The anatomic basis and the clinical treatment of the elbow joint stiffness after electric injury.
- Author:
Hua LI
1
;
Hao-jie CHEN
;
Guo-hua CHEN
;
Zheng-rui HE
Author Information
- Publication Type:Case Reports
- MeSH: Adult; Ankylosis; etiology; pathology; therapy; Burns, Electric; complications; pathology; therapy; Elbow Joint; anatomy & histology; pathology; Humans; Male; Middle Aged
- From: Chinese Journal of Burns 2005;21(3):207-209
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVETo explore the optimal method for the treatment of the elbow joint stiffness accompanied with neural injury after electrical injury.
METHODSThirty adult cadaver elbows were fixed and dissected to observe the attachments of the ligaments and the muscles around the joint, and its relationship with the major nerves. Ten patients with electric burns with stiffness of the elbow joint were treated by means of loosening the anterior and posterior fascicles of radial and ulnar collateral ligaments, at the same time down shifting the insertion of flexor muscles, replacing the ulnar nerve anteriorly, in order to reconstruct flexor and extension functions of the elbow. The effect was evaluated with biomechanics criteria.
RESULTSThrough anatomical study, it was revealed that contracture of the posterior fascicles of the radial and ulnar collateral ligaments and triceps brachii muscle would result in stiffness of the elbow joint, and contracture due to disuse of the two anterior fascicles of the radial and ulnar collateral ligaments and M.biceps brachii would produce flexion deformity of the elbow joint. Postoperatively, the functions of the elbow joints of all the 10 patients recovered satisfactorily. Follow-up from 1 to 3 years showed no change in the range of flexion and extension movements of the elbows, and on the contrary, mobility of the elbow joints was improved.
CONCLUSIONLoosening of the anterior and posterior fascicles of the two collateral ligaments and replacement of insertions of biceps and triceps are pivotal in the treatment of stiffness of the elbow joint. Meanwhile lowering the origins of forearm flexor muscles on epicondylus and replacing anteriorly the ulnar nerve can further improve the flexion, function of the joint and relieve compression of the nerve.