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Orthopaedic Proceedings
Vol. 88-B, Issue SUPP_III | Pages 409 - 410
1 Oct 2006
Kato N Nakanishi K Morishita R Kaneda Y Nemoto K
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Crush injury is one of the categories of nerve injury, which is often encountered in the clinical field. There is no doubt that crushed nerves, which have anatomical continuity, regenerate spontaneously and somehow reinnervate their target tissues, such as muscle and skin. However, the longer it takes to reinnervate the target tissues, the more profoundly the atrophy of these target tissues progresses, resulting in a poor outcome. Clinically, it is therefore crucial to accelerate nerve regeneration if excellent results are to be achieved. Hepatocyte growth factor (HGF) is well known to be involved in many biological functions, such as organ regeneration and angiogenesis, and to exert neurotrophic effects on motor, sensory, and parasympathetic neurons. This raised hopes that HGF protein might be useful for the clinical treatment of nervous system disorders. However, administration of HGF as a recombinant protein is still beset by a number of problems, such as a short serum half-life and poor access to the central nervous system by the systemic route because of the presence of the blood-brain barrier. These problems can be major obstacles to the therapeutic use of such factors, and this has highlighted the need to develop innovative therapeutic strategies for more efficient delivery into the nervous system. Gene transfer into the nervous system has enormous therapeutic potential for a wide variety of disorders. It appears to have advantages over the administration of single or multiple bolus doses of a recombinant protein because gene transfer can achieve an optimally high, local concentration within the nervous system. Recently, two different strategies have been reported. Firstly gene transfer by local intraneural injection and secondly gene transfer via retrograde axonal transport. In crush injury, it is well known that some axons in the crushed nerve can remain intact. It is from this evidence that the idea of performing gene transfer via retrograde axonal transport arose. In this study, we gave repeated intramuscular injections of the human HGF gene, using nonviral HVJ (Hemagglutinating Virus of Japan) liposome method, to examine whether transfection of the rat nervous system with this gene is able to exert neurotrophic effects facilitating recovery of a crushed nerve. The expression of HGF protein and HGF mRNA indicated that gene transfer into the nervous system did occur via retrograde axonal transport. At 4 weeks after crush, electrophysiological examination of the crushed nerve showed a significantly shorter mean latency and a significantly greater mean maximum M-wave amplitude with repeated injections of HGF gene. Furthermore, histological findings showed that the mean diameter of the axons, the axon number and the axon population were significantly larger in the group with repeated injections of HGF gene. The above results show that repeated human HGF gene transfer into the rat nervous system is able to promote crushed-nerve recovery, both electrophysiologically and histologically, and suggest that HGF gene transfer has potential for the treatment of crushed nerve.


The Journal of Bone & Joint Surgery British Volume
Vol. 88-B, Issue 6 | Pages 756 - 759
1 Jun 2006
Kato N Htut M Taggart M Carlstedt T Birch R

We investigated the effect of delay before nerve repair on neuropathic pain after injury to the brachial plexus. We studied 148 patients, 85 prospectively and 63 retrospectively. The mean number of avulsed spinal nerves was 3.2 (1 to 5). Pain was measured by a linear visual analogue scale and by the peripheral nerve injury scale. Early repair was more effective than delayed repair in the relief from pain and there was a strong correlation between functional recovery and relief from pain.


Orthopaedic Proceedings
Vol. 88-B, Issue SUPP_I | Pages 124 - 124
1 Mar 2006
Ramachandran M Kato N Fox M Birch R Eastwood D
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Objective: The reported incidences of traumatic and iatropathic nerve injuries with supracondylar fractures in children are 12–16% and 6% respectively, with the majority recovering spontaneously. We performed a retrospective review of lesions referred to our tertiary unit to determine the incidence of surgical intervention.

Methods: Between 1997 and 2002, 37 neuropathies (associated with 32 supracondylar fractures) in 19 males and 13 females with an average age of 7.9 years were referred for further management. 8 fractures were classified as Gartland grade 2 and 24 as grade 3. All fractures were closed, with 2 treated non-operatively, 20 by closed reduction and percutaneous pinning and 10 by open reduction and internal fixation at the referring hospitals.

Results: The ulnar nerve was the most frequently injured (51.4%), followed by median (27%) and radial (21.6%) nerve palsies. 14 (37.8%) neuropathies were related to the fracture, while 23 (62.2%) were iatropathic. 10 patients (31.3%) required operative exploration while 3 (9.4%) were listed for surgery but were cancelled as they were recovering. Nerve grafting was used in 4 of the 10 operated cases, the donor nerve being the medial cutaneous nerve of the forearm in 3 and the superficial radial nerve in one. 26 patients (81.3%) had excellent outcomes, 5 (15.6%) good and 1 (3.1%) fair.

Conclusion: Although most had excellent outcomes, surgical exploration was required for nearly a third of the cases referred to our unit. This is in contrast to the current literature, which suggests that the majority of supracondylar neuropathies recover spontaneously.


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_III | Pages 394 - 394
1 Sep 2005
Ramachandran M Kato N Birch R Eastwood DM
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Introduction: Traumatic and iatropathic nerve injuries complicate 6–16% of paediatric supracondylar extension fractures of the humerus. The majority recover spontaneously. This retrospective review of lesions referred to our tertiary unit determined the incidence of surgical intervention.

Methods: Between 1997–2002, 37 neuropathies (32 fractures) in 19 males and 13 females (mean age 7.9yrs) were referred for further management. 8 fractures were Gartland grade 2 and 24 grade 3. All fractures were closed. Two were originally treated non-operatively, 20 by closed reduction and percutaneous pinning and 10 by open reduction and internal fixation.

Results: The ulnar nerve was most frequently injured (19, 51.4%), followed by median (10, 27%) and radial (8, 21.6%) nerve palsies. 14 (37.8%) neuropathies were fracture-related but 23 (62.2%) were treatment-related. 10 patients (31.3%) required operative exploration. Three (9.4%) were listed for surgery but cancelled due to nerve recovery. Nerve grafting using either the forearm medial cutaneous nerve or the superficial radial nerve was necessary in 4 of 10 operated cases. 26 patients (81.3%) had excellent outcomes, 5 (15.6%) good and 1 (3.1%) fair.

Discussion: In contrast to current literature suggesting that 86 to 100% of supracondylar associated neuropathies recover spontaneously within 2 to 3 months, surgical exploration was required in over 30% of cases.


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_III | Pages 394 - 394
1 Sep 2005
Eastwood D Ramachandran M Kato N Carlstedt T Birch R
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Introduction: To determine the aetiology of peripheral nerve injuries presenting to a specialist centre, identify the management strategies employed and discuss the functional outcome achieved.

Methods: Retrospective review of all children referred to this hospital between 1996–2003 with an acquired nerve injury. Obstetrical brachial plexus palsy was excluded.

Results: 100 nerve injuries (94 patients) were identified. The mean age was 9.9yrs (0.5–16yrs). 81 injuries involved the upper limb, 19 the lower limb. Most were due to low energy trauma and associated with fractures or their surgical management. 16% presented with autonomic sympathetic dysfunction, 10% with neuropathic pain. 43 patients underwent at least one surgical procedure. The operation was classified diagnostic in 5 (no surgically remediable lesion identified), therapeutic in 33 (surgical procedure could be expected to aid recovery) and reconstructive in 5 (no improvement in nerve function could be achieved; functional improvement achieved by other means). Excellent functional outcome only occurred in conservatively treated cases and in some treated by neurolysis. Nerve grafts and direct repairs were associated with good outcomes. Delayed surgery was associated with fair outcomes.

Discussion: Peripheral nerve injuries in children as in adults require careful, prompt attention to obtain the best outcome. Iatropathic injuries must be acknowledged.