Objective To explore the effect of the collateral ligaments and the plantar plate on the flexion of the metatarsophalangeal(MP) joints. Methods Twenty-four preserved human No.2-4 digits were obtained from embalmed cadaver feet, which were divided into 2 groups at random. In group A, the bilateral collateral ligaments were cut first, and then the plantar plate was sectioned. They were cut inopposite sequence in group B. Angle of the flexion of MP joint was observed in the same load after the bilateral collateral ligaments and the plantar plate were sectioned in different sequence.From 1994 to 2000,11 cases were used with this technic, including plantar section in 2 cases and both plantar section and bilateral collateral ligamentscut in 9 cases. Results The angle of flexion of the MP joint before operation in group A is 37.30±5.42°, it increased 11.29±2.36° and to 48.60±2.98° when the bilateral collateral ligaments were cut, and there was significant difference. Later the cut of the plantar plate increased another 5.30±1.59° and to 53.35±2.76°. Both have an increasing trend for the angle of flexion of the MP joint (Plt;0.01). While in group B, the angle of flexion of the MP joint before operation is 34.59±5.32°, it increased 6.29±2.98° and to 40.89±2.36° when the plantar plate were cut, laterthe cut of the bilateral collateral ligaments increased another 9.71±1.94° and to 50.60±2.01°. Both had an increasing trend for the angle of flexion ofthe MP joint (Plt;0.01). The bilateral collateral ligaments had more influence than the plantar plate (Plt;0.01). There was the same effect in different sequence (Pgt;0.05). In 2 cases with plantar section, the flexion angle of MP joint could achieve 15° to 45° in 2 monthes. The other 9 cases with both plantar section and bilateral collateral ligaments cut, the MP joint flexion achieved 10.3° to 58.4° in 26.3 months. Conclusion The flexion angle of the MP joint can be increasedby cutting the bilateral collateral ligaments and the plantar plate.
Objective To recover the loss of the shoulder and elbow function after superior trunks injury of brachial plexus through multi ple nerves branch transfer simultaneously near the nerve entering points of reci pient nerves. Methods Four male patients (aged 21-39 years) with superior trunks injury of brachial plexus were treated from February to September 2007. All cases were injured in the traffic accident, left side in 1 case and right side in 3 cases, resulting in the loss of shoulder abduction, shoulder extorsion, shoulder l ift and elbow flexion, and the increase of muscle strength of shoulder shrug, elbow extension and finger flexion to above or equal to 4th grade. Patients were hospital ized 3-11 months afterinjury. Electromyography showed that the functions of accessory nerve, ulnar nerve and the branch to long head of tricepsbrachii were good, but the function of median nerve was injured partially. The following multiple donor nerves transfer were performed under general anaesthesia, namely from posterior approach accessory nerve to suprascapular nerve, from triceps to axillary nerve, from the partial branch of ulnar nerve to the biceps and/or brachial is muscular branch of musculocutaneous nerve. Results All incisions healed by first intention. One case suffered postoperative numbness on the ulnar side of hand and was symptomatically rel ieved after expectant treatment, while 3 cases had no manifestation of the motor and sensory functional injury related to donor nerve. All patients were followed up for 7-12 months. All patients regained the shoulder abduction and the elbow flexion 3-4 months after operation and electromyography showed that there was the regenerative potential in 3 recipient muscles. The shoulder abduction, elbow flexion and the muscle strength of the patients was 30-65°, 90-120° and 3-4 grade, respectively, 6-7 months after operation. Twelve months after operation, the first patient’s shoulder abduction, external rotation, superduction and elbow flexion almost returned to normal, and his shape of triangular muscle and biceps muscle were nearly normal. Conclusion Adopting donor nerves with similar functions to conduct the multiple donor nerves transfer in cord level has the advantages of l ittle functional loss at the donor sites, and fast and sound functional recovery at the reci pient sites. It is especially suitable for the superior trunks injury patient with delayed treatment and for the patient with the great risk in supraclavicular exploration, providing a new approach for treating superior trunks injury of brachial plexus.