Neurorrhaphy in Presence of Polyethylene Glycol Enables Immediate Electrophysiological Conduction in Porcine Model of Facial Nerve Injury

Petrov, Dmitriy; Burrell, Justin C.; Browne, Kevin D.; Laimo, Franco A.; Roberts, Sanford E.; Ali, Zarina S.; Cullen, D. Kacy

doi:10.3389/fsurg.2022.811544

Cited by 4 publications

(3 citation statements)

References 33 publications

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“…Notably, no electrophysiological response was obtained after a delayed nerve repair was completed following TE-NMI transplantation without PEG application ( Fig. S2 , bottom), corroborating our previous findings demonstrating PEG is necessary for electrical conduction [ 34 ]. These electrophysiological findings suggest immediately after nerve repair, exogenous TE-NMI axons were suitable for the PEG nerve fusion protocol at a delayed time point.…”

Section: Resultssupporting

confidence: 87%

“…Therefore, additional testing using a human-compatible starting cell source, such as human iPSC-derived neurons, is necessary in immunocompetent and immunocompromised preclinical models. For example, human iPSC-derived TE-NMIs may be tested in a clinically-relevant rodent or porcine models of nerve injury to determine the effects of immunosuppression on babysitting and axon fusion phenomenon [ 34 , 50 ].…”

Section: Discussionmentioning

confidence: 99%

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Engineered neuronal microtissue provides exogenous axons for delayed nerve fusion and rapid neuromuscular recovery in rats

Burrell

Das

Laimo

et al. 2022

Bioactive Materials

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Section: Resultssupporting

confidence: 87%

Section: Discussionmentioning

confidence: 99%

Engineered neuronal microtissue provides exogenous axons for delayed nerve fusion and rapid neuromuscular recovery in rats

Burrell

Das

Laimo

et al. 2022

Bioactive Materials

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“…For example, a scaled safe and effective dose range can be calculated based on the species body weight and body surface area ( Nair and Jacob, 2016 ). While boldine may be a promising intervention, additional preclinical testing in large animal models is necessary to determine the mechanism(s)-of-action and evaluate functional recovery ( Burrell et al, 2020 , 2021 ; Petrov et al, 2022 ). Additionally, pharmacological treatment of muscle denervation may be a useful adjunct for advanced tissue engineering strategies that replace damaged nervous structures ( Zhang et al, 2018a , b , 2021 , 2022 ; Katiyar et al, 2020 , 2021 ; Shultz et al, 2021 ; Burrell et al, 2022 ; Smith et al, 2022 ).…”

Section: Discussionmentioning

confidence: 99%

Orally administered boldine reduces muscle atrophy and promotes neuromuscular recovery in a rodent model of delayed nerve repair

Burrell,

Vu,

Alcott

et al. 2023

Front. Cell. Neurosci.

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Peripheral nerve injury often results in poor functional recovery due to a prolonged period of muscle denervation. In particular, absent axonal contact, denervated muscle can undergo irrevocable atrophy and diminished receptiveness for reinnervation over time, ultimately reducing the likelihood for meaningful neuromuscular recovery. While innovative surgical approaches can minimize the harmful effects of denervation by re-routing neighboring—otherwise uninjured—axons, there are no clinically-available approaches to preserve the reinnervation capacity of denervated muscles. Blocking intramuscular connexin hemichannel formation has been reported to improve muscle innervation in vitro and prevent atrophy in vivo. Therefore, the current study investigated the effects of orally administered boldine, a connexin hemichannel inhibitor, on denervated-related muscle changes and nerve regeneration in a rat model of delayed peripheral nerve repair. We found that daily boldine administration significantly enhanced an evoked response in the tibialis anterior muscle at 2 weeks after common peroneal nerve transection, and decreased intramuscular connexin 43 and 45 expression, intraneural Schwann cell expression of connexin 43, and muscle fiber atrophy up to 4 weeks post transection. Additional animals underwent a cross nerve repair procedure (tibial to common peroneal neurorrhaphy) at 4 weeks following the initial transection injury. Here, we found elevated nerve electrophysiological activity and greater muscle fiber maturation at 6 weeks post repair in boldine treated animals. These findings suggest that boldine may be a promising pharmacological approach to minimize the deleterious effects of prolonged denervation and, with further optimization, may improve levels of functional recovery following nerve repair.

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A novel investigational preclinical model to assess fluence rate for dental oral craniofacial tissues

Sourvanos,

Zhu,

Dimofte

et al. 2024

Photodiagnosis and Photodynamic Therapy

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Neurorrhaphy in Presence of Polyethylene Glycol Enables Immediate Electrophysiological Conduction in Porcine Model of Facial Nerve Injury

Cited by 4 publications

References 33 publications

Engineered neuronal microtissue provides exogenous axons for delayed nerve fusion and rapid neuromuscular recovery in rats

Engineered neuronal microtissue provides exogenous axons for delayed nerve fusion and rapid neuromuscular recovery in rats

Orally administered boldine reduces muscle atrophy and promotes neuromuscular recovery in a rodent model of delayed nerve repair

A novel investigational preclinical model to assess fluence rate for dental oral craniofacial tissues

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