Skip to Content
Merck
  • Characterization of Nerve Damage After an Injury to the Adjacent Soft Tissue: A Pilot Animal Study.

Characterization of Nerve Damage After an Injury to the Adjacent Soft Tissue: A Pilot Animal Study.

Tissue engineering. Part C, Methods (2023-09-24)
Nesreen Zoghoul Alsmadi, Curt Deister, Nik Agrawal, Lan Tran, Rasa Zhukauskas, Debbie Neubauer Fischer, Deana Mercer
ABSTRACT

Traumatic injuries may result in the formation of soft tissue adhesions between peripheral nerves and surrounding soft tissue. These soft tissue adhesions lead to compression and ischemic stress within fascicles due to nonpliability of adhered scar tissue, and nerve tension due to loss of nerve gliding from scar tethering. These changes in the soft tissue bed surrounding the nerve may result in axon degeneration and neuroma-in-continuity. Preclinical models that simulate clinically relevant levels of scar in the nerve environment may be impactful to the development of surgical techniques and treatments to prevent adhesions. This study presents the results of a rodent model with an induced indirect nerve injury by (1) thermal insult to the soft tissue bed surrounding the nerve and (2) air-drying the surrounding soft tissue bed of the nerve. Our findings suggest that inducing an injury of the soft tissue bed results in increased intraneural scar and extraneural adhesions to the nerve compared to a sham procedure. Thermal induced injuries showed more macrophages and changes in nerve health compared to air-dried induced injuries. The changes in the nerves of the induced injury groups, specifically the thermal injury group, may be meaningful for evaluating treatments for nontransected nerve injuries.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Monoclonal Anti-Neurofilament 160 antibody produced in mouse, ~2 mg/mL, clone RMO44, purified immunoglobulin, buffered aqueous solution