Brian D Rinker1, John V Ingari2, Jeffrey A Greenberg3, Wesley P Thayer4, Bauback Safa5, Gregory M Buncke5. 1. Division of Plastic Surgery, University of Kentucky College of Medicine, Lexington, Kentucky. 2. Hand Surgery Division, WellSpan Orthopedics, York, Pennsylvania. 3. Indiana Hand to Shoulder Center, Indianapolis, Indiana. 4. Department of Plastic Surgery, Vanderbilt University Medical Center, Nashville, Tennessee. 5. Department of Reconstructive Microsurgery, The Buncke Clinic, San Francisco, California.
Abstract
BACKGROUND: Short-gap digital nerve injuries are a common surgical problem, but the optimal treatment modality is unknown. A multicenter database was queried and analyzed to determine the outcomes of nerve gap reconstructions between 5 and 15 mm with processed nerve allograft. METHODS: The current RANGER registry is designed to continuously monitor and compile injury, repair, safety, and outcomes data. Centers followed their own standard of care for treatment and follow-up. The database was queried for digital nerve injuries with a gap between 5 and 15 mm reporting sufficient follow-up data to complete outcomes analysis. Available quantitative outcome measures were reviewed and reported. Meaningful recovery was defined by the Medical Research Council Classification (MRCC) scale at S3-S4 for sensory function. RESULTS: Sufficient follow-up data were available for 24 subjects (37 repairs) in the prescribed gap range. Mean age was 43 years (range, 23-81). Mean gap was 11 ± 3 (5-15) mm. Time to repair was 13 ± 42 (0-215) days. There were 25 lacerations, 8 avulsion/amputations, 2 gunshots, 1 crush injury, and 1 injury of unknown mechanism. Meaningful recovery, defined as S3-S4 on the MRCC scales, was reported in 92% of repairs. Sensory recovery of S3+ or S4 was observed in 84% of repairs. Static 2PD was 7.1 ± 2.9 mm (n = 19). Return to light touch was observed in 23 out of 32 repairs reporting Semmes-Weinstein monofilament outcomes (SWMF). There were no reported nerve adverse events. CONCLUSION: Sensory outcomes for processed nerve allografts were equivalent to historical controls for nerve autograft and exceed those of conduit. Processed nerve allografts provide an effective solution for short-gap digital nerve reconstructions. Thieme Medical Publishers 333 Seventh Avenue, New York, NY 10001, USA.
BACKGROUND:Short-gap digital nerve injuries are a common surgical problem, but the optimal treatment modality is unknown. A multicenter database was queried and analyzed to determine the outcomes of nerve gap reconstructions between 5 and 15 mm with processed nerve allograft. METHODS: The current RANGER registry is designed to continuously monitor and compile injury, repair, safety, and outcomes data. Centers followed their own standard of care for treatment and follow-up. The database was queried for digital nerve injuries with a gap between 5 and 15 mm reporting sufficient follow-up data to complete outcomes analysis. Available quantitative outcome measures were reviewed and reported. Meaningful recovery was defined by the Medical Research Council Classification (MRCC) scale at S3-S4 for sensory function. RESULTS: Sufficient follow-up data were available for 24 subjects (37 repairs) in the prescribed gap range. Mean age was 43 years (range, 23-81). Mean gap was 11 ± 3 (5-15) mm. Time to repair was 13 ± 42 (0-215) days. There were 25 lacerations, 8 avulsion/amputations, 2 gunshots, 1 crush injury, and 1 injury of unknown mechanism. Meaningful recovery, defined as S3-S4 on the MRCC scales, was reported in 92% of repairs. Sensory recovery of S3+ or S4 was observed in 84% of repairs. Static 2PD was 7.1 ± 2.9 mm (n = 19). Return to light touch was observed in 23 out of 32 repairs reporting Semmes-Weinstein monofilament outcomes (SWMF). There were no reported nerve adverse events. CONCLUSION: Sensory outcomes for processed nerve allografts were equivalent to historical controls for nerve autograft and exceed those of conduit. Processed nerve allografts provide an effective solution for short-gap digital nerve reconstructions. Thieme Medical Publishers 333 Seventh Avenue, New York, NY 10001, USA.
Authors: Bauback Safa; Sonu Jain; Mihir J Desai; Jeffrey A Greenberg; Timothy R Niacaris; Jason A Nydick; Fraser J Leversedge; David M Megee; Jozef Zoldos; Brian D Rinker; Desirae M McKee; Brendan J MacKay; John V Ingari; Leon J Nesti; Mickey Cho; Ian Lee Valerio; Dennis S Kao; Yasser El-Sheikh; Renata V Weber; Jaimie T Shores; Joseph F Styron; Wesley P Thayer; Wojciech H Przylecki; Harry A Hoyen; Gregory M Buncke Journal: Microsurgery Date: 2020-02-26 Impact factor: 2.425
Authors: Bauback Safa; Jaimie T Shores; John V Ingari; Renata V Weber; Mickey Cho; Jozef Zoldos; Timothy R Niacaras; Leon J Nesti; Wesley P Thayer; Gregory M Buncke Journal: Plast Reconstr Surg Glob Open Date: 2019-03-13
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