Pharmacologic Enhancement of Functional Recovery in Free Muscle Transfers

Howard W. Klein; R. C. Carlsen; I. Gourley

doi:10.1055/s-2007-1006932

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J Reconstr Microsurg 1988; 4(4): 277-281
DOI: 10.1055/s-2007-1006932

ORIGINAL ARTICLE

Pharmacologic Enhancement of Functional Recovery in Free Muscle Transfers

Howard W. Klein, R. C. Carlsen, I. Gourley

Division of Plastic and Reconstructive Surgery and Departments of Human Physiology and Veterinary Surgery, University of California, Davis, Sacramento, California

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Publication History

Accepted for publication 1988

Publication Date:
08 March 2008 (online)

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ABSTRACT

To date, most free muscle transfers have been marginally successful as functioning units, producing no more than 50 percent of the tension generated by an identical non-transferred muscle. Functional recovery depends both on revascularization and re-innervation, even after careful microvascular anastomosis, remains limited. Forskolin® is a robust stimulator of adenylate cyclase and has been used to stimulate peripheral nerve regeneration in vivo; Forskolin may also directly increase capillary growth. Chronic infusion of Forskolin for the first 21 days following orthotopic transplantation of rabbit rectus femoris, with neuro-vascular anastomosis, stimulated a two-fold increase in the force-generating capacity of the transplant nine to 10 months after surgery. These results, in a model similar to clinical free muscle transfer, offer promise that Forskolin treatment can improve functional recovery by improving muscle re-innervation.