OBJECTIVETo offer normal reference of diameter of the cervical spinal cord and available diameter of cervical spinal canal and to screen scientific radiographic criteria to define and quantify cervical spinal cord disease.

METHODSThe magnetic resonance images of 120 normal people had been measured. The data of diameters of cervical spinal cord, CSF, M, the ratio of diameters of cord and CSF, and the ratio of diameters of cord and M had been collected and statistical analysis was made. And the relationships between the data above and each of gender, the length of C-spine and age were evaluated. In addition, the ratio of diameters of cord and CSF, and the ratio of diameters of cord and M was evaluated.

RESULTSThe study showed that in healthy people, the diameters of cervical spinal cord, CSF and M was larger in the males than in the females, decreased with age, and increased with the length of C-spine but the diameter of CSF. And the ratio of diameters of cord and CSF increased with age and not affected by the length of C-spine. However, the ratio of diameters of cord and M was not affected by age and the length of C-spine.

CONCLUSIONThe ratio of diameters of cord and M is not affected by individual variation and can be used to evaluate cervical spinal cord atrophy, compression and impaired in patients with cervical myelopathy and can be important information in looking for clinically critical points.

Adolescent ; Adult ; Aged ; Cervical Vertebrae ; anatomy & histology ; Female ; Humans ; Magnetic Resonance Imaging ; Male ; Middle Aged ; Spinal Canal ; anatomy & histology ; Spinal Cord ; anatomy & histology

Variations of the dural folds and the dural venous sinuses are infrequently reported in the existing medical literature. Such variations in the posterior cranial fossa may pose difficulties in various analytical and surgical procedures of this region. We present a rare concurrent variation of the falx cerebelli and tentorium cerebelli that was detected during routine dissection of an adult male cadaver. While removing the brain, a partial duplication of tentorium cerebelli was observed below the left half of the tentorium cerebelli and above the left cerebellar hemisphere. This fold did not have any dural venous sinus in it. Further, a complete duplication of falx cerebelli with a single occipital venous sinus within its attached border was also observed. We present the review of literature and discuss the comparative anatomy of this case.
Adult ; Anatomy, Comparative ; Brain ; Cadaver ; Cranial Fossa, Posterior ; Dura Mater ; Humans ; Male ; Meninges ; Spinal Cord

The height, width, and cross-sectional area of the vertebral canal and spinal cord along with the area ratio of spinal cord to vertebral canal in the cervical vertebra were evaluated in images obtained using computed tomography (CT). Measurements were taken at the cranial, middle, and caudal point of each cervical vertebra in eight clinically normal small breed dogs (two shih tzu, two miniature schnauzers, and four mixed breed), 10 beagles, and four German shepherds. CT myelography facilitated the delineation of the epidural space, subarachnoid space, and spinal cord except at the caudal portion of the 7th cervical vertebra. The spinal cord had a tendency to have a clear ventral border in the middle portion of the vertebral canal and lateral borders near both end plates. The height, width, and area of the vertebral canal and spinal cord in the cervical vertebra were increased as the size of dog increased. However, the ratio of the spinal cord area to vertebral canal area in the small dogs was higher than that of the larger dogs. Results of the present study could provide basic and quantitative information for CT evaluation of pathologic lesions in the cervical vertebra and spinal cord.
Animals ; Body Size ; Cervical Vertebrae/*anatomy & histology/radiography ; Dogs/*anatomy & histology/growth & development ; Reference Values ; Spinal Canal/*anatomy & histology/radiography ; Spinal Cord/*anatomy & histology/radiography ; Tomography, X-Ray Computed/*veterinary

OBJECTIVETo investigate the effects of mechanical vibration on the morphology of the acellular scaffold for the spinal cord and establish a procedure to construct an acellular rat spinal cord allograft retaining intact matrix fibers for repairing spinal cord injuries.

METHODSFifteen segments of rat spinal cord were divided randomly into 3 groups and subjected to mechanical vibration at the frequency 80 r/min (group A, n=5), 120 r/min (group B, n=5), and 160 r/min (group C, n=5) respectively. The spinal cord was treated with Triton X-100 and sodium deoxycholate at room temperature and washed with distilled water. The specimens were observed microscopically with HE staining, and the ultrastructure was observed using scanning electron microscope.

RESULTSIn group A, the spinal cord specimens contained numerous cells and neural sheaths. Vibration at 120 and 160 r/min (in groups B and C) resulted in depletion of all the cells, axons and neural sheaths from the spinal cord after treatment with Triton X-100 and sodium deoxycholate. The acellular spinal cord consisted of a meshwork of the matrix fibers in longitudinal arrangement. In group C, however, obvious disruption of both the spinal dura mater and the matrix fiber occurred in the acellular spinal cord.

CONCLUSIONAll the cells, axons and neural sheaths in the spinal cord can be removed by chemical extraction with Triton X-100 and sodium deoxycholate. Mechanical vibration at suitable frequency may cell preserve the 3-dimensional structure of the matrix fibers. The acellular spinal cord scaffold may serve as an ideal material for constructing tissue-engineered spinal cord.

Animals ; Cell Separation ; methods ; Female ; Male ; Rats ; Rats, Sprague-Dawley ; Spinal Cord ; anatomy & histology ; cytology ; Spinal Cord Injuries ; therapy ; Tissue Engineering ; methods ; Vibration

The spicoreticulocerebellar (SRC) tract is an indirect spinocerebellar tract formed by the reticular formation (RF), which is connected to the cerebellum and spinal cord. The RF receives ascending fibers to both the spinal enlargement and sends descending fibers to the cerebellum. This study demonstrated that the connectivity of the neurons in the RF is concerned to the cerebellum and spinal cord using the anterograde projection with biotinylated dextran amine (BDA) and retrograde labeling with wheat germ agglutinin-horseradish peroxidase (WGA-HRP). Until now, a preliminary study in mammals has dealt with the afferent and efferent pathways in separating groups of neurons in the RF. There are only few reports on chickens. This study examined the SRC tract in chickens. Following bilateral injections we injected BDA into chicken spinal cord (lumbosacral enlargement) and WGA-HRP into the cerebellum. Both of single- and double-labeled cells were found within the RF. The spinoreticular axons were mainly distributed from the potomedullary junction to the rostral medulla in the rostro-caudally RF levels, for example, nucleus of reticularis (n. r.) pontis oralis, locus coeruleus, n. r. pontis caudalis, n. r. pars gigantocellularis, n. r. gigantocellularis and n. r. parvocellualris. Reticulocerebellar labeling by the WGA- HRP was found in the same place as well as that of the BDA-projection. We observed that the proportion and location of double labeling cells in the chicken were almost similar in each level, comparing to the rodents. These results suggest that the reticular formation is strongly related to the spicoreticulocerebellar tract in chickens.
Afferent Pathways/physiology ; Animals ; Biotin/*analogs&derivatives ; Cerebellum/anatomy&histology/*physiology ; Chickens/*anatomy&histology/*physiology ; Dextrans ; Efferent Pathways/physiology ; Microinjections ; Reticular Formation/anatomy&histology/*physiology ; Spinal Cord/anatomy&histology/*physiology ; Wheat Germ Agglutinin-Horseradish Peroxidase Conjugate

OBJECTIVE: To evaluate the value of spinal and paraspinal anatomic markers in both the diagnosis of lumbosacral transitional vertebrae (LSTVs) and identification of vertebral levels on lumbar MRI. MATERIALS AND METHODS: Lumbar MRI from 1049 adult patients were studied. By comparing with the whole-spine localizer, the diagnostic errors in numbering vertebral segments on lumbar MRI were evaluated. The morphology of S1-2 disc, L5 and S1 body, and lumbar spinous processes (SPs) were evaluated by using sagittal MRI. The positions of right renal artery (RRA), superior mesenteric artery, aortic bifurcation (AB) and conus medullaris (CM) were described. RESULTS: The diagnostic error for evaluation of vertebral segmentation on lumbar MRI alone was 14.1%. In lumbarization, all patients revealed a well-formed S1-2 disc with squared S1 body. A rhombus-shaped L5 body in sacralization and a rectangular-shaped S1 body in lumbarization were found. The L3 had the longest SP. The most common sites of spinal and paraspinal structures were: RRA at L1 body (53.6%) and L1-2 disc (34.1%), superior mesenteric artery at L1 body (55.1%) and T12-L1 disc (31.6%), and AB at L4 body (71.1%). CM had variable locations, changing from the T12-L1 disc to L2 body. They were located at higher sacralization and lower lumbarization. CONCLUSION: The spinal morphologic features and locations of the spinal and paraspinal structures on lumbar MRI are not completely reliable for the diagnosis of LSTVs and identification on the vertebral levels.
Adolescent ; Adult ; Aged ; Aged, 80 and over ; Anatomic Landmarks/*anatomy & histology ; Aorta, Abdominal/anatomy & histology ; Diagnostic Errors ; Female ; Humans ; Intervertebral Disc/anatomy & histology ; Lumbar Vertebrae/*anatomy & histology ; Lumbosacral Region ; Magnetic Resonance Imaging ; Male ; Mesenteric Artery, Superior/anatomy & histology ; Middle Aged ; Renal Artery/anatomy & histology ; Reproducibility of Results ; Sacrum/*anatomy & histology ; Spinal Cord/anatomy & histology ; Spine ; Young Adult

By using stereological morphometric techniques, we examined the ultrastructure of synapses in lamine II of the spinal dorsal horn of Sprague Dawley rats 30 min, 3 h and 5 h after long-term potentiation (LTP) induction. We found that the numerical density per unit volume (Nv) of total synapses, the thickness of the postsynaptic density (PSD), width of the synaptic cleft increased significantly after the establishment of LTP. (1) Thirty minutes after the formation of LTP, the thickness of the PSD increased from 0.029 +/-0.0064 microm (control) to 0.036 +/-0.009 microm (P<0.05) and the width of the synaptic cleft increased from 0.0181+/-0.0024 microm (control) to 0.0197+/-0.0029 microm (P< 0.05); the number of synaptic vesicles decreased from 0.122 +/-0.011/microm(2) to 0.085 +/-0.010/microm(2) (P<0.05); (2) 3 h after the formation of LTP, the thickness of PSD and the width of the synaptic cleft had no difference compared with those 30 min after LTP. The number of synaptic vesicles increased from 0.122 +/-0.011/microm(2) to 0.138 +/-0.015/microm(2); the curvature of the synaptic interface increased from 1.153+/-0.195 to 1.386 +/-0.311 (P<0.05, compared with control). Nv of negative synapses increased from 0.0187 +/-0.0056 to 0.0543 +/-0.0152 (P<0.05, compared with control), Nv of perforated synapses also increased from 0.0135 +/-0.0053 to 0.0215 +/-0.0076 (P<0.05, compared with control). These data suggest that the increase in thickness of PSD might be the major morphological change during the induction of LTP, while the increase in curvature of the synaptic interface, and the number of perforated synapses might be responsible for the maintenance of the spinal LTP.
Animals ; Long-Term Potentiation ; physiology ; Male ; Posterior Horn Cells ; physiology ; ultrastructure ; Rats ; Spinal Cord ; anatomy & histology ; physiology ; Synapses ; ultrastructure ; Synaptic Transmission ; Synaptic Vesicles ; ultrastructure

The genital organ is innervated by autonomic and somatic nerve. The former is both sympathetic and parasympathetic nerve and the later is comprised by sensory and motor fibers. The symptoms of male sexual dysfunction are sexopathy, erectile dysfunction, disorder of ejaculation and orgasm, and pianism. Not only different symptom but the same symptom can be induced by different injured nerve. The relationship between peripheral nerve injury and male sexual dysfunction should be understood correctly.
Erectile Dysfunction/etiology* ; Humans ; Male ; Parasympathetic Nervous System/injuries* ; Pelvis/innervation* ; Peripheral Nerve Injuries ; Peripheral Nerves/anatomy & histology* ; Sexual Dysfunction, Physiological/etiology* ; Spinal Cord Injuries/complications* ; Sympathetic Nervous System/injuries* ; Trauma, Nervous System/complications*