Objective To study the hook of hamate bone by anatomy and iconography methods in order to provide information for the cl inical treatment of injuries to the hook of hamate bone and the deep branch of ulnar nerve. Methods Fifty-two upper l imb specimens of adult corpses contributed voluntarily were collected, including 40 antisepticized old specimens and 12 fresh ones. The hook of hamate bone and its adjacent structure were observed. Twentyfour upper l imbs selected randomly from specimens of corpses and 24 upper l imbs from 12 healthy adults were investigated by computed tomography (CT) three-dimensional reconstruction, and then related data were measured. The measurement results of24 specimens were analyzed statistically. Results The hook of hamate bone is an important component of ulnar carpal canal and carpal canal, and the deep branch of ulnar nerve is located closely in the inner front of the hook of hamate bone. The flexor tendons of the forth and the l ittle fingers are in the innermost side, closely l ie next to the outside of the hook of hamate bone. The hamate bone located between the capitate bone and the three-cornered bone with wedge-shaped. The medial-, lateral-, and front-sides are all facies articularis. The hook of hamate bone has an approximate shape of a flat plate. The position migrated from the body of the hamate bone, the middle of the hook and the enlargement of the top of the hook were given the names of “the basis of the hook”, “the waist of the hook”, and “the coronal of the hook”, respectively. The short path of the basement are all longer than the short path of the waist. The long path of the top of the hook is the maximum length diameter of the hook of hamate bone, and is longer than the long path of the basement and the long path of the waist. The iconography shape and trait of the hook of hamate bone is similar to the anatomy result. There were no statistically significant differences (P gt; 0.05) between two methods in the seven parameters as follows: the long path of the basement of the hook, the short path of the basement of the hook, the long path of the waist of thehook, the short path of the waist of the hook, the long path of the top of the hook, the height of the hook, of hamate bone, and the distance between the top and the waist of the hook. Conclusion The hook of hamate bone can be divided into three parts: the coronal part, the waist part, and the basal part; fracture of the hamate bone can be divided into fracture of the body, fracture of the hook, and fracture of the body and the hook. Facture of the hook of hamate bone or fracture unnion can easily result in injure of the deep branch of ulnar nerve and the flexor tendons of the forth and the l ittle fingers. The measurement results of CT threedimensional reconstruction can be used as reference value directly in cl inical treatments.
Objective To investigate the relationship between the elbow flexion angle and the cubital tunnel pressure in patients with cubital tunnel syndrome. Methods Between June 2010 and June 2011, 63 patients with cubital tunnel syndrome were treated. There were 47 males and 16 females with an average age of 59 years (range, 31-80 years). The lesion was at left side in 18 cases and at right side in 45 cases. During anterior transposition of ulnar nerve, the cubital tunnel pressure values were measured at full elbow extension, elbow flexion of 30, 60, and 90°, and full elbow flexion with microsensor. The elbow flexion angle-cubital tunnel pressure curve was drawn. Results The cubital tunnel pressure increased smoothly with increased elbow flexion angle when the elbow flexed less than 60°, and the pressure increased sharply when the elbow flexed more than 90°. The cubital tunnel pressure values were (0.13 ± 0.15), (1.75 ± 0.30), (2.62 ± 0.34), (5.78 ± 0.47), and (11.40 ± 0.62) kPa, respectively at full elbow extension, elbow flexion of 30, 60, and 90°, and full elbow flexion, showing significant differences among different angles (P lt; 0.05). Conclusion The cubital tunnel pressure will increase sharply when the elbow flexes more than 90°, which leads to the chronic ischemic damage to ulnar nerve. Long-term ischemic damage will induce cubital tunnel syndrome.
Objective To evaluate and compare the efficacy of anterior subcutaneous and submuscular transposition of the ulnar nerve in treating cubital tunnel syndrome. Methods From August 2006 to August 2008, 66 patients with cubital tunnel syndrome were treated with anterior subcutaneous transposition (subcutaneous group, 24 cases) and with anterior submuscular transposition (submuscular group, 42 cases). According to McGowan stages, all patients were at Stage2 or 3 entrapment neuropathy with paresthesia in the ring and small fingers. Respectively, 3 cases and 8 cases compl icated by interosseous muscle atrophy in subcutaneous group and in submuscular group. No significant difference was found in gender, age, duration of the disease, and compl ication between two groups (P lt; 0.05). The surgical features, distribution of Bishop rates, two-point discrimination test, muscular strength, and compl ications were recorded. Results The operation time was (28.4 ± 5.2) minutes in subcutaneous group and (43.8 ± 5.6) minutes in submuscular group, showing significant difference (P lt; 0.01). The incision length was (12.2 ± 2.5) cm in subcutaneous group and (13.6 ± 2.8) cm in submuscular group, showing significant difference (P lt; 0.05). All patients were followed up 1-3 years. According to Bishop scoring system, the results were excellent in 18 cases, good in 4 cases, and poor in 2 cases in subcutaneous group; excellent in 36 cases, good in 3 cases, and poor in 3 cases in submuscular group; and showing no significant difference between two groups (P gt; 0.05). At 6 months postoperatively, twopoint discrimination and grip strength were improved when compared with that of preoperation (P lt; 0.05), but there was no significant difference between two groups (P gt; 0.05). Pain and dysesthesia of the scar were noted in 1 patient of the subcutaneous group and 3 patients of the submuscular group. No infection or hematoma was found and no patient needed reoperation. Conclusion Both operative methods are effective alternative for treating cubital tunnel syndrome. The anterior ubcutaneous anterior transposition of the ulnar nerve has fewer traumas, and it is a better choice for some old patients.
Objective To investigate the anatomical evidence of low end-to-side anastomosis of median nerve and ulnar nerve in repair of Dejerine Klumpke type paralysis or high ulnar nerve injury. Methods Twelve formaldehyde anticorrosion specimens (24 sides) and 3 fresh specimens (6 sides) were observed. There were 9 males (18 sides) and 6 females(12 sides). The specimen dissected under the microscope. S-shape incision was made at palmar thenar approaching ulnar side, the profundus nervi ulnaris and superficial branch of ulnar nerve were separated through near end of incision, and the recurrent branch of median nerve and comman digital nerve of the ring finger were separated through far end of incision. The distances from pisiform bone to the start point of the recurrent branch of median nerve, and to the start point of comman digital nerve of the ring finger were measured. The width and thickness of the profundus nervi ulnaris and superficial branch of ulnar nerve, and the recurrent branch of median nerve and comman digital nerve of the ring finger were measured, and the cross-sectional area was calculated. The number of nerve fiber was determined with HE staining and argentaffin staining. Results The crosssectional area and the number of nerve fiber were (2.46 ± 1.03) mm2 and 1 305 ± 239 for the profundus nervi ulnaris, (2.62 ± 1.75) mm2 and 1 634 ± 343 for the recurrent branch of median nerve, (1.60 ± 1.39) mm2 and 1 201 ± 235 for the superficial branch of ulnar nerve, and (2.19 ± 0.89) mm2 and 1 362 ± 162 for the comman digital nerve of the ring finger. There were no significant differences (P gt; 0.05) in the cross-sectional area and the number of nerve fiber between the profundus nervi ulnaris and the recurrent branch of median nerve, between the superficial branch of ulnar nerve and the comman digital nerve of the ring finger; and two factors had a l inear correlation (P lt; 0.05) with correlation coefficients of 0.68, 0.66 and 0.56, 0.36. The distances were (36.98 ± 4.93) mm from pisiform bone to the start point of the recurrent branch of median nerve, and (28.35 ± 6.63) mm to the start point of comman digital nerve of the ring finger. Conclusion Low end-to-side anastomosis of median nerve and ulnar nerve has perfect match in the cross-sectional area and the number of nerve fiber.
lectrophysiological examination was used in 15 cases of cubital tunnel syndrome before andduring opcration. The velocity, latency and amplitude of the conduction of the ulnar nerve 5cm aboveand below the elbew joint were measured by surface electrodes and direct stimulation. There is nosignificant difference(Pgt; 0.5 )between the results from the two kinds of testing. After the ulnarnerve was decompressed from the cubital tunnel, the conduction velocity increased by 50%, latency shortenee by 40%, the improvement in conduciton velocity being particularly significant(P lt; 0.02). which show that conduction velocity is a relatively sensitive testing parameter. Electrophysiological examination plays a monitoring role during cubital tunnel syndrome decompression.
OBJECTIVE To investigate the compression factor and clinical manifestation of the compression of deep branch of the ulnar nerve at the wrist. METHODS Anatomic study was done on both sides of 10 cadavers, the deep branch of ulnar nerve, the Guyon’s canal and the flexor digiti minimi brevis pedis were observed. Then from Jan. 1990 to Jan. 1997, 5 patients with compression of the deep branch of ulnar nerve at the wrist were treated clinically. Among them, there were 4 males and 1 female, aged from 37 to 48 years and the course of disease ranged from 1 to 5 months. RESULTS The motor branch of the ulnar nerve passed under the tendinous arcade of flexor digiti minimi brevis pedis. Occasionally, the branch of ulnar artery overpassed the motor branch. Clinically, the tendinous arcade compressed the motor branch was released, and after 2 to 4 years follow-up, the clinical results were satisfactory. CONCLUSION The main compression factor of the ulnar nerve at the wrist is the tendinous arcade of the flexor digiti minimi brevis pedis, the tendinous arcade should be released sufficiently during the operation.
Objective To investigate the clinical therapeutic effect of the ulnar neurolysis and nerve anterior transposition with an immediate range of motionfor the cubital tunnel syndrome in the aged. Methods Forty-three patients (24males and 19 females, aged 60-81 years, averaged 67) admitted for the cubital tunnel syndrome from January 1999 to December 2004 were randomly divided into 2groups: Group A (n=20) and Group B (n=23), with an illness course of 2-10 months. All the patients underwent the ulnar neurolysis and the nerve anterior transposition. After operation the patients’ elbows in group A were immobilized with the plaster slab for an external fixation for 3 weeks; the patients’ elbows in group B did not use the external fixation, but began an immediate range of motion on the 2nd day after operation. The Bishop scoring system was used to evaluate the patients’ functional recovery in the 2 groups. Results The follow-up for 1-5 years showed that the ulnar nerve function of all the patients were improved but no significant differences were found between the 2 groups (P>0.05). The patients in Group A returned to daily activities or work at 45.2±5.1 days, but the patients in Group B required 15.5±3.8 days, with a significant difference between the 2 groups (P<0.05). According to Bishop scoring system, the resutls were excellent in 14 cases, good in 4 cases, fair in 1 case and poor in 1 case in Group A, and 16, 4, 2 and 1 respectively in Group B. There was no significant difference between the two groups(P>0.05). Conclusion The ulnar neurolysis and nerve anterior transposition with an immediate range of motion for the cubital tunnel syndrome can promote the ulnar function recovery of the oldaged patients. They can return to their daily activities or work at a more rapid speed when their elbows are mobilized immediately after operation.
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 .