Effect of mesenchymal stem cells therapy in experimental kaolin induced syringomyelia model

No Thumbnail Available

Date

2022

Journal Title

Journal ISSN

Volume Title

Publisher

Edizioni Minerva Medica

Open Access Color

OpenAIRE Downloads

OpenAIRE Views

Research Projects

Organizational Units

Organizational Unit
Nutrition and Dietetics
(2017)
Student admission to the Atılım University Department of Nutrition and Dietetics started in 2017. Our Department is the only academic institution to offer undergraduate-level education completely in English in the field of Nutrition and Dietetics in Ankara. The studies of our department may be classified into two main categories; education and research. The current education programs are offered taking into consideration the awareness of the responsibility in offering a degree in Nutrition and Dietetics; by competent instructors in the field, and with an inter-disciplinary approach. Our aim for the future alumni of our undergraduate program is to undertake their responsibilities in the light of their information with a professional insight, and the confidence to constantly update themselves at hospitals, polyclinics, public health centers, ministries, catering institutions, food companies, universities and such where they may be employed in positions such as health care professionals, academicians, researchers, directors or policy makers.

Journal Issue

Abstract

BACKGROUND: Syringomyelia is a pathological cavitation of the spinal cord. In this study, we examined whether a syrinx cavity would limit itself with axonal regeneration and stem cell activity in the cavity, and we evaluated subjects on a functional basis. METHODS: Groups were designated as kaolin, trauma, kaolin-trauma, and saline groups. Also divided out of the syringomyelia treated groups were those given human mesenchymal stem cells (hMSCs). All groups were evaluated with immunohistochemistry, electron microscopy, confocal microscopy and functionally. RESULTS: The kaolin-trauma group had a significant correction of BBB score with hMSCs therapy. The syrinx cavity measurements showed significant improvement in groups treated with hMSCs. The tissue surrounding the syrinx cavity, however, appeared to be better organized in groups treated with hMSCs. The process of repair and regeneration of damaged axons in the lesion were more improved in groups treated with hMSCs. Using confocal microscopy, fluorescence of hMSCs was observed in the central canal, in the ependymal tissue, and around the lesion. CONCLUSIONS: It was concluded that axonal repair accelerated in groups receiving stem cells, and thus, stem cells may be effective in recovery of neural tissue and myelin damage in syringomyelia.

Description

Hanalioglu, Sahin/0000-0003-4988-4938; Çetinkaya, Duygu Uçkan/0000-0003-3593-6493; köse, sevil/0000-0003-2188-9534

Keywords

Confocal microscopy, Kaolin, Mesenchymal stem cells, Syringomyelia

Turkish CoHE Thesis Center URL

Fields of Science

Citation

1

WoS Q

Q3

Scopus Q

Source

Volume

66

Issue

1

Start Page

40

End Page

48

Collections