Publicação

Bioactive fibrous membrane containing endogenous nerve growth factor promotes cellular and functional recuperation of impaired cavernous nerve: An in vivo animal study

Detalhes bibliográficos
Resumo:	Introduction And Objective Prostate cancer is a frequent disease and the radical prostatectomy one of the most used treatment when the cancer is localized. This procedure commonly causes erectile dysfunction (ED) by injure the cavernous nerve (CN) during the surgery.With this research we investigate the ability of a bioactive fibrous membrane (FM) to regenerate the damaged CN in a rat model of CN injury. Methods Male Spragueâ Dawley (SD) rats were distributed by 4 experimental groups: sham (only a lower midline abdominal incision), negative control (lower midline abdominal incision with pelvic dissection and CN crush but no FM implantation), electrospun fibrous membrane [eFM] (with CN crush and FM implantation) and electrospun fibrous membrane biofunctionalized with NGF from rat urine [eFM-uNGF] (with CN crush). Function was evaluated five weeks later after an injection of apomorphine by glans observation (visual scoring) and intracavernous pressure (ICP) measurements. Neurogenic genes expression and Histological and Immunohistochemical analysis of CN and cavernous tissue was performed. Results in this model of bilateral CN crush the treatment with implanted bioactive fibrous membrane induces CN regeneration and restoration of erectile function (p <0.001) (figure), showing a significant increased number of smooth muscle cells and nNOS and eNOS contents. Additionally, the bioactive fibrous membrane promotes a CN protective effect and increase the nerve regeneration capacity by increasing the number of myelinated axons and nNOS-positive cells, recovering from the CN fibrosis observed in rats not treated. Conclusions This personalized regenerative strategy could help better recovery of erectile function after CN injuries, and it may constitute an effective novel option to prostate cancer patients suffering from ED after being subject to radical prostatectomy.
Autores principais:	Mota, Paulo
Outros Autores:	Casanova, Marta; Vala, Helena; Nóbrega, Carmen; da Silva Morais, Alain; Silva, Catarina; Anacleto, Sara; Barros, Alexandre; Reis, R. L.; Lima, Estêvão; Martins, Albino; Neves, N. M.
Assunto:	Cavernous nerve injury Electrospun fibrous membrane Endogenous nerve growth factor Erectile dysfunction
Ano:	2022
País:	Portugal
Tipo de documento:	outro
Tipo de acesso:	acesso aberto
Instituição associada:	Universidade do Minho
Idioma:	inglês
Origem:	RepositóriUM - Universidade do Minho

Descrição
Resumo:	Introduction And Objective Prostate cancer is a frequent disease and the radical prostatectomy one of the most used treatment when the cancer is localized. This procedure commonly causes erectile dysfunction (ED) by injure the cavernous nerve (CN) during the surgery.With this research we investigate the ability of a bioactive fibrous membrane (FM) to regenerate the damaged CN in a rat model of CN injury. Methods Male Spragueâ Dawley (SD) rats were distributed by 4 experimental groups: sham (only a lower midline abdominal incision), negative control (lower midline abdominal incision with pelvic dissection and CN crush but no FM implantation), electrospun fibrous membrane [eFM] (with CN crush and FM implantation) and electrospun fibrous membrane biofunctionalized with NGF from rat urine [eFM-uNGF] (with CN crush). Function was evaluated five weeks later after an injection of apomorphine by glans observation (visual scoring) and intracavernous pressure (ICP) measurements. Neurogenic genes expression and Histological and Immunohistochemical analysis of CN and cavernous tissue was performed. Results in this model of bilateral CN crush the treatment with implanted bioactive fibrous membrane induces CN regeneration and restoration of erectile function (p <0.001) (figure), showing a significant increased number of smooth muscle cells and nNOS and eNOS contents. Additionally, the bioactive fibrous membrane promotes a CN protective effect and increase the nerve regeneration capacity by increasing the number of myelinated axons and nNOS-positive cells, recovering from the CN fibrosis observed in rats not treated. Conclusions This personalized regenerative strategy could help better recovery of erectile function after CN injuries, and it may constitute an effective novel option to prostate cancer patients suffering from ED after being subject to radical prostatectomy.