Reconstructive urology and tissue engineering: Converging developmental paths

Adamowicz, Jan; Kuffel, Błażej; Breda, Shane Vontelin van; Pokrwczynska, Marta; Drewa, Tomasz

doi:10.1002/term.2812

Cited by 37 publications

(35 citation statements)

References 82 publications

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“…Regenerative medicine struggles to develop reliable tissue engineering technology for replacing diseased, inured or resected urinary bladders. Despite results indicating the feasibility of smooth muscles and urothelial layer regeneration, reestablishing bladder function emerged as a significant challenge which must be overcome to translate experimental settings into clinics 28 . The replacing of the neural network within the urinary bladder is "terra incognita" of regenerative medicine.…”

Section: Discussionmentioning

confidence: 99%

Development of a conductive biocomposite combining graphene and amniotic membrane for replacement of the neuronal network of tissue-engineered urinary bladder

Adamowicz

Pasternak

Kloskowski

et al. 2020

Sci Rep

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Biocomposite design. The sandwich-structured biocomposite material was constructed from frozen human Am and covered from the stromal side with two graphene layers. The stromal side was chosen due to its ultrastructure, which is irregular and offers a suitable scaffold for graphene attachment. Therefore the graphene layer could settle freely on pleated Am surface. Am preparation. Am was obtained according to the well-established protocol used in ophthalmology for Am transplantation Shortly, the donors was screened to exclude the risk of transmissible infectious diseases. The Am was obtained under sterile conditions after the elective caesarian section was washed out with an antibiotic solution, and the chorion was separated manually. With the epithelial surface up, Am was spread uniformly on nitrocellulose membranes. Am was then placed in a preservative medium and stored at −80 °C.

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Section: Discussionmentioning

confidence: 99%

Development of a conductive biocomposite combining graphene and amniotic membrane for replacement of the neuronal network of tissue-engineered urinary bladder

Adamowicz

Pasternak

Kloskowski

et al. 2020

Sci Rep

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“…At the beginning of tissue engineering research, the dominant belief was that implanted stem cells locally replace injured tissue by direct differentiation and forming incorporated neotissue. At present, however, we are of the opinion that the regeneration effect is a result of realizing bioactive molecules (6). In particular, paracrine stimulation of angiogenesis is of utmost importance as it is a major profibrotic factor.…”

Section: Tissue Engineering Approachmentioning

confidence: 99%

“…Tissue engineering offers the possibility to overcome limitations of current management for postprostatectomy incontinence and ED. Developed in recent years biotechnological feasibility of mesenchymal stem cell isolation, in vitro cultivation and implantation became the basis for new cell-based therapies oriented to induce regeneration of adult tissue (6). The perspective to offer patients suffering from postprostatectomy incontinence of ED minimal invasive one-time procedure utilizing autologous stem cell transplantation is a tempting idea.…”

Section: Introductionmentioning

confidence: 99%

Tissue Engineering and Its Potential to Reduce Prostate Cancer Treatment Sequelae—Narrative Review

2021

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Tissue engineering offers the possibility to overcome limitations of current management for postprostatectomy incontinence and ED. Developed in recent years biotechnological feasibility of mesenchymal stem cell isolation, in vitro cultivation and implantation became the basis for new cell-based therapies oriented to induce regeneration of adult tissue. The perspective to offer patients suffering from post-prostatectomy incontinence or erectile dysfunction minimal invasive one-time procedure utilizing autologous stem cell transplantation is desired management.

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“…The bladder neural plexus fails to regenerate beyond the lesion site and native axons do not elongate into the tissue-engineered graft. In this context, rebuilding the neural network within the neobladder wall should be a high priority [37]. Finding a way to restore proper vascularisation and innervation is the only chance for effective and up-to-date treatment of neurogenic bladder by means of tissue engineering.…”

Section: Bladder Neurohistology As the Key To Further Development In mentioning

confidence: 99%

Urothelium – the brain of the urinary bladder. Will knowing its properties pave the way for creating a tissue-engineered bladder?

Wolny¹,

Hyla-Klekot²,

Pastuszka³

et al. 2019

polp

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The neurogenic bladder is a polyaetiological disease syndrome. It results from changes in the central and peripheral nervous system and, so far, has been mainly regarded at the macroscopic level. An increasing number of recent studies have pointed, however, to the role of intact bladder innervation also at the cellular level. At present, urothelium is considered not only as a tight barrier but also as a complex structure controlling the activity of the urinary bladder due to multiple connections with the nervous, endocrine, and immune systems. As a result of denervation, the biological processes taking place in urothelium are disturbed. Understanding of such signalling pathways could contribute significantly to effective pharmacological treatment of neurogenic bladder dysfunction. Moreover, it may contribute to the creation of a bio-organ that could potentially replace a dysfunctional urinary bladder in such patients.

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Reconstructive urology and tissue engineering: Converging developmental paths

Cited by 37 publications

References 82 publications

Development of a conductive biocomposite combining graphene and amniotic membrane for replacement of the neuronal network of tissue-engineered urinary bladder

Development of a conductive biocomposite combining graphene and amniotic membrane for replacement of the neuronal network of tissue-engineered urinary bladder

Tissue Engineering and Its Potential to Reduce Prostate Cancer Treatment Sequelae—Narrative Review

Urothelium – the brain of the urinary bladder. Will knowing its properties pave the way for creating a tissue-engineered bladder?

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