Sarah Brookes1, Lujuan Zhang2, Theodore J Puls3, John Kincaid4, Sherry Voytik-Harbin1,3, Stacey Halum5. 1. Department of Basic Medical Sciences, Purdue University, West Lafayette, Indiana, U.S.A. 2. Department of Speech, Language and Hearing Sciences, Purdue University, West Lafayette, Indiana, U.S.A. 3. Weldon School of Biomedical Engineering, Purdue University, West Lafayette, Indiana, U.S.A. 4. Department of Neurology, Indiana University School of Medicine (IUSM), Indianapolis, Indiana, U.S.A. 5. Department of Otolaryngology-Head and Neck Surgery, Indianapolis, Indiana, U.S.A.
Abstract
OBJECTIVE/HYPOTHESIS: There are currently no treatments available that restore dynamic laryngeal function after hemilaryngectomy. We have shown that dynamic function can be restored post hemilaryngectomy in a rat model. Here, we report in a first of its kind, proof of concept study that this previously published technique is scalable to a porcine model. STUDY DESIGN: Animal study. METHODS: Muscle and fat biopsies were taken from three Yucatan minipigs. Muscle progenitor cells (MPCs) and adipose stem cells (ASCs) were isolated and cultured for 3 weeks. The minipigs underwent a left laterovertical partial laryngectomy sparing the left arytenoid cartilage and transecting the recurrent laryngeal nerve. Each layer was replaced with a tissue-engineered implant: 1) an acellular mucosal layer composed of densified Type I oligomeric collagen, 2) a skeletal muscle layer composed of autologous MPCs and aligned oligomeric collagen differentiated and induced to express motor endplates (MEE), and 3) a cartilage layer composed of autologous ASCs and densified oligomeric collagen differentiated to cartilage. Healing was monitored at 2 and 4 weeks post-op, and at the 8 week study endpoint. RESULTS: Animals demonstrated appropriate weight gain, no aspiration events, and audible phonation. Video laryngoscopy showed progressive healing with vascularization and re-epithelialization present at 4 weeks. On histology, there was no immune reaction to the implants and there was complete integration into host tissue with nerve and vascular ingrowth. CONCLUSIONS: This pilot study represents a first in which a transmural vertical partial laryngectomy was performed and successfully repaired with a customized, autologous stem cell-derived multi-layered tissue-engineered implant. LEVEL OF EVIDENCE: NA Laryngoscope, 131:2277-2284, 2021.
OBJECTIVE/HYPOTHESIS: There are currently no treatments available that restore dynamic laryngeal function after hemilaryngectomy. We have shown that dynamic function can be restored post hemilaryngectomy in a rat model. Here, we report in a first of its kind, proof of concept study that this previously published technique is scalable to a porcine model. STUDY DESIGN: Animal study. METHODS: Muscle and fat biopsies were taken from three Yucatan minipigs. Muscle progenitor cells (MPCs) and adipose stem cells (ASCs) were isolated and cultured for 3 weeks. The minipigs underwent a left laterovertical partial laryngectomy sparing the left arytenoid cartilage and transecting the recurrent laryngeal nerve. Each layer was replaced with a tissue-engineered implant: 1) an acellular mucosal layer composed of densified Type I oligomeric collagen, 2) a skeletal muscle layer composed of autologous MPCs and aligned oligomeric collagen differentiated and induced to express motor endplates (MEE), and 3) a cartilage layer composed of autologous ASCs and densified oligomeric collagen differentiated to cartilage. Healing was monitored at 2 and 4 weeks post-op, and at the 8 week study endpoint. RESULTS: Animals demonstrated appropriate weight gain, no aspiration events, and audible phonation. Video laryngoscopy showed progressive healing with vascularization and re-epithelialization present at 4 weeks. On histology, there was no immune reaction to the implants and there was complete integration into host tissue with nerve and vascular ingrowth. CONCLUSIONS: This pilot study represents a first in which a transmural vertical partial laryngectomy was performed and successfully repaired with a customized, autologous stem cell-derived multi-layered tissue-engineered implant. LEVEL OF EVIDENCE: NA Laryngoscope, 131:2277-2284, 2021.
Authors: Christian Debry; Agnes Dupret-Bories; Nihal E Vrana; Patrick Hemar; Philippe Lavalle; Philippe Schultz Journal: Head Neck Date: 2014-06-21 Impact factor: 3.147
Authors: Tahera Ansari; Peggy Lange; Aaron Southgate; Karin Greco; Carla Carvalho; Leanne Partington; Anthony Bullock; Sheila MacNeil; Mark W Lowdell; Paul D Sibbons; Martin A Birchall Journal: Stem Cells Transl Med Date: 2016-09-09 Impact factor: 6.940