis(short, long)Levatores... |
Anatomy_Gray_224 | Anatomy_Gray | Fig. 2.53 Spinal cord. End of spinalcord LI–LIIConus medullarisInferior part ofarachnoid materEnd of subarachnoidspace SIICervicalenlargement(of spinal cord)Lumbosacralenlargement(of spinal cord)FilumterminalePial partDural partPedicles ofvertebrae Fig. 2.54 Features of the spinal cord. Fig. 2.55 Arteries that supply t... | Anatomy_Gray. Fig. 2.53 Spinal cord. End of spinalcord LI–LIIConus medullarisInferior part ofarachnoid materEnd of subarachnoidspace SIICervicalenlargement(of spinal cord)Lumbosacralenlargement(of spinal cord)FilumterminalePial partDural partPedicles ofvertebrae Fig. 2.54 Features of the spinal cord. Fig. 2.55 Arteries... |
Anatomy_Gray_225 | Anatomy_Gray | Fig. 2.56 Veins that drain the spinal cord. Fig. 2.57 MRI of the spine. There is discitis of the T10-T11 intervertebral disc with destruction of the adjacent endplates. There is also a prevertebral abscess and an epidural abscess, which impinges the cord. Fig. 2.58 CT at the level of CI demonstrates two breaks in the c... | Anatomy_Gray. Fig. 2.56 Veins that drain the spinal cord. Fig. 2.57 MRI of the spine. There is discitis of the T10-T11 intervertebral disc with destruction of the adjacent endplates. There is also a prevertebral abscess and an epidural abscess, which impinges the cord. Fig. 2.58 CT at the level of CI demonstrates two b... |
Anatomy_Gray_226 | Anatomy_Gray | Fig. 2.61 Basic organization of a spinal nerve. Fig. 2.62 Course of spinal nerves in the vertebral canal. 1121110112233445595678412345678123C8T1T2T3T4T5T6T7T8T9T10T11T12L1L2L3L4L5S1S2S3S4S5CoC7C6C5C4Cervical enlargement(of spinal cord)C2C3C1Lumbosacral enlargement(of spinal cord)Cauda equinaPedicles of vertebraeSpinal ... | Anatomy_Gray. Fig. 2.61 Basic organization of a spinal nerve. Fig. 2.62 Course of spinal nerves in the vertebral canal. 1121110112233445595678412345678123C8T1T2T3T4T5T6T7T8T9T10T11T12L1L2L3L4L5S1S2S3S4S5CoC7C6C5C4Cervical enlargement(of spinal cord)C2C3C1Lumbosacral enlargement(of spinal cord)Cauda equinaPedicles of ve... |
Anatomy_Gray_227 | Anatomy_Gray | Fig. 2.64 Normal appearance of the back. A. In women. B. In men. Fig. 2.65 Normal curvatures of the vertebral column. Fig. 2.66 Back of a woman with major palpable bony landmarks indicated. Spine of scapulaInferior angle of scapulaMedial border of scapulaPosition of externaloccipital protuberancePosterior superior ilia... | Anatomy_Gray. Fig. 2.64 Normal appearance of the back. A. In women. B. In men. Fig. 2.65 Normal curvatures of the vertebral column. Fig. 2.66 Back of a woman with major palpable bony landmarks indicated. Spine of scapulaInferior angle of scapulaMedial border of scapulaPosition of externaloccipital protuberancePosterior... |
Anatomy_Gray_228 | Anatomy_Gray | Tip of coccyxSII vertebral spinous processTXII vertebral spinous processTVII vertebral spinous processTIII vertebral spinous processTI vertebral spinous processRoot of spine of scapulaInferior angle of scapulaHighest point of iliac crestIliac crestSacral dimpleCVII vertebral spinous processCII vertebral spinous process... | Anatomy_Gray. Tip of coccyxSII vertebral spinous processTXII vertebral spinous processTVII vertebral spinous processTIII vertebral spinous processTI vertebral spinous processRoot of spine of scapulaInferior angle of scapulaHighest point of iliac crestIliac crestSacral dimpleCVII vertebral spinous processCII vertebral s... |
Anatomy_Gray_229 | Anatomy_Gray | Tip of coccyxSII vertebral spinous processTXII vertebral spinous processInferior end of spinal cord(normally betweenLI and LII vertebra)Inferior end ofsubarachnoid spaceALIV vertebral spinous process LIV vertebral spinous processNeedleLV vertebral spinous processTip of coccyxB Fig. 2.69 Back muscles. A. In a man with l... | Anatomy_Gray. Tip of coccyxSII vertebral spinous processTXII vertebral spinous processInferior end of spinal cord(normally betweenLI and LII vertebra)Inferior end ofsubarachnoid spaceALIV vertebral spinous process LIV vertebral spinous processNeedleLV vertebral spinous processTip of coccyxB Fig. 2.69 Back muscles. A. I... |
Anatomy_Gray_230 | Anatomy_Gray | Table 2.2 Intermediate (respiratory) group of back muscles Table 2.3 Spinotransversales muscles Table 2.4 Erector spinae group of back muscles Table 2.5 Transversospinales group of back muscles Table 2.6 Segmental back muscles Table 2.7 Suboccipital group of back muscles In the clinic Spina bifida is a disorder in whic... | Anatomy_Gray. Table 2.2 Intermediate (respiratory) group of back muscles Table 2.3 Spinotransversales muscles Table 2.4 Erector spinae group of back muscles Table 2.5 Transversospinales group of back muscles Table 2.6 Segmental back muscles Table 2.7 Suboccipital group of back muscles In the clinic Spina bifida is a di... |
Anatomy_Gray_231 | Anatomy_Gray | The more severe form of spina bifida involves complete failure of fusion of the posterior arch at the lumbosacral junction, with a large outpouching of the meninges. This may contain cerebrospinal fluid (a meningocele) or a portion of the spinal cord (a myelomeningocele). These abnormalities may result in a variety of ... | Anatomy_Gray. The more severe form of spina bifida involves complete failure of fusion of the posterior arch at the lumbosacral junction, with a large outpouching of the meninges. This may contain cerebrospinal fluid (a meningocele) or a portion of the spinal cord (a myelomeningocele). These abnormalities may result in... |
Anatomy_Gray_232 | Anatomy_Gray | Osteoporotic wedge fractures (Fig. 2.25) typically occur in the thoracolumbar region, and the approach to performing vertebroplasty is novel and relatively straightforward. The procedure is performed under sedation or light general anesthetic. Using X-ray guidance the pedicle is identified on the anteroposterior image.... | Anatomy_Gray. Osteoporotic wedge fractures (Fig. 2.25) typically occur in the thoracolumbar region, and the approach to performing vertebroplasty is novel and relatively straightforward. The procedure is performed under sedation or light general anesthetic. Using X-ray guidance the pedicle is identified on the anteropo... |
Anatomy_Gray_233 | Anatomy_Gray | In the clinic Scoliosis is an abnormal lateral curvature of the vertebral column (Fig. 2.27). A true scoliosis involves not only the curvature (rightor left-sided) but also a rotational element of one vertebra upon another. The commonest types of scoliosis are those for which we have little understanding about how or w... | Anatomy_Gray. In the clinic Scoliosis is an abnormal lateral curvature of the vertebral column (Fig. 2.27). A true scoliosis involves not only the curvature (rightor left-sided) but also a rotational element of one vertebra upon another. The commonest types of scoliosis are those for which we have little understanding ... |
Anatomy_Gray_234 | Anatomy_Gray | When a scoliosis is present from birth (congenital scoliosis) it is usually associated with other developmental abnormalities. In these patients, there is a strong association with other abnormalities of the chest wall, genitourinary tract, and heart disease. This group of patients needs careful evaluation by many spec... | Anatomy_Gray. When a scoliosis is present from birth (congenital scoliosis) it is usually associated with other developmental abnormalities. In these patients, there is a strong association with other abnormalities of the chest wall, genitourinary tract, and heart disease. This group of patients needs careful evaluatio... |
Anatomy_Gray_235 | Anatomy_Gray | Other disorders that can produce scoliosis include bone tumors, spinal cord tumors, and localized disc protrusions. In the clinic Kyphosis is abnormal curvature of the vertebral column in the thoracic region, producing a “hunchback” deformity. This condition occurs in certain disease states, the most dramatic of which ... | Anatomy_Gray. Other disorders that can produce scoliosis include bone tumors, spinal cord tumors, and localized disc protrusions. In the clinic Kyphosis is abnormal curvature of the vertebral column in the thoracic region, producing a “hunchback” deformity. This condition occurs in certain disease states, the most dram... |
Anatomy_Gray_236 | Anatomy_Gray | In the clinic Lordosis is abnormal curvature of the vertebral column in the lumbar region, producing a swayback deformity. In the clinic There are usually seven cervical vertebrae, although in certain diseases these may be fused. Fusion of cervical vertebrae (Fig. 2.29A) can be associated with other abnormalities, for ... | Anatomy_Gray. In the clinic Lordosis is abnormal curvature of the vertebral column in the lumbar region, producing a swayback deformity. In the clinic There are usually seven cervical vertebrae, although in certain diseases these may be fused. Fusion of cervical vertebrae (Fig. 2.29A) can be associated with other abnor... |
Anatomy_Gray_237 | Anatomy_Gray | Variations in the number of thoracic vertebrae also are well described. One of the commonest abnormalities in the lumbar vertebrae is a partial fusion of vertebra LV with the sacrum (sacralization of the lumbar vertebra). Partial separation of vertebra SI from the sacrum (lumbarization of first sacral vertebra) may als... | Anatomy_Gray. Variations in the number of thoracic vertebrae also are well described. One of the commonest abnormalities in the lumbar vertebrae is a partial fusion of vertebra LV with the sacrum (sacralization of the lumbar vertebra). Partial separation of vertebra SI from the sacrum (lumbarization of first sacral ver... |
Anatomy_Gray_238 | Anatomy_Gray | A hemivertebra occurs when a vertebra develops only on one side (Fig. 2.29B). In the clinic The vertebrae and cancer The vertebrae are common sites for metastatic disease (secondary spread of cancer cells). When cancer cells grow within the vertebral bodies and the posterior elements, they interrupt normal bone cell tu... | Anatomy_Gray. A hemivertebra occurs when a vertebra develops only on one side (Fig. 2.29B). In the clinic The vertebrae and cancer The vertebrae are common sites for metastatic disease (secondary spread of cancer cells). When cancer cells grow within the vertebral bodies and the posterior elements, they interrupt norma... |
Anatomy_Gray_239 | Anatomy_Gray | In the clinic Osteoporosis is a pathophysiologic condition in which bone quality is normal but the quantity of bone is deficient. It is a metabolic bone disorder that commonly occurs in women in their 50s and 60s and in men in their 70s. Many factors influence the development of osteoporosis, including genetic predeter... | Anatomy_Gray. In the clinic Osteoporosis is a pathophysiologic condition in which bone quality is normal but the quantity of bone is deficient. It is a metabolic bone disorder that commonly occurs in women in their 50s and 60s and in men in their 70s. Many factors influence the development of osteoporosis, including ge... |
Anatomy_Gray_240 | Anatomy_Gray | Patients likely to develop osteoporosis can be identified by dual-photon X-ray absorptiometry (DXA) scanning. Low-dose X-rays are passed through the bone, and by counting the number of photons detected and knowing the dose given, the number of X-rays absorbed by the bone can be calculated. The amount of X-ray absorptio... | Anatomy_Gray. Patients likely to develop osteoporosis can be identified by dual-photon X-ray absorptiometry (DXA) scanning. Low-dose X-rays are passed through the bone, and by counting the number of photons detected and knowing the dose given, the number of X-rays absorbed by the bone can be calculated. The amount of X... |
Anatomy_Gray_241 | Anatomy_Gray | Not infrequently, patients complain of pain and no immediate cause is found; the pain is therefore attributed to mechanical discomfort, which may be caused by degenerative disease. One of the treatments is to pass a needle into the facet joint and inject it with local anesthetic and corticosteroid. In the clinic Hernia... | Anatomy_Gray. Not infrequently, patients complain of pain and no immediate cause is found; the pain is therefore attributed to mechanical discomfort, which may be caused by degenerative disease. One of the treatments is to pass a needle into the facet joint and inject it with local anesthetic and corticosteroid. In the... |
Anatomy_Gray_242 | Anatomy_Gray | In the clinic Herniation of intervertebral discs The discs between the vertebrae are made up of a central portion (the nucleus pulposus) and a complex series of fibrous rings (anulus fibrosus). A tear can occur within the anulus fibrosus through which the material of the nucleus pulposus can track. After a period of ti... | Anatomy_Gray. In the clinic Herniation of intervertebral discs The discs between the vertebrae are made up of a central portion (the nucleus pulposus) and a complex series of fibrous rings (anulus fibrosus). A tear can occur within the anulus fibrosus through which the material of the nucleus pulposus can track. After ... |
Anatomy_Gray_243 | Anatomy_Gray | In cervical regions of the vertebral column, cervical disc protrusions often become ossified and are termed disc osteophyte bars. In the clinic Some diseases have a predilection for synovial joints rather than symphyses. A typical example is rheumatoid arthritis, which primarily affects synovial joints and synovial bur... | Anatomy_Gray. In cervical regions of the vertebral column, cervical disc protrusions often become ossified and are termed disc osteophyte bars. In the clinic Some diseases have a predilection for synovial joints rather than symphyses. A typical example is rheumatoid arthritis, which primarily affects synovial joints an... |
Anatomy_Gray_244 | Anatomy_Gray | In the clinic Vertebral fractures can occur anywhere along the vertebral column. In most instances, the fracture will heal under appropriate circumstances. At the time of injury, it is not the fracture itself but related damage to the contents of the vertebral canal and the surrounding tissues that determines the sever... | Anatomy_Gray. In the clinic Vertebral fractures can occur anywhere along the vertebral column. In most instances, the fracture will heal under appropriate circumstances. At the time of injury, it is not the fracture itself but related damage to the contents of the vertebral canal and the surrounding tissues that determ... |
Anatomy_Gray_245 | Anatomy_Gray | Destruction of one of the clinical columns is usually a stable injury requiring little more than rest and appropriate analgesia. Disruption of two columns is highly likely to be unstable and requires fixation and immobilization. A three-column spinal injury usually results in a significant neurological event and requir... | Anatomy_Gray. Destruction of one of the clinical columns is usually a stable injury requiring little more than rest and appropriate analgesia. Disruption of two columns is highly likely to be unstable and requires fixation and immobilization. A three-column spinal injury usually results in a significant neurological ev... |
Anatomy_Gray_246 | Anatomy_Gray | Mid and lower cervical vertebral column disruption may produce a range of complex neurological problems involving the upper and lower limbs, although below the level of C5, respiratory function is unlikely to be compromised. Lumbar vertebral column injuries are rare. When they occur, they usually involve significant fo... | Anatomy_Gray. Mid and lower cervical vertebral column disruption may produce a range of complex neurological problems involving the upper and lower limbs, although below the level of C5, respiratory function is unlikely to be compromised. Lumbar vertebral column injuries are rare. When they occur, they usually involve ... |
Anatomy_Gray_247 | Anatomy_Gray | If a fracture occurs around the pars interarticularis, the vertebral body may slip anteriorly and compress the vertebral canal. The most common sites for pars interarticularis fractures are the LIV and LV levels (Fig. 2.40B,C). (Clinicians often refer to parts of the back in shorthand terms that are not strictly anatom... | Anatomy_Gray. If a fracture occurs around the pars interarticularis, the vertebral body may slip anteriorly and compress the vertebral canal. The most common sites for pars interarticularis fractures are the LIV and LV levels (Fig. 2.40B,C). (Clinicians often refer to parts of the back in shorthand terms that are not s... |
Anatomy_Gray_248 | Anatomy_Gray | In the clinic Surgical procedures on the back A prolapsed intervertebral disc may impinge upon the meningeal (thecal) sac, cord, and most commonly the nerve root, producing symptoms attributable to that level. In some instances the disc protrusion will undergo a degree of involution that may allow symptoms to resolve w... | Anatomy_Gray. In the clinic Surgical procedures on the back A prolapsed intervertebral disc may impinge upon the meningeal (thecal) sac, cord, and most commonly the nerve root, producing symptoms attributable to that level. In some instances the disc protrusion will undergo a degree of involution that may allow symptom... |
Anatomy_Gray_249 | Anatomy_Gray | It is of the utmost importance that the level of the disc protrusion is identified before surgery. This may require MRI scanning and on-table fluoroscopy to prevent operating on the wrong level. A midline approach to the right or to the left of the spinous processes will depend upon the most prominent site of the disc ... | Anatomy_Gray. It is of the utmost importance that the level of the disc protrusion is identified before surgery. This may require MRI scanning and on-table fluoroscopy to prevent operating on the wrong level. A midline approach to the right or to the left of the spinous processes will depend upon the most prominent sit... |
Anatomy_Gray_250 | Anatomy_Gray | Spinal fusion is performed when it is necessary to fuse one vertebra with the corresponding superior or inferior vertebra, and in some instances multilevel fusion may be necessary. Indications are varied, though they include stabilization after fracture, stabilization related to tumor infiltration, and stabilization wh... | Anatomy_Gray. Spinal fusion is performed when it is necessary to fuse one vertebra with the corresponding superior or inferior vertebra, and in some instances multilevel fusion may be necessary. Indications are varied, though they include stabilization after fracture, stabilization related to tumor infiltration, and st... |
Anatomy_Gray_251 | Anatomy_Gray | In the clinic Weakness in the trapezius, caused by an interruption of the accessory nerve [XI], may appear as drooping of the shoulder, inability to raise the arm above the head because of impaired rotation of the scapula, or weakness in attempting to raise the shoulder (i.e., shrug the shoulder against resistance). A ... | Anatomy_Gray. In the clinic Weakness in the trapezius, caused by an interruption of the accessory nerve [XI], may appear as drooping of the shoulder, inability to raise the arm above the head because of impaired rotation of the scapula, or weakness in attempting to raise the shoulder (i.e., shrug the shoulder against r... |
Anatomy_Gray_252 | Anatomy_Gray | In the clinic The intervertebral discs are poorly vascularized; however, infection within the bloodstream can spread to the discs from the terminal branches of the spinal arteries within the vertebral body endplates, which lie immediately adjacent to the discs (Fig. 2.57). Common sources of infection include the lungs ... | Anatomy_Gray. In the clinic The intervertebral discs are poorly vascularized; however, infection within the bloodstream can spread to the discs from the terminal branches of the spinal arteries within the vertebral body endplates, which lie immediately adjacent to the discs (Fig. 2.57). Common sources of infection incl... |
Anatomy_Gray_253 | Anatomy_Gray | In the clinic Fractures of the atlas and axis Fractures of vertebra CI (the atlas) and vertebra CII (the axis) can potentially lead to the worst types of spinal cord injury including death and paralysis due to injury of the brainstem, which contains the cardiac and respiratory centers. The atlas is a closed ring with n... | Anatomy_Gray. In the clinic Fractures of the atlas and axis Fractures of vertebra CI (the atlas) and vertebra CII (the axis) can potentially lead to the worst types of spinal cord injury including death and paralysis due to injury of the brainstem, which contains the cardiac and respiratory centers. The atlas is a clos... |
Anatomy_Gray_254 | Anatomy_Gray | Fractures of the axis usually occur due to severe hyperextension and flexion, which can result in fracture of the tip of the dens, base of the dens, or through the body of the atlas. In judicial hangings, there is hyperextension and distraction injury causing fracture through the atlas pedicles and spondylolisthesis of... | Anatomy_Gray. Fractures of the axis usually occur due to severe hyperextension and flexion, which can result in fracture of the tip of the dens, base of the dens, or through the body of the atlas. In judicial hangings, there is hyperextension and distraction injury causing fracture through the atlas pedicles and spondy... |
Anatomy_Gray_255 | Anatomy_Gray | In the clinic An injury to the spinal cord in the cervical portion of the vertebral column can lead to varying degrees of impairment of sensory and motor function (paralysis) in all 4 limbs, termed quadriplegia or tetraplegia. An injury in upper levels of the cervical vertebral column can result in death because of los... | Anatomy_Gray. In the clinic An injury to the spinal cord in the cervical portion of the vertebral column can lead to varying degrees of impairment of sensory and motor function (paralysis) in all 4 limbs, termed quadriplegia or tetraplegia. An injury in upper levels of the cervical vertebral column can result in death ... |
Anatomy_Gray_256 | Anatomy_Gray | The lumbar region is an ideal site to access the subarachnoid space because the spinal cord terminates around the level of the disc between vertebrae LI and LII in the adult. The subarachnoid space extends to the region of the lower border of the SII vertebra. There is therefore a large CSF-filled space containing lumb... | Anatomy_Gray. The lumbar region is an ideal site to access the subarachnoid space because the spinal cord terminates around the level of the disc between vertebrae LI and LII in the adult. The subarachnoid space extends to the region of the lower border of the SII vertebra. There is therefore a large CSF-filled space c... |
Anatomy_Gray_257 | Anatomy_Gray | Local anesthetics can be injected into the extradural space or the subarachnoid space to anesthetize the sacral and lumbar nerve roots. Such anesthesia is useful for operations on the pelvis and the legs, which can then be carried out without the need for general anesthesia. When procedures are carried out, the patient... | Anatomy_Gray. Local anesthetics can be injected into the extradural space or the subarachnoid space to anesthetize the sacral and lumbar nerve roots. Such anesthesia is useful for operations on the pelvis and the legs, which can then be carried out without the need for general anesthesia. When procedures are carried ou... |
Anatomy_Gray_258 | Anatomy_Gray | In some instances, anesthesiologists choose to carry out extradural anesthesia. A needle is placed through the skin, supraspinous ligament, interspinous ligament, and ligamenta flava into the areolar tissue and fat around the dura mater. Anesthetic agent is introduced and diffuses around the vertebral canal to anesthet... | Anatomy_Gray. In some instances, anesthesiologists choose to carry out extradural anesthesia. A needle is placed through the skin, supraspinous ligament, interspinous ligament, and ligamenta flava into the areolar tissue and fat around the dura mater. Anesthetic agent is introduced and diffuses around the vertebral can... |
Anatomy_Gray_259 | Anatomy_Gray | In the clinic Back pain is an extremely common condition affecting almost all individuals at some stage during their life. It is of key clinical importance to identify whether the back pain relates to the vertebral column and its attachments or relates to other structures. | Anatomy_Gray. In the clinic Back pain is an extremely common condition affecting almost all individuals at some stage during their life. It is of key clinical importance to identify whether the back pain relates to the vertebral column and its attachments or relates to other structures. |
Anatomy_Gray_260 | Anatomy_Gray | The failure to consider other potential structures that may produce back pain can lead to significant mortality and morbidity. Pain may refer to the back from a number of organs situated in the retroperitoneum. Pancreatic pain in particular refers to the back and may be associated with pancreatic cancer and pancreatiti... | Anatomy_Gray. The failure to consider other potential structures that may produce back pain can lead to significant mortality and morbidity. Pain may refer to the back from a number of organs situated in the retroperitoneum. Pancreatic pain in particular refers to the back and may be associated with pancreatic cancer a... |
Anatomy_Gray_261 | Anatomy_Gray | pain as it enlarges without rupture. Therefore it is critical to think of this structure as a potential cause of back pain, because treatment will be lifesaving. Moreover, a ruptured abdominal aortic aneurysm may also cause acute back pain in the first instance. | Anatomy_Gray. pain as it enlarges without rupture. Therefore it is critical to think of this structure as a potential cause of back pain, because treatment will be lifesaving. Moreover, a ruptured abdominal aortic aneurysm may also cause acute back pain in the first instance. |
Anatomy_Gray_262 | Anatomy_Gray | In all patients back pain requires careful assessment not only of the vertebral column but also of the chest and abdomen in order not to miss other important anatomical structures that may produce signs and symptoms radiating to the back. A 50-year-old man was brought to the emergency department with severe lower back ... | Anatomy_Gray. In all patients back pain requires careful assessment not only of the vertebral column but also of the chest and abdomen in order not to miss other important anatomical structures that may produce signs and symptoms radiating to the back. A 50-year-old man was brought to the emergency department with seve... |
Anatomy_Gray_263 | Anatomy_Gray | The patient’s symptoms and physical examination findings raised serious concern for compression of multiple lumbar and sacral nerve roots in the spine, affecting both motor and sensory pathways. His reduced power in extending his knees and reduced knee reflexes was suggestive of compression of the L4 nerve roots. His r... | Anatomy_Gray. The patient’s symptoms and physical examination findings raised serious concern for compression of multiple lumbar and sacral nerve roots in the spine, affecting both motor and sensory pathways. His reduced power in extending his knees and reduced knee reflexes was suggestive of compression of the L4 nerv... |
Anatomy_Gray_264 | Anatomy_Gray | The collection of lumbar and sacral nerve roots beyond the conus medullaris has a horsetail-like appearance, from which it derives its name “cauda equina.” Compression of the cauda equina may be caused by a herniating disc (as in this case), fracture fragments following traumatic injury, tumor, abscess, or severe degen... | Anatomy_Gray. The collection of lumbar and sacral nerve roots beyond the conus medullaris has a horsetail-like appearance, from which it derives its name “cauda equina.” Compression of the cauda equina may be caused by a herniating disc (as in this case), fracture fragments following traumatic injury, tumor, abscess, o... |
Anatomy_Gray_265 | Anatomy_Gray | If the cervical spinal cord injury is above the level of C5, breathing is likely to stop. The phrenic nerve takes origin from C3, C4, and C5 and supplies the diaphragm. Breathing may not cease immediately if the lesion is just below C5, but does so as the cord becomes edematous and damage progresses superiorly. In addi... | Anatomy_Gray. If the cervical spinal cord injury is above the level of C5, breathing is likely to stop. The phrenic nerve takes origin from C3, C4, and C5 and supplies the diaphragm. Breathing may not cease immediately if the lesion is just below C5, but does so as the cord becomes edematous and damage progresses super... |
Anatomy_Gray_266 | Anatomy_Gray | It is important to remember that although the cord has been transected in the cervical region, the cord below this level is intact. Reflex activity may therefore occur below the injury, but communication with the brain is lost. A 25-year-old woman complained of increasing lumbar back pain. Over the ensuing weeks she wa... | Anatomy_Gray. It is important to remember that although the cord has been transected in the cervical region, the cord below this level is intact. Reflex activity may therefore occur below the injury, but communication with the brain is lost. A 25-year-old woman complained of increasing lumbar back pain. Over the ensuin... |
Anatomy_Gray_267 | Anatomy_Gray | The chest radiograph revealed a cavitating apical lung mass, which explains the pulmonary history. Given the age of the patient a primary lung cancer is unlikely. The hemoptysis (coughing up blood in the sputum) and the rest of the history suggest the patient has a lung infection. Given the chest radiographic findings ... | Anatomy_Gray. The chest radiograph revealed a cavitating apical lung mass, which explains the pulmonary history. Given the age of the patient a primary lung cancer is unlikely. The hemoptysis (coughing up blood in the sputum) and the rest of the history suggest the patient has a lung infection. Given the chest radiogra... |
Anatomy_Gray_268 | Anatomy_Gray | During the patient’s pulmonary infection, the tuberculous bacillus had spread via the blood to vertebra LI. The bone destruction began in the cancellous bone of the vertebral body close to the intervertebral discs. This disease progressed and eroded into the intervertebral disc, which became infected. The disc was dest... | Anatomy_Gray. During the patient’s pulmonary infection, the tuberculous bacillus had spread via the blood to vertebra LI. The bone destruction began in the cancellous bone of the vertebral body close to the intervertebral discs. This disease progressed and eroded into the intervertebral disc, which became infected. The... |
Anatomy_Gray_269 | Anatomy_Gray | Fortunately for the patient, there was no evidence of any damage within the vertebral canal. The patient underwent a radiologically guided drainage of the psoas abscess and was treated for over 6 months with a long-term antibiotic regimen. She made an excellent recovery with no further symptoms, although the cavities w... | Anatomy_Gray. Fortunately for the patient, there was no evidence of any damage within the vertebral canal. The patient underwent a radiologically guided drainage of the psoas abscess and was treated for over 6 months with a long-term antibiotic regimen. She made an excellent recovery with no further symptoms, although ... |
Anatomy_Gray_270 | Anatomy_Gray | The attending physician examined the back thoroughly and found no significant abnormality. He noted that there was reduced sensation in both legs, and there was virtually no power in extensor or flexor groups. The patient was tachycardic, which was believed to be due to pain, and the blood pressure obtained in the ambu... | Anatomy_Gray. The attending physician examined the back thoroughly and found no significant abnormality. He noted that there was reduced sensation in both legs, and there was virtually no power in extensor or flexor groups. The patient was tachycardic, which was believed to be due to pain, and the blood pressure obtain... |
Anatomy_Gray_271 | Anatomy_Gray | It was deduced that the blood pressure measurements were obtained in different arms, and both were reassessed. The blood pressure measurements were true. In the right arm the blood pressure measured 120/80 mm Hg and in the left arm the blood pressure measured 80/40 mm Hg. This would imply a deficiency of blood to the l... | Anatomy_Gray. It was deduced that the blood pressure measurements were obtained in different arms, and both were reassessed. The blood pressure measurements were true. In the right arm the blood pressure measured 120/80 mm Hg and in the left arm the blood pressure measured 80/40 mm Hg. This would imply a deficiency of ... |
Anatomy_Gray_272 | Anatomy_Gray | The CT scan demonstrated a dissecting thoracic aortic aneurysm. Aortic dissection occurs when the tunica intima and part of the tunica media of the wall of the aorta become separated from the remainder of the tunica media and the tunica adventitia of the aorta wall. This produces a false lumen. Blood passes not only in... | Anatomy_Gray. The CT scan demonstrated a dissecting thoracic aortic aneurysm. Aortic dissection occurs when the tunica intima and part of the tunica media of the wall of the aorta become separated from the remainder of the tunica media and the tunica adventitia of the aorta wall. This produces a false lumen. Blood pass... |
Anatomy_Gray_273 | Anatomy_Gray | The difference in the blood pressure between the two arms indicates the level at which the dissection has begun. The “point of entry” is proximal to the left subclavian artery. At this level a small flap has been created, which limits the blood flow to the left upper limb, giving the low blood pressure recording. The b... | Anatomy_Gray. The difference in the blood pressure between the two arms indicates the level at which the dissection has begun. The “point of entry” is proximal to the left subclavian artery. At this level a small flap has been created, which limits the blood flow to the left upper limb, giving the low blood pressure re... |
Anatomy_Gray_274 | Anatomy_Gray | The paraplegia was caused by ischemia to the spinal cord. The blood supply to the spinal cord is from a single anterior spinal artery and two posterior spinal arteries. These arteries are fed via segmental spinal arteries at every vertebral level. There are a number of reinforcing arteries (segmental medullary arteries... | Anatomy_Gray. The paraplegia was caused by ischemia to the spinal cord. The blood supply to the spinal cord is from a single anterior spinal artery and two posterior spinal arteries. These arteries are fed via segmental spinal arteries at every vertebral level. There are a number of reinforcing arteries (segmental medu... |
Anatomy_Gray_275 | Anatomy_Gray | Unfortunately, the dissection extended, the aorta ruptured, and the patient succumbed. A 55-year-old woman came to her physician with sensory alteration in the right gluteal (buttock) region and in the intergluteal (natal) cleft. Examination also demonstrated low-grade weakness of the muscles of the foot and subtle wea... | Anatomy_Gray. Unfortunately, the dissection extended, the aorta ruptured, and the patient succumbed. A 55-year-old woman came to her physician with sensory alteration in the right gluteal (buttock) region and in the intergluteal (natal) cleft. Examination also demonstrated low-grade weakness of the muscles of the foot ... |
Anatomy_Gray_276 | Anatomy_Gray | A lesion was postulated in the left sacrum. Pain in the right sacro-iliac region could easily be attributed to the sacro-iliac joint, which is often very sensitive to pain. The weakness of the intrinsic muscles of the foot and the extensor hallucis longus, extensor digitorum longus, and fibularis tertius muscles raises... | Anatomy_Gray. A lesion was postulated in the left sacrum. Pain in the right sacro-iliac region could easily be attributed to the sacro-iliac joint, which is often very sensitive to pain. The weakness of the intrinsic muscles of the foot and the extensor hallucis longus, extensor digitorum longus, and fibularis tertius ... |
Anatomy_Gray_277 | Anatomy_Gray | An X-ray was obtained of the pelvis. The X-ray appeared on first inspection unremarkable. However, the patient underwent further investigation, including CT and MRI, which demonstrated a large destructive lesion involving the whole of the left sacrum extending into the anterior sacral foramina at the S1, S2, and S3 lev... | Anatomy_Gray. An X-ray was obtained of the pelvis. The X-ray appeared on first inspection unremarkable. However, the patient underwent further investigation, including CT and MRI, which demonstrated a large destructive lesion involving the whole of the left sacrum extending into the anterior sacral foramina at the S1, ... |
Anatomy_Gray_278 | Anatomy_Gray | There are a number of uncommon instances in which certain metastases are expansile and lytic. These typically occur in renal metastases and may be seen in multiple myeloma. The anatomical importance of these specific tumors is that they often expand and impinge upon other structures. The expansile nature of this patien... | Anatomy_Gray. There are a number of uncommon instances in which certain metastases are expansile and lytic. These typically occur in renal metastases and may be seen in multiple myeloma. The anatomical importance of these specific tumors is that they often expand and impinge upon other structures. The expansile nature ... |
Anatomy_Gray_279 | Anatomy_Gray | 122.e1 122.e2 Conceptual Overview • Relationship to Other Regions Fig. 2.20, cont’d Fig. 2.20, cont’d In the clinic—cont’d Fig. 2.55, cont’d Fig. 2.68, cont’d Fig. 2.69, cont’d The thorax is an irregularly shaped cylinder with a narrow opening (superior thoracic aperture) superiorly and a relatively large opening (infe... | Anatomy_Gray. 122.e1 122.e2 Conceptual Overview • Relationship to Other Regions Fig. 2.20, cont’d Fig. 2.20, cont’d In the clinic—cont’d Fig. 2.55, cont’d Fig. 2.68, cont’d Fig. 2.69, cont’d The thorax is an irregularly shaped cylinder with a narrow opening (superior thoracic aperture) superiorly and a relatively large... |
Anatomy_Gray_280 | Anatomy_Gray | The thoracic cavity enclosed by the thoracic wall and the diaphragm is subdivided into three major compartments: a left and a right pleural cavity, each surrounding a lung, and the mediastinum. The mediastinum is a thick, flexible soft tissue partition oriented longitudinally in a median sagittal position. It contains ... | Anatomy_Gray. The thoracic cavity enclosed by the thoracic wall and the diaphragm is subdivided into three major compartments: a left and a right pleural cavity, each surrounding a lung, and the mediastinum. The mediastinum is a thick, flexible soft tissue partition oriented longitudinally in a median sagittal position... |
Anatomy_Gray_281 | Anatomy_Gray | Another important feature of the pleural cavities is that they extend above the level of rib I. The apex of each lung actually extends into the root of the neck. As a consequence, abnormal events in the root of the neck can involve the adjacent pleura and lung, and events in the adjacent pleura and lung can involve the... | Anatomy_Gray. Another important feature of the pleural cavities is that they extend above the level of rib I. The apex of each lung actually extends into the root of the neck. As a consequence, abnormal events in the root of the neck can involve the adjacent pleura and lung, and events in the adjacent pleura and lung c... |
Anatomy_Gray_282 | Anatomy_Gray | Protection of vital organs The thorax houses and protects the heart, lungs, and great vessels. Because of the upward domed shape of the diaphragm, the thoracic wall also offers protection to some important abdominal viscera. Much of the liver lies under the right dome of the diaphragm, and the stomach and spleen lie un... | Anatomy_Gray. Protection of vital organs The thorax houses and protects the heart, lungs, and great vessels. Because of the upward domed shape of the diaphragm, the thoracic wall also offers protection to some important abdominal viscera. Much of the liver lies under the right dome of the diaphragm, and the stomach and... |
Anatomy_Gray_283 | Anatomy_Gray | The phrenic nerves, which originate in the neck, also pass through the mediastinum to penetrate and supply the diaphragm. Other structures such as the trachea, thoracic aorta, and superior vena cava course within the mediastinum en route to and from major visceral organs in the thorax. The thoracic wall consists of ske... | Anatomy_Gray. The phrenic nerves, which originate in the neck, also pass through the mediastinum to penetrate and supply the diaphragm. Other structures such as the trachea, thoracic aorta, and superior vena cava course within the mediastinum en route to and from major visceral organs in the thorax. The thoracic wall c... |
Anatomy_Gray_284 | Anatomy_Gray | Anteriorly, the wall is made up of the sternum, which consists of the manubrium of sternum, body of sternum, and xiphoid process. The manubrium of sternum, angled posteriorly on the body of sternum at the manubriosternal joint, forms the sternal angle, which is a major surface landmark used by clinicians in performing ... | Anatomy_Gray. Anteriorly, the wall is made up of the sternum, which consists of the manubrium of sternum, body of sternum, and xiphoid process. The manubrium of sternum, angled posteriorly on the body of sternum at the manubriosternal joint, forms the sternal angle, which is a major surface landmark used by clinicians ... |
Anatomy_Gray_285 | Anatomy_Gray | Anteriorly, the costal cartilages of ribs I to VII articulate with the sternum. The costal cartilages of ribs VIII to X articulate with the inferior margins of the costal cartilages above them. Ribs XI and XII are called floating ribs because they do not articulate with other ribs, costal cartilages, or the sternum. Th... | Anatomy_Gray. Anteriorly, the costal cartilages of ribs I to VII articulate with the sternum. The costal cartilages of ribs VIII to X articulate with the inferior margins of the costal cartilages above them. Ribs XI and XII are called floating ribs because they do not articulate with other ribs, costal cartilages, or t... |
Anatomy_Gray_286 | Anatomy_Gray | Completely surrounded by skeletal elements, the superior thoracic aperture consists of the body of vertebra TI posteriorly, the medial margin of rib I on each side, and the manubrium anteriorly. The superior margin of the manubrium is in approximately the same horizontal plane as the intervertebral disc between vertebr... | Anatomy_Gray. Completely surrounded by skeletal elements, the superior thoracic aperture consists of the body of vertebra TI posteriorly, the medial margin of rib I on each side, and the manubrium anteriorly. The superior margin of the manubrium is in approximately the same horizontal plane as the intervertebral disc b... |
Anatomy_Gray_287 | Anatomy_Gray | At the superior thoracic aperture, the superior aspects of the pleural cavities, which surround the lungs, lie on either side of the entrance to the mediastinum (Fig. 3.3). Structures that pass between the upper limb and thorax pass over rib I and the superior part of the pleural cavity as they enter and leave the medi... | Anatomy_Gray. At the superior thoracic aperture, the superior aspects of the pleural cavities, which surround the lungs, lie on either side of the entrance to the mediastinum (Fig. 3.3). Structures that pass between the upper limb and thorax pass over rib I and the superior part of the pleural cavity as they enter and ... |
Anatomy_Gray_288 | Anatomy_Gray | The inferior thoracic aperture is closed by the diaphragm, and structures passing between the abdomen and thorax pierce or pass posteriorly to the diaphragm. Skeletal elements of the inferior thoracic aperture are: the body of vertebra TXII posteriorly, rib XII and the distal end of rib XI posterolaterally, the distal ... | Anatomy_Gray. The inferior thoracic aperture is closed by the diaphragm, and structures passing between the abdomen and thorax pierce or pass posteriorly to the diaphragm. Skeletal elements of the inferior thoracic aperture are: the body of vertebra TXII posteriorly, rib XII and the distal end of rib XI posterolaterall... |
Anatomy_Gray_289 | Anatomy_Gray | When viewed anteriorly, the inferior thoracic aperture is tilted superiorly. The musculotendinous diaphragm seals the inferior thoracic aperture (Fig. 3.4B). Generally, muscle fibers of the diaphragm arise radially, from the margins of the inferior thoracic aperture, and converge into a large central tendon. Because of... | Anatomy_Gray. When viewed anteriorly, the inferior thoracic aperture is tilted superiorly. The musculotendinous diaphragm seals the inferior thoracic aperture (Fig. 3.4B). Generally, muscle fibers of the diaphragm arise radially, from the margins of the inferior thoracic aperture, and converge into a large central tend... |
Anatomy_Gray_290 | Anatomy_Gray | The esophagus and inferior vena cava penetrate the diaphragm; the aorta passes posterior to the diaphragm. The mediastinum is a thick midline partition that extends from the sternum anteriorly to the thoracic vertebrae posteriorly, and from the superior thoracic aperture to the inferior thoracic aperture. A horizontal ... | Anatomy_Gray. The esophagus and inferior vena cava penetrate the diaphragm; the aorta passes posterior to the diaphragm. The mediastinum is a thick midline partition that extends from the sternum anteriorly to the thoracic vertebrae posteriorly, and from the superior thoracic aperture to the inferior thoracic aperture.... |
Anatomy_Gray_291 | Anatomy_Gray | The two pleural cavities are situated on either side of the mediastinum (Fig. 3.6). Each pleural cavity is completely lined by a mesothelial membrane called the pleura. During development, the lungs grow out of the mediastinum, becoming surrounded by the pleural cavities. As a result, the outer surface of each organ is... | Anatomy_Gray. The two pleural cavities are situated on either side of the mediastinum (Fig. 3.6). Each pleural cavity is completely lined by a mesothelial membrane called the pleura. During development, the lungs grow out of the mediastinum, becoming surrounded by the pleural cavities. As a result, the outer surface of... |
Anatomy_Gray_292 | Anatomy_Gray | The lung does not completely fill the potential space of the pleural cavity, resulting in recesses, which do not contain lung and are important for accommodating changes in lung volume during breathing. The costodiaphragmatic recess, which is the largest and clinically most important recess, lies inferiorly between the... | Anatomy_Gray. The lung does not completely fill the potential space of the pleural cavity, resulting in recesses, which do not contain lung and are important for accommodating changes in lung volume during breathing. The costodiaphragmatic recess, which is the largest and clinically most important recess, lies inferior... |
Anatomy_Gray_293 | Anatomy_Gray | An axillary inlet, or gateway to the upper limb, lies on each side of the superior thoracic aperture. These two axillary inlets and the superior thoracic aperture communicate superiorly with the root of the neck (Fig. 3.7). Each axillary inlet is formed by: the superior margin of the scapula posteriorly, the clavicle a... | Anatomy_Gray. An axillary inlet, or gateway to the upper limb, lies on each side of the superior thoracic aperture. These two axillary inlets and the superior thoracic aperture communicate superiorly with the root of the neck (Fig. 3.7). Each axillary inlet is formed by: the superior margin of the scapula posteriorly, ... |
Anatomy_Gray_294 | Anatomy_Gray | Proximal parts of the brachial plexus also pass between the neck and upper limb by passing through the axillary inlet. The diaphragm separates the thorax from the abdomen. Structures that pass between the thorax and abdomen either penetrate the diaphragm or pass posteriorly to it (Fig. 3.8): The inferior vena cava pier... | Anatomy_Gray. Proximal parts of the brachial plexus also pass between the neck and upper limb by passing through the axillary inlet. The diaphragm separates the thorax from the abdomen. Structures that pass between the thorax and abdomen either penetrate the diaphragm or pass posteriorly to it (Fig. 3.8): The inferior ... |
Anatomy_Gray_295 | Anatomy_Gray | The breasts, consisting of mammary glands, superficial fascia, and overlying skin, are in the pectoral region on each side of the anterior thoracic wall (Fig. 3.9). Vessels, lymphatics, and nerves associated with the breast are as follows: Branches from the internal thoracic arteries and veins perforate the anterior ch... | Anatomy_Gray. The breasts, consisting of mammary glands, superficial fascia, and overlying skin, are in the pectoral region on each side of the anterior thoracic wall (Fig. 3.9). Vessels, lymphatics, and nerves associated with the breast are as follows: Branches from the internal thoracic arteries and veins perforate t... |
Anatomy_Gray_296 | Anatomy_Gray | Lateral and anterior branches of the fourth to sixth intercostal nerves carry general sensation from the skin of the breast. When working with patients, physicians use vertebral levels to determine the position of important anatomical structures within body regions. | Anatomy_Gray. Lateral and anterior branches of the fourth to sixth intercostal nerves carry general sensation from the skin of the breast. When working with patients, physicians use vertebral levels to determine the position of important anatomical structures within body regions. |
Anatomy_Gray_297 | Anatomy_Gray | The horizontal plane passing through the disc that separates thoracic vertebrae TIV and TV is one of the most significant planes in the body (Fig. 3.10) because it: passes through the sternal angle anteriorly, marking the position of the anterior articulation of the costal cartilage of rib II with the sternum. The ster... | Anatomy_Gray. The horizontal plane passing through the disc that separates thoracic vertebrae TIV and TV is one of the most significant planes in the body (Fig. 3.10) because it: passes through the sternal angle anteriorly, marking the position of the anterior articulation of the costal cartilage of rib II with the ste... |
Anatomy_Gray_298 | Anatomy_Gray | Venous shunts from left to right The right atrium is the chamber of the heart that receives deoxygenated blood returning from the body. It lies on the right side of the midline, and the two major veins, the superior and inferior venae cavae, that drain into it are also located on the right side of the body. This means ... | Anatomy_Gray. Venous shunts from left to right The right atrium is the chamber of the heart that receives deoxygenated blood returning from the body. It lies on the right side of the midline, and the two major veins, the superior and inferior venae cavae, that drain into it are also located on the right side of the bod... |
Anatomy_Gray_299 | Anatomy_Gray | The hemiazygos and accessory hemiazygos veins drain posterior and lateral parts of the left thoracic wall, pass immediately anterior to the bodies of thoracic vertebrae, and flow into the azygos vein on the right side, which ultimately connects with the superior vena cava. The arrangement of vessels and nerves that sup... | Anatomy_Gray. The hemiazygos and accessory hemiazygos veins drain posterior and lateral parts of the left thoracic wall, pass immediately anterior to the bodies of thoracic vertebrae, and flow into the azygos vein on the right side, which ultimately connects with the superior vena cava. The arrangement of vessels and n... |
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