$Adipose-derived stromal vascular fraction prevent bone bridge formation on growth plate injury in rat (in vivo studies) an experimental research$

Adipose-derived stromal vascular fraction prevent bone bridge formation on growth plate injury in rat (in vivo studies) an experimental research

The growth plate is cartilage tissue found at the end of long bones in children, responsible for longitudinal bone growth. Injuries to the growth plate cartilage often lead to unwanted bony repair, resulting in growth disturbances such as limb length discrepancy and angulation deformity in children....

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Veröffentlicht in:	Annals of medicine and surgery 2020-12, Vol.60, p.211-217
Hauptverfasser:	Sananta, Panji, I Gede Made Oka, Rahaditya, Suryanto Dradjat, Prof Respati, Suroto, Heri, Mustamsir, Edi, Kalsum, Umi, Andarini, Sri
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Sprache:	eng
Schlagworte:	Adipose-derived stromal vascular fraction Experimental Research Growth plate injury Tissue engineering
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creator	Sananta, Panji I Gede Made Oka, Rahaditya Suryanto Dradjat, Prof Respati Suroto, Heri Mustamsir, Edi Kalsum, Umi Andarini, Sri
description	The growth plate is cartilage tissue found at the end of long bones in children, responsible for longitudinal bone growth. Injuries to the growth plate cartilage often lead to unwanted bony repair, resulting in growth disturbances such as limb length discrepancy and angulation deformity in children. There is currently no clinical treatment that can fully repair an injured growth plate. Tissue engineering is promising for regeneration of growth plate. Adipose-derived stromal vascular fraction highlight the promising potential as tissue engineering therapy for inducing regeneration of injured growth plate and able to reduce the formation of bony repair that can lead to deformity and limb length discrepancy. Using an animal model of growth plate injury, bone bridge formation is evaluated after 28 days using Enzyme-linked Immunoassay, radiology, histopathology and Immunofloresence examination. Radiological analyses performed by evaluation of grey value using ImageJ software and diameter bone bridge measured from the end to end distance between uninjured growth plate evaluated by histopatology examination. Enzyme-linked Immunoassay and immunofloresence are used to evaluate chondrocyte and chondrogenic marker within the defect. The result shows in group with Adipose-derived stromal vascular fraction have a significant lower bone bridge formation compare to positive control group. This current study represents the first work that has utilized this animal model to investigate whether Adipose-derived stromal vascular fraction can be used to initiate regeneration at the injured growth plate. •Injuries to the growth plate cartilage often lead to unwanted bony repair, resulting in growth disturbances•There is currently no clinical treatment that can fully repair an injured growth plate•Tissue engineering is promising for regeneration of growth plate.•Adipose-derived stromal vascular fraction (AD-SVF) highlight the promising potential as tissue engineering therapy•AD-SVF decrease bone bridge formation on growth plate injuries model on Rat
doi_str_mv	10.1016/j.amsu.2020.09.026
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Injuries to the growth plate cartilage often lead to unwanted bony repair, resulting in growth disturbances such as limb length discrepancy and angulation deformity in children. There is currently no clinical treatment that can fully repair an injured growth plate. Tissue engineering is promising for regeneration of growth plate. Adipose-derived stromal vascular fraction highlight the promising potential as tissue engineering therapy for inducing regeneration of injured growth plate and able to reduce the formation of bony repair that can lead to deformity and limb length discrepancy. Using an animal model of growth plate injury, bone bridge formation is evaluated after 28 days using Enzyme-linked Immunoassay, radiology, histopathology and Immunofloresence examination. Radiological analyses performed by evaluation of grey value using ImageJ software and diameter bone bridge measured from the end to end distance between uninjured growth plate evaluated by histopatology examination. 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subjects	Adipose-derived stromal vascular fraction Experimental Research Growth plate injury Tissue engineering
title	Adipose-derived stromal vascular fraction prevent bone bridge formation on growth plate injury in rat (in vivo studies) an experimental research
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