1. Response of an ovine laryngeal injury model to a novel fibrosis inhibitor
- Author
-
Jacqueline Allen
- Subjects
0301 basic medicine ,Pathology ,medicine.medical_specialty ,Glottis ,biology ,Halofuginone ,business.industry ,Surgical wound healing ,General Medicine ,medicine.disease ,03 medical and health sciences ,030104 developmental biology ,0302 clinical medicine ,Laryngeal injury ,medicine.anatomical_structure ,Fibrosis ,medicine ,biology.protein ,Surgery ,030223 otorhinolaryngology ,business ,Wound healing ,Right vocal fold ,Elastin ,medicine.drug - Abstract
BACKGROUND Vocal fold injury results in severe voice alteration that limits occupational function and social interaction. An ovine model of laryngeal injury has been developed, validated and utilized to examine laryngeal wound healing and the effect of a novel collagen inhibitor (halofuginone) on surgical wound healing. The study design includes basic research and animal model. METHODS An ovine laryngeal model was utilized to study controlled vocal fold injury and healing. Twenty-five sheep were divided into five groups. Sheep underwent right vocal fold injury preceded or followed by administration of halofuginone orally, topically or intralesionally. Biopsies were taken at commencement, 1 month and larynges explanted at 3 months. Specimens were examined for elastin and collagen density and epithelial changes. Pearson correlation statistics and Student's t-tests were used to assess inter-relationships. RESULTS All sheep tolerated halofuginone. One sheep death occurred in an untreated sheep. Vocal fold tissue demonstrated a predictable histological response to injury. Elastin was significantly reduced post-injury in the glottis. Halofuginone administered orally for 10 weeks prevented elastin loss and demonstrated a trend of reducing collagen density post-injury. CONCLUSION In an ovine laryngeal injury model, administration of a fibrosis inhibitor resulted in altered elastin and collagen deposition after injury in the glottis. Further investigation is warranted to examine whether these tissue changes affect vocal fold dynamics.
- Published
- 2016
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