Objective To clarify the thin-layer 16-slice spiral CT features of coal worker’s pneumoconiosis and the superior distribution of comorbidities in their staging and lobes and lung field anatomy. Methods Sixty-six patients with coal worker's pneumoconiosis diagnosed by the pneumoconiosis diagnosis and identification group from October 2014 to March 2015 were enrolled. All patients underwent 16-slice spiral CT and thin-layer CT reconstruction with a thickness of 1.5 mm. The thin-slice CT signs and comorbidities of coal workers’ pneumoconiosis were observed, and the superior distribution of CT signs in patients at different stage and different lobes and lung field anatomy were evaluated. Results There were 16 cases of irregular small nodules in the lungs, 22 cases of large shadow fusion, 18 cases of intraocular shadow calcification, 41 cases of emphysema, 21 cases of pulmonary bullae, 21 cases of pulmonary hypertension, and 31 cases of enlarged lymph nodes in the mediastinum and calcified. The above signs were mostly distributed in stage Ⅲ pneumoconiosis (P<0.05). There were 32 cases of regular small nodules, which were mostly distributed in stage Ⅰ pneumoconiosis. In the 16 cases of irregular small nodules, the advantage was distributed in the middle and outer lobes of the double lungs. In the 22 cases of large shadow fusion, the advantage was distributed in the upper and lower lobe of the lungs. In the 16 cases of tuberculosis, the advantage was distributed in the upper lobe of the lungs. In the 21 cases of bullous bullae, the advantage was distributed in the upper lobe of the two lungs, mostly in the right upper lung. Conclusion The thin 16-slice spiral CT signs of coal worker’s pneumoconiosis can reflect the pathological changes, and have a certain correlation with the stage of pneumoconiosis, and have obvious characteristics in the anatomical distribution of lung and lung fields.
The purpose of this study was to investigate the arterial supply of the pisiform bone. Fifty upper extremities from adult human cadavers of both sexes were studied. The observations showed that there was a small branch(named the main artery of pisiform) arising from the lower part of the ulnar artery in each cases. The mean value of the length of the main artery of the pisiform was 23.89±8.68mm, the diameter of the artery was 0.79±0.21mm. The length, width and thickness of the pisiform were 11. 61±1.98mm, 11.40±1.87mm and 10.30±1.26mm, respectively. The length and width of the space accupied by the lunate on the X-ray films were measured, they were 16.38±1.96mm and 12.03±1.17mm, respectively.
OBJECTIVE: To explore the importance of the posterior and lateral arterial network of elbow in the application of the super-regional and mutual-pedicled axial flap. METHODS: Twenty-seven upper extremities of adult cadavers were prepared as casts of Acrylomintril Batradiene Styrene(ABS) resin and corroded in a b solution of NaOH according to natural layers of human tissue. The source, site and structure of the posterior and lateral arterial network of elbow were observed, the number and total sectional area of anastomosing branches crossing the line between two humeral epicondyles were measured and compared with the medial and anterior region. RESULTS: There are 8.64 +/- 2.74(36.42%) and 8.30 +/- 1.19(35.0%) anastomosing branches crossing the posterior and lateral regions, and total section areas are (0.48 +/- 0.11) mm2 and (0.37 +/- 0.03) mm2 respectively. So there is very rich arterial network around the elbow. CONCLUSION: The enough number of anastomosing branches and their section areas of the posterior and lateral region of the elbow make it possible to connect super-regional and mutual-pedicled axial flaps crossing the elbow.
Objective To provide anatomy evidence of the simple injury of the deep branch of the unlar nerve for cl inical diagnosis and treatments. Methods Fifteen fresh samples of voluntary intact amputated forearms with no deformity were observed anatomically, which were mutilated from the distal end of forearm. The midpoint of the forth palm fingerweb wasdefined as dot A , the midpoint of the hook of the hamate bone as dot B, the ulnar margin of the flexor digitorum superficial is of the l ittle finger as OD, and the superficial branch of the unlar nerve and the forth common finger digital nerve as OE, dot O was the vertex of the triangle, dot C was intersection point of a vertical l ine passing dot B toward OE; dot F was the intersection point of CB’s extension l ine and OD. OCF formed a triangle. OCF and the deep branch of the unlar nerve were observed. From May 2000 to June 2007, 3 cases were treated which were all simple injury of the deep branch of the unlar nerve by glass, diagnosed through anatomical observations. The wounds were all located in the hypothenar muscles, and passed through the distal end of the hamate bone. Muscle power controlled by the unlar nerve got lower. The double ends was sewed up in 2 cases directly intra operation, and the superficial branch of radial nerve grafted freely in the other 1 case. Results The distance between dot B and dot O was (19.20 ± 1.30) mm. The length of BC was (7.80 ± 1.35) mm. The morpha of OCF was various, and the route of profundus nervi ulnaris was various in OCF. OCF contains opponens canales mainly. The muscle branch of the hypothenar muscles all send out in front of the opponens canales. The wounds of these 3 cases were all located at the distal end of the hook of the hamate bone, intrinsic muscles controlled by the unlar nerve except hypothenar muscles were restricted without sensory disorder or any other injuries. Three cases were followed up for 2 months to 4 years. Postoperation, the symptoms disappeared, holding power got well, patients’ fingers were nimble. According to the trial standard of the function of the upper l imb peripheral nerve establ ished by Chinese Medieal Surgery of the Hand Association, the synthetical evaluations were excellent.Conclusion Simple injuries of the deep branch of the unlar nerve are all located in OCF; it is not easy to be diagnosed at the early time because of the l ittle wounds, the function of the hypothenar muscles in existence and the normal sense .
OBJECTIVE: To study the morphological character of long head of triceps muscle for clinical application in reconstruction of shoulder abduction. METHODS: Forty-four upper extremities of fixed human adult cadavers were carefully dissected. The origins and the pedicles of blood vessels and nerves of long head of triceps muscle, as well as the maximum available size of the muscles, were measured. Six cases of clinical application of long head of triceps muscle for reconstruction of shoulder abduction were followed up for 3 to 11 months. RESULTS: The origins in the dorsal side of long head of triceps muscle were muscular and the ventral side were tendinous, which was 7.6 to 13.3 cm in length and 1.6 to 3.4 cm in width. The distance from the origin to the neurovascular pedicle was 5.7 to 11.4 cm. The radial nerve, which innervated the muscles, could be dissected for 2.9 to 11.8 cm in length. The blood supplies to the triceps muscle were from humeral artery (43.2%), 1.0 to 6.0 cm in length and 1.6 to 2.4 mm in diameter, and from humeral profundus artery (45.5%), 1.5 to 4.4 cm in length and 0.9 to 2.4 mm in diameter, if the vessel was separated to the humeral artery, the length was 1.5 to 6.3 cm. The neurovascular pedicles were multiple branched. In the 6 cases of clinical application of the triceps muscles, the operated shoulder could abduct from 5 degrees preoperatively (0 degree to 10 degrees) to 77.3 degrees (50 degrees to 90 degrees) postoperatively. CONCLUSION: In accordance to the anatomical character of the triceps muscles, the long head of triceps muscle is a suitable choice for reconstruction of shoulder abduction with optimistic outcomes.
Objective To reveal morphologic features and physiological function in compartments of human forearm muscles, and investigate the possibil ity of transplantation of neuromuscular compartments. Methods Sihler’ s neural staining technique was used to study the nerve branches distribution of forearm skeletal muscles in 5 human cadavers (aging26-39 years), including flexor carpi radial is, flexor carpi ulnaris (FCU), extensor carpi radial is brevis, extensor carpi ulnaris, palmaris longus (PL), flexor poll icis longus, pronator teres (PT). According to Wickiewicz’s methods, Ulnar compartment and radial compartment of forearm skeletal muscles above mentioned from 10 human cadvers were used to study the muscle architectural features. Results Each nerve branches run into the ulnar compartment and radial compartment respectively. There was statistically significant difference between the two physiological cross section areas (PSCA) of each neuromuscular compartment from forearm muscles(P lt; 0.05). Among them, PSCA of ulnar compartment of FCU was the largest. The PSCA of ulnar compartment of PT was the smallest. There was no statistically difference between the ratio (PSCA/muscle wet weight) of each neuromuscular compartment from forearm muscles (P gt; 0.05). As the ratio of PSCA to the muscle fiber length, the ulnar compartment of PT and the two compartments of PL had the highest one while the ulnar compartment of FCU had the smallest; and there was no statistically difference among the other neuromuscular compartments (P gt; 0.05). Conclusion Each of forearm muscles be divided into ulnar compartment and radial compartment and they have their own nerve supply. And there are significant differences in the physiological function in compartments of forearm muscles, which can be references in muscular compartment transplantation.
Objective To evaluate the feasibility and safety of complete video-assisted thoracoscopic surgery (VATS)anatomic segmentectomy. Methods Clinical data of 26 patients with lung diseases who underwent complete VATS anatomic segmentectomy in the First Affiliated Hospital of Nanjing Medical University from November 2010 to July 2011 were retrospectively analyzed. There were 8 male and 18 female patients with their age of 13-81 (53.2±3.1) years. There were 23 patients with pulmonary nodules including 13 patients who underwent direct surgical resection and 10 patients with ground-glass opacity nodules (3 patients received preoperative localization and the other 7 patients received direct surgical resection). All the 3 patients with non-nodule pulmonary diseases (bronchiectasis, pulmonary bulla and pulmonary cyst respectively) underwent direct surgical resection. Results All the 26 patients received complete VATS anatomic segme- ntectomy successfully. The operation time was 150-250 (193.7±7.3) min,and intraoperative blood loss was 10-200 (65.7±12.7) ml. Patients with lung cancer received 4-7 (5.1±0.3) stations of lymph node dissection and the number of lymph node dissection was 4-16 (12.3±0.5) for each patient. There was no in-hospital death or postoperative complication. Postoperative thoracic drainage time was 3-7 (3.9±0.4) days. All the patients were discharge uneventfully. Lung cancer patients were followed up for 3-6 months without recurrence or metastasis. Conclusion Complete VATS anatomic segmentectomy is a safe and feasible surgical procedure.
Objective To investigate the application of multi-detector row spiral CT (MDCT) and multi-planer reconstruction (MPR) in identify the anatomy detail of normal adult groin region. Methods We retrospectively collected the CT images of 50 adult subjects with normal groin anatomic structure underwent groin region thin-slice MDCT scans between July and December 2009, 30 males and 20 females, obtained the coronal and sagittal views by MPR, investigated the value of different plans in identifying anatomic detail. Results Bilateral inferior epigastric artery (100/100, 100%), spermatic cord (60/60, 100%), and round ligament of uterus (40/40, 100%) were well identified on all plans in all subjects. The bilateral “radiological femoral triangle” could be demonstrated on coronal views in all subjects (100/100, 100%). The bilateral inguinal ligament were visible on coronal view in all subjects (100/100, 100%) and on sagittal views in 34 subjects (68/100, 68%), but on axial views was identified in 3 male subjects (6/100, 6%). The bilateral inguinal canal and deep inguinal ring were reliably visible on coronal views in all subjects (100/100, 100%), and on sagittal views in 46 subjects (92/100, 92%). On coronal views, the widths of inguinal canal was (0.97±0.35) cm in left, (0.89±0.23) cm in right for males, and (0.62±0.11) cm in left, (0.71±0.11) cm in right for females. No significant difference was found between two sides (P=0.059 in males, P=0.067 in females), but there were significant differences between males and females (P=0.007 in left, P=0.009 in right). Transverse diameter of deep inguinal ring was (1.32±0.31) cm in left, (1.31±0.36) cm in right for males, and (1.07±0.35) cm in left, (1.07±0.30) cm in right for females. No significant difference was found between two sides (P=0.344 in males, P=0.638 in females), but there were significant differences between males and females (P=0.001 in left, P=0.002 in right). Conclusion MDCT with different plans plays an important role in identify the anatomic details of groin region, the coronal views especially.
Objective To demonstrate the anatomical and biomechanical basis of scaphoid ring sign in advanced Kienbock’s disease. Methods The study consisted of two sections. The ligaments stabilizing the proximal pole of the scaphoid were observed in 5 specimens. Under 12 kg dead weight load through the tendons of the flexion carpal radial, the flexion carpal ulnar, the extension carpal radial, and the extension carpal ulnar for 5 minutes, the stresses of the scaphoid fossa and lunate fossa were measured in the case of neutral, flexion, extension, radial deviation and ulnar deviation of the wrist joint under normal and rupture conditions respectively by FUJI prescale film and FPD-305E,306E.Results Based on anatomical study, the ligaments stabilizing the proximal pole of the scaphoid consisted of the radioscaphocapitate ligament, long radiolunate ligament and scapholunate interosseous ligament; and the latter two ligaments restricted dorsal subluxation of the proximalpole of the scaphoid. When compared rupture condition with normal condition, thescaphoid fassa stress of radial subregion was not significantly different (0.90±0.43 vs 0.85±0.15), and the ones of palmar, ulnar and dorsal subregions decreased (0.59±0.20, 0.52±0.05 and 0.58±0.23 vs 0.77±0.13, 0.75±0.08 and0.68±0.09) in the case of extension; the scaphoid fassa stresses of all subregions increased or had no difference in the case of neural, flexion, radial deviation and ulnar deviation. The lunate fossa stresses of all subregions increased in thecase of neural, and the ones of all subregions decreased or had no difference inthe case of flexion, extension, radial deviation and ulnar deviation.Conclusion Rotary scaphoid subluxation should be treated operatively at Ⅲ B stage of Kienbock’s disease to avoid traumatic arthritis of theradioscaphoid joint.
Objective To assess the possibility of placing the posterior pedicle screw on atlas. Methods Twenty human cadaver specimens were used to insert pedicle screws in atlas, through the posterior arch or the pedicle of C1 into the lateral mass. The screw entry point was on the posterior surface of C1 posterior arch and at the intersection of the vertical line through the center of C2 inferior articular process and the horizontal line at least 3 mm below the superior rim of the C1 lamina. The screw of 3.5 mm in diameter was placed in a direction of 10° medial angle and 5° upwardangle. After placement of C1 pedicle screw, the distance from C1 screw entry point to the mediallateral midpoint of C1 pedicle, the maximum length of screw trajectory and the actual screw trajectory angles were measured. The direction of screw penetrating through the cortical of C1 pedicle or lateral mass and the injuries to the vertebral artery and spinal cord were observed.Results Forty pedicle screws were placed on atlas, the mean distance from C1 screw entry point to the medial-lateral midpoint of C1 pedicle was (2.20±0.42)mm, the maximum length of screw trajectory averaged (30.51±1.59)mm, and the actual screw trajectory angle measured (9.7±0.67)° in a medial direction and (4.6±0.59) ° in a upward direction. Only 1 screw penetrated the upper cortical bone of the atlas pedicle because the upward angle was too large, and 8 screws were inserted so deep that the inferior cortical bone of the C1 lateral mass was penetrated. But no injuries to the vertebral artery and spinal cord wereobserved. Conclusion C1 posterior pedicle screw fixation is quite accessible and safe, but the su