Presentation of a novel model of chitosan- polyethylene oxide-nanohydroxyapatite nanofibers together with bone marrow stromal cells to repair and improve minor bone defects

Asgar Emamgholi; Mohsen Rahimi; Gholamreza Kaka; Seyed Homayoon Sadraie; Saleh Najafi

Presentation of a novel model of chitosan- polyethylene oxide-nanohydroxyapatite nanofibers together with bone marrow stromal cells to repair and improve minor bone defects

Publish place: Iranian Journal of Basic Medical Sciences، Vol: 18، Issue: 9

Publish Year: 1394

نوع سند: مقاله ژورنالی

زبان: English

This Paper With 7 Page And PDF Format Ready To Download

دریافت فایل کامل Paper

Certificate
من نویسنده این مقاله هستم

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این Paper:

https://civilica.com/doc/1297050

شناسه ملی سند علمی:

JR_IJBMS-18-9_007

تاریخ نمایه سازی: 3 آبان 1400

Abstract:

Objective(s):Various methods for repairing bone defects are presented. Cell therapy is one of these methods. Bone marrow stromal cells (BMSCs) seem to be suitable for this purpose. On the other hand, lots of biomaterials are used to improve and repair the defect in the body, so in this study we tried to produce a similar structure to the bone by the chitosan and hydroxyapatite. Materials and Methods: In this study, the solution of chitosan-nanohydroxyapatite-polyethylene oxide (PEO) Nanofibers was produced by electrospinning method, and then the BMSCs were cultured on this solution. A piece of chitosan-nanohydroxyapatite Nanofibers with BMSCs was placed in a hole with the diameter of ۱ mm at the distal epiphysis of the rat femur. Then the biomechanical and radiographic studies were performed. Results: Biomechanical testing results showed that bone strength was significantly higher in the Nanofiber/BMSCs group in comparison with control group. Also the bone strength in nanofiber/BMSCs group was significant, but in nanofiber group was nearly significant. Radiographic studies also showed that the average amount of callus formation (radio opacity) in nanofiber and control group was not significantly different. The callus formation in nanofiber/BMSCs group was increased compared to the control group, and it was not significant in the nanofiber group. Conclusion: Since chitosan-nanohydroxyapatite nanofibers with BMSCs increases the rate of bone repair, the obtained cell-nanoscaffold shell can be used in tissue engineering and cell therapy, especially for bone defects.

Keywords:

BMSCs , Chitosan , Nanofibers , Scaffolds

Authors

Asgar Emamgholi

Neuroscience Research Center, Baqiyatallah University of Medical Science, Tehran, Iran

Mohsen Rahimi

Department of Parasitology and Mycology, School of Medicine, Baqiyatallah University of Medical Science, Tehran, Iran

Gholamreza Kaka

Neuroscience Research Center, Baqiyatallah University of Medical Science, Tehran, Iran

Seyed Homayoon Sadraie

Department of Anatomy, School of Medicine, Baqiyatallah University of Medical Science, Tehran, Iran

Saleh Najafi

Microbial Biotechnology, Faculty of Science, Payame Noor University, Unit of Tehran Center, Tehran, Iran

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :

Jorgensen CH. Mesenchymal stem cells in arthritis: role of bone ...
Valtieri M, Sorrentino A. The mesenchymal stromal cell contribution to ...
Bergfeld SA, DeClerck YA. Bone marrow-derived mesenchymal stem cells and ...
Hideaki K, Hideki A, Arinobu T. Bone marrow strom cells ...
Salasznyk RM, Williams WA, Boskey A, Batorsky A, Plopper GE. ...
Araki T, Nagarajan R, Milbrandt J. Identification of genes induced ...
Anita M, Ranieri C, Rodolfo Q. Clonal mesenchymal progenitors from ...
Tohill M, Mantovani C, Wiberg M, Terenghi G. Rat bone ...
HomayoniaH, Hosseini Ravandia SA, Valizadehb M. Electrospinning of chitosan nanofibers: ...
Khora E, Yong Lim L. Implantable applications of chitin and ...
Kumar MNVR. A review of chitin and Chitosan applications. React ...
Yogi K, Michibayashi N, Kurikawa N, Nakashima Y, Mizoguchi T, ...
Zhang Y, Zhang MQ. Calcium phosphate/Chitosan composite scaffolds for controlled ...
Zhang Y, ZhangMQ. Three-dimensional macroporous calcium phosphate bioceramics with nested ...
Zhang Y, Zhang MQ. Synthesis and characterization of macroporous Chitosan/calcium ...
Bhattaraia N, Edmondsona D, Veiseha O, Matsenb FA, Zhang M. ...
Fouda MFA, Nemat A, Gawish A, Baiuomy AR. Does the ...
Seung Y. The survival and migration pattern of the bone ...
Madsen JE, Hukkhanen M. Fracture healing and callus innervations after ...
Boskey AL, Wians FH, Hauschka PV. The effect of osteocalcin ...
Yanzhong ZH, Jayarama R, Adel E, Seeram R, Bo SU, ...
Faheem A, Naseer A, Muzafar A, Soo Jin P, Dae ...
Han L, Anthony A, Montserrat C, Megan C, James B, ...
Zhao LR, Duan WM, Reyes M, Keene CD, Verfaillie CM, ...
Bossolasco P, Cova L, Calzarossa C, Rimoldi SG, Borsotti C, ...
Lamoury FM, Croitoru-Lamoury J, Brew BJ. Undifferentiated mouse mesenchymal stem ...
Stockmann P, Wilmowsky J, Nkenke V, Felszeghy C, Friedrich E, ...
Cao L, Liu G, Gan Y, Fan Q, Yang F, ZhangX, ...
Li F, Wang X, Niyibizi C. Bone marrow stromal cells ...

نمایش کامل مراجع