Seyed Jafar Hashemian scite author profile

Bone regeneration is considered as an unmet clinical need, the aim of this study is to investigate the osteogenic potential of three different mesenchymal stem cells (MSCs) derived from human bone marrow (BM-MSCs), umbilical cord Wharton's jelly (UC-MSCs), and adipose (AD-MSCs) seeded on a recently developed nanocomposite scaffold (bioactive glass/ gelatin) implanted in rat animal models with critical size calvarial defects. In this study, after isolation, culture, and characterization, the MSCs were expanded and seeded on the scaffolds for in vitro and in vivo studies. The adhesion, proliferation, and viability of the cells on the scaffolds evaluated in vitro, showed that the scaffolds were biocompatible for further examinations. In order to evaluate the scaffolds in vivo, rat animal models with critical size calvarial defects were randomly categorized in four groups and treated with the scaffolds. The animals were sacrificed at the time points of 4 and 12 weeks of postimplantation, bone healing process were investigated. The histological and immunohistological observations showed (p < 0.01) higher osteogenesis capacity in the group treated with BM-MSCs/scaffolds compared to the other groups. However, the formation of new angiogenesis was evidently higher in the defects filled with UC-MSCs/scaffolds. This preliminary study provides promising data for further clinical trials.

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Acceleration of bone regeneration in bioactive glass/gelatin composite scaffolds seeded with bone marrow-derived mesenchymal stem cells over-expressing bone morphogenetic protein-7

Kargozar

Hashemian

Soleimani

et al. 2017

Materials Science and Engineering: C

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Mesenchymal Stem Cells: Rising Concerns over Their Application in Treatment of Type One Diabetes Mellitus

Hashemian

Kouhnavard

Nasli‐Esfahani

2015

Journal of Diabetes Research

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Type 1 diabetes mellitus (T1DM) is an autoimmune disorder that leads to beta cell destruction and lowered insulin production. In recent years, stem cell therapies have opened up new horizons to treatment of diabetes mellitus. Among all kinds of stem cells, mesenchymal stem cells (MSCs) have been shown to be an interesting therapeutic option based on their immunomodulatory properties and differentiation potentials confirmed in various experimental and clinical trial studies. In this review, we discuss MSCs differential potentials in differentiation into insulin-producing cells (IPCs) from various sources and also have an overview on currently understood mechanisms through which MSCs exhibit their immunomodulatory effects. Other important issues that are provided in this review, due to their importance in the field of cell therapy, are genetic manipulations (as a new biotechnological method), routes of transplantation, combination of MSCs with other cell types, frequency of transplantation, and special considerations regarding diabetic patients' autologous MSCs transplantation. At the end, utilization of biomaterials either as encapsulation tools or as scaffolds to prevent immune rejection, preparation of tridimensional vascularized microenvironment, and completed or ongoing clinical trials using MSCs are discussed. Despite all unresolved concerns about clinical applications of MSCs, this group of stem cells still remains a promising therapeutic modality for treatment of diabetes.

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Effect of calcitriol supplementation and tail suspension on serum biomarkers of bone formation in rats

Hashemian

Rismanchi

Esfahani

et al. 2015

J Diabetes Metab Disord

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BackgroundCalcitriol is documented to cause significant increase in bone mass densitometry counteracting osteoporosis. Promising results of calcitriol supplementation in studies aiming space flight induced osteoporosis is little and the effect of this hormone on biomarkers of bone metabolism is not examined yet in space flight models of osteoporosis in rats.MethodsThis was an interventional animal study being performed in a 1-month period. We included 21 Sprague Dawley strain rats (>200 gr, >6 week) who were randomly assigned to receive daily supplementation of oral 0.03μgr calcitriol and to be submitted to tail suspension model. Rats were followed for 1 month and were tested for serum osteocalcin (OC), alkaline phosphatase (ALP) and serum calcium at the beginning and the end of the study period. The results were analyzed and compared between groups.ResultsAlthough serum levels of osteocalcin and alkaline phosphatase biomarkers and total serum calcium were not significantly different within and between study groups, their levels were increased in tail suspension model compared to control group. The levels of these biomarkers were lower in those who were submitted to tail suspension model and received calcitriol supplementation compared to those who were only submitted to tail suspension (60.14 ± 11.73 ng/mL vs. 58.29 ± 2.69 ng/mL; p = 0.696 for osteocalcin and 381.86 ± 99.16 mU/mL vs. 362.57 ± 27.41 ng/mL; p = 0.635 for alkaline phosphatase).ConclusionSupplementation of daily diet with calcitriol in rats under weightlessness conditions may results in lower values for bone metabolic biomarkers of alkaline phosphatase and osteocalcin and serum calcium. This pattern of change in biomarkers of bone formation, may point to the capacity of calcitriol supplementation in preventing cellular process of osteoporosis. Thus calcitriol supplementation could be an available, economic and effective strategy for preventing bone metabolic changes related to weightlessness commonly encountered in space flight. The outcome of this study needs to be further studied in future trying to find more definite results.

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Effect of sintering temperature rise from 870 to 920 °C on physicomechanical and biological quality of nano-hydroxyapatite: An explorative multi-phase experimental in vitro/vivo study

Khoshzaban

Rakhshan

Najafi

et al. 2017

Materials Science and Engineering: C

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Endoscopic-Assisted Neck Tissue Expansion in Reconstruction of Facial Burn Injuries

Kamran

Salehi

Shoar³

et al. 2014

Journal of Craniofacial Surgery

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Endoscopic-assisted neck tissue expansion is associated with lower complication rate, shorter duration of hospitalization, reduced operative time, earlier initiation of expansion, and faster expansion process. It could be a feasible alternative to open technique in reconstructing facial burns, allowing smaller incision at port site, far placement of tissue expander, and excellent visualization of operation site.

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Effects of Vitamin D and Calcium Supplementation on Micro-architectural and Densitometric Changes of Rat Femur in a Microgravity Simulator Model

Kouhnavard

Esfahani

Montazeri

et al. 2014

Iran Red Crescent Med J

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Background:Revealing data on the role of vitamin D and calcium supplementation in bone health has led some to suggest that vitamin D and calcium treatment could also play a role in protecting bone against microgravity-induced mineral loss.Objectives:The aim of the present study was to investigate the effects of vitamin D and calcium administration on microscopic and densitometric changes of rat femur in a Microgravity Simulator Model.Materials and Methods:After designing a Microgravity Simulator Model, 14 rats were placed in the cages as follows: seven rats as osteoporosis group and seven rats received oral supplement of calcium/vitamin D as the treatment group. Animals were sacrificed after eight weeks and then both femurs were removed. Bone mineral density was measured for one femur from each animal, and morphologic studies were evaluated for the contralateral femur.Results:Bone mineral density of the whole femur in the treatment group was significantly higher than the osteoporosis group (0.168 ± 0.005 vs. 0.153 ± 0.006, P = 0.003). Also, bone mineral content of the whole femur was significantly higher in treatment group (0.415 ± 0.016 vs. 0.372 ± 0.019, P = 0.003). However, resorption eroded surface percentage was higher in the osteoporosis group (18.86 ± 3.71% vs. 9.71 ± 1.61%, P = 0.002).Conclusions:According to the results of this study, vitamin D and calcium administration might have protective effects against microgravity-induced mineral loss in a Rat Microgravity Simulator Model.

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Cartilage Curvature Reshaping: A Quantitative Assessment

Kamran

Hashemian

Salehi

et al. 2021

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Background Horizontal mattress suture is frequently performed procedure during Rhinoplasty and Otoplasty to control the curvature of the cartilages. Despite the popularity of mattress technique, there are no quantitative methods to determine the suture effects in cartilage reshaping. Objectives The aim of the present experimental study was to quantify the straightening effect of mattress suture on convexity of ear cartilage in rabbit models. Methods Eleven young adult male New Zealand white rabbits were used in this study. Horizontal mattress suture with spacing 3×6 mm was used in rectangle demarcated on left ear in area with maximum convexity. Preoperative and postoperative photographers were done before and immediately after surgery respectively. The Radius of curvature (ROC), first order deviation (FOD) and second order deviation (SOD) were calculated to quantify net cartilage reshaping, each point changes and homogeneity of new shaped cartilage respectively. Results The means for ROC were 1.112 and 2.169 before and after surgery respectively. ROC as indicator of net overall changing increased statistically significant. The means of FOD as each point slope index was statistically lower after surgery. (0.269 before surgery, 0.135 after surgery) The means for SOD also significantly decreased after surgery. (0.007 before surgery, 0.003 after surgery) The values of SOD remained positive after surgery that indicate changes in curve were homogenous. Conclusions A quantitative measurement method was introduced to directly quantify the controlling effect of suture. This quantifying method seems to be mandatory to compare the effect of horizontal mattress suture with other techniques in cartilage reshaping.

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