Autor: |
Andrus, Liam, Camli, Berk, Mau, Ted, Ben‐Yakar, Adela |
Zdroj: |
Laryngoscope; Nov2023, Vol. 133 Issue 11, p3042-3048, 7p |
Abstrakt: |
Background/Objectives: Tightly‐focused ultrafast laser pulses (pulse widths of 100 fs–10 ps) provide high peak intensities to produce a spatially confined tissue ablation effect. The creation of sub‐epithelial voids within scarred vocal folds (VFs) via ultrafast laser ablation may help to localize injectable biomaterials to treat VF scarring. Here, we demonstrate the feasibility of this technique in an animal model using a custom‐designed endolaryngeal laser surgery probe. Methods: Unilateral VF mucosal injuries were created in two canines. Four months later, ultrashort laser pulses (5 ps pulses at 500 kHz) were delivered via the custom laser probe to create sub‐epithelial voids of ~3 × 3‐mm2 in both healthy and scarred VFs. PEG‐rhodamine was injected into these voids. Ex vivo optical imaging and histology were used to assess void morphology and biomaterial localization. Results: Large sub‐epithelial voids were observed in both healthy and scarred VFs immediately following in vivo laser treatment. Two‐photon imaging and histology confirmed ~3‐mm wide subsurface voids in healthy and scarred VFs of canine #2. Biomaterial localization within a void created in the scarred VF of canine #2 was confirmed with fluorescence imaging but was not visualized during follow‐up two‐photon imaging. As an alternative, the biomaterial was injected into the excised VF and could be observed to localize within the void. Conclusions: We demonstrated sub‐epithelial void formation and the ability to inject biomaterials into voids in a chronic VF scarring model. This proof‐of‐concept study provides preliminary evidence towards the clinical feasibility of such an approach to treating VF scarring using injectable biomaterials. Level of Evidences: N/A Laryngoscope, 133:3042–3048, 2023 [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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