Advances in regenerative medicine for otolaryngology/head and neck surgery

McPhail, Michael; Janus, Jeffrey R.; Lott, David G.

doi:10.1136/bmj.m718

Cited by 26 publications

(22 citation statements)

References 149 publications

(182 reference statements)

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“…A successful clinical application of a tissue‐engineered trachea, fabricated using collagen and polypropylene was first reported in 2005 (Omori et al., 2005). The outcomes of other clinically implanted materials, such as aortic allografts seeded with mesenchymal stem cells have been successful (Dhasmana et al., 2020; McPhail et al., 2020). However, the risks of repeated inflammation and graft rejection persist.…”

Section: Discussionmentioning

confidence: 99%

Airway ciliated cells regenerated on collagen sponge implants acquire planar polarities towards nearby edges of implanted areas

Nakamura

Katsuno

Tsuji

et al. 2021

J Tissue Eng Regen Med

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Summary Tissue‐engineered tracheae have been developed to replace defective tracheae. However, the direction of ciliated cells in the regenerated epithelium remains unclear. We investigated planar polarity formed in the regenerated airway epithelium after tracheal graft implantation. We partially resected the rat trachea and implanted a collagen scaffold. The direction of the basal foot was assessed by transmission electron microscopy. Immunofluorescence staining was performed to examine the biased distribution of Vangl1 and Frizzled6 proteins. The direction of mucociliary transport was analyzed by video microscopy. Our results showed that the basal feet of cilia in the proximal and distal regions of the implanted areas were respectively oriented toward the proximal and distal directions. The biased distribution of Vangl1 and Frizzled6, and the directions of mucociliary transport showed that planar polarities formed in the regenerated epithelium were oriented toward the proximal, distal, left, and right directions in the proximal, distal, left, and right regions of the implanted area. These polarities persisted until nine months after implantation. Hence, the results suggest that planar polarities formed in epithelia regenerated on tracheal grafts are directed toward the nearby edges of implanted areas and are preserved for a prolonged period. The polarities can, at least partially, contribute to clearing external materials from the implanted areas by transporting them to a normal region.

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Section: Discussionmentioning

confidence: 99%

Airway ciliated cells regenerated on collagen sponge implants acquire planar polarities towards nearby edges of implanted areas

Nakamura

Katsuno

Tsuji

et al. 2021

J Tissue Eng Regen Med

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“…7 In fact, this approach has shown great promise in tracheal reconstruction. 8,9 Furthermore, decellularization treatment has emerged as a common method for preparing tissue engineering trachea (TET). Functionally, this approach can not only fully remove cellular components but also improve the retention of extracellular matrix (ECM) with a three-dimensional trachea structure.…”

Section: Introductionmentioning

confidence: 99%

A novel decellularized trachea preparation method for the rapid construction of a functional tissue engineered trachea to repair tracheal defects

et al. 2022

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“…11,12 However, tissue engineering – engineering tissues that are low-immunogenic, biocompatible, and durable – may solve these problems. 12–14…”

Section: Introductionmentioning

confidence: 99%

“…11,12 However, tissue engineering -engineering tissues that are low-immunogenic, biocompatible, and durable -may solve these problems. [12][13][14] Importantly, in tracheal tissue engineering, scaffolds provide support for cell growth, contributing markedly in tracheal regeneration. An ideal tracheal scaffold should have anatomical and morphological structures similar to those of the native trachea, and should allow cells to adhere, migrate, reproduce, and differentiate.…”

Section: Introductionmentioning

confidence: 99%

Decellularized tracheal scaffolds in tracheal reconstruction: An evaluation of different techniques

Lei

Mei

Zhou

et al. 2021

Journal of Applied Biomaterials & Functional Materials

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In humans, the trachea is a conduit for ventilation connecting the throat and lungs. However, certain congenital or acquired diseases may cause long-term tracheal defects that require replacement. Tissue engineering is considered a promising method to reconstruct long-segment tracheal lesions and restore the structure and function of the trachea. Decellularization technology retains the natural structure of the trachea, has good biocompatibility and mechanical properties, and is currently a hotspot in tissue engineering studies. This article lists various recent representative protocols for the generation of decellularized tracheal scaffolds (DTSs), as well as their validity and limitations. Based on the advancements in decellularization methods, we discussed the impact and importance of mechanical properties, revascularization, recellularization, and biocompatibility in the production and implantation of DTS. This review provides a basis for future research on DTS and its application in clinical therapy.

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Advances in regenerative medicine for otolaryngology/head and neck surgery

Cited by 26 publications

References 149 publications

Airway ciliated cells regenerated on collagen sponge implants acquire planar polarities towards nearby edges of implanted areas

Airway ciliated cells regenerated on collagen sponge implants acquire planar polarities towards nearby edges of implanted areas

A novel decellularized trachea preparation method for the rapid construction of a functional tissue engineered trachea to repair tracheal defects

Decellularized tracheal scaffolds in tracheal reconstruction: An evaluation of different techniques

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