Characterization of neuromas in peripheral nerves and their effects on heterotopic bone formation

Jordan Minarelli, Eleanor L. Davis, Austin Dickerson, William C. Moore, Julio A. Mejia, Zbigniew Gugala, Elizabeth A. Olmsted-Davis, Alan R. Davis

Research output: Contribution to journalArticle

Abstract

The formation of neuromas involves expansion of the cellular components of peripheral nerves. The onset of these disorganized tumors involves activation of sensory nerves and neuroinflammation. Particularly problematic in neuroma is arborization of axons leading to extreme, neuropathic pain. The most common sites for neuroma are the ends of transected nerves following injury; however, this rodent model does not reliably result in neuroma formation. In this study, we established a rodent model of neuroma in which the sciatic nerve was loosely ligated with two chromic gut sutures. This model formed neuromas reliably (∼95%), presumably through activation of the neural inflammatory cascade. Resulting neuromas had a disorganized structure and a significant number of replicating cells. Quantification of changes in perineurial and Schwann cells showed a significant increase in these populations. Immunohistochemical analysis showed the presence of β-tubulin 3 in the rapidly expanding nerve and a decrease in neurofilament heavy chain compared to the normal nerve, suggesting the axons forming a disorganized structure. Measurement of the permeability of the blood–nerve barrier shows that it opened almost immediately and remained open as long as 10 days. Studies using an antagonist of the β3-adrenergic receptor (L-748,337) or cromolyn showed a significant reduction in tumor size and cell expansion as determined by flow cytometry, with an improvement in the animal’s gait detected using a Catwalk system. Previous studies in our laboratory have shown that heterotopic ossification is also a result of the activation of neuroinflammation. Since heterotopic ossification and neuroma often occur together in amputees, they were induced in the same limbs of the study animals. More heterotopic bone was formed in animals with neuromas as compared to those without. These data collectively suggest that perturbation of early neuroinflammation with compounds such as L-748,337 and cromolyn may reduce formation of neuromas.

Original languageEnglish (US)
JournalMolecular Pain
Volume15
DOIs
StatePublished - Mar 1 2019

Fingerprint

Neuroma
Peripheral Nerves
Osteogenesis
L 748,337
Heterotopic Ossification
Cromolyn Sodium
Axons
Rodentia
Amputees
Adrenergic Antagonists
Intermediate Filaments
Schwann Cells
Neuralgia
Sciatic Nerve
Tubulin
Gait
Cell Size
Sutures
Permeability
Neoplasms

Keywords

  • heterotopic ossification
  • nerve injury
  • neuroinflammation
  • Neuroma
  • peripheral nerve injury

ASJC Scopus subject areas

  • Molecular Medicine
  • Cellular and Molecular Neuroscience
  • Anesthesiology and Pain Medicine

Cite this

Characterization of neuromas in peripheral nerves and their effects on heterotopic bone formation. / Minarelli, Jordan; Davis, Eleanor L.; Dickerson, Austin; Moore, William C.; Mejia, Julio A.; Gugala, Zbigniew; Olmsted-Davis, Elizabeth A.; Davis, Alan R.

In: Molecular Pain, Vol. 15, 01.03.2019.

Research output: Contribution to journalArticle

Minarelli, J, Davis, EL, Dickerson, A, Moore, WC, Mejia, JA, Gugala, Z, Olmsted-Davis, EA & Davis, AR 2019, 'Characterization of neuromas in peripheral nerves and their effects on heterotopic bone formation', Molecular Pain, vol. 15. https://doi.org/10.1177/1744806919838191
Minarelli, Jordan ; Davis, Eleanor L. ; Dickerson, Austin ; Moore, William C. ; Mejia, Julio A. ; Gugala, Zbigniew ; Olmsted-Davis, Elizabeth A. ; Davis, Alan R. / Characterization of neuromas in peripheral nerves and their effects on heterotopic bone formation. In: Molecular Pain. 2019 ; Vol. 15.
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