Accelerated wound healing in a diabetic rat model using decellularized dermal matrix and human umbilical cord perivascular cells

Milan, Peiman Brouki; Lotfibakhshaiesh, Nasrin; Joghataie, Mohammad Taghi; Ai, Jafar; Pazouki, Abdolreza; Kaplan, David L.; Kargozar, Saeid; Amini, Naser; Hamblin, Michael R.; Mozafari, Masoud; Samadikuchaksaraei, Alí

doi:10.1016/j.actbio.2016.08.053

Cited by 124 publications

(60 citation statements)

References 64 publications

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“…The life quality of many people worldwide has been affected by bone diseases such as osteoporosis, Paget's disease, or cancer . Up to now, many studies have been conducted to provide innovative solutions for the reconstruction of damaged tissues . For successful reconstruction of bone tissues, three main factors were determined including appropriate cell sources, carriers for cell delivery such as scaffolds, and osteogenic growth factors .…”

Section: Introductionmentioning

confidence: 99%

“…[1][2][3] Up to now, many studies have been conducted to provide innovative solutions for the reconstruction of damaged tissues. 4,5 For successful reconstruction of bone Additional Supporting Information may be found in the online version of this article. Correspondence to: K. Mousavizadeh; e-mail: mousavik@gmail.com tissues, three main factors were determined including appropriate cell sources, carriers for cell delivery such as scaffolds, and osteogenic growth factors.…”

Section: Introductionmentioning

confidence: 99%

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Osteogenic potential of stem cells‐seeded bioactive nanocomposite scaffolds: A comparative study between human mesenchymal stem cells derived from bone, umbilical cord Wharton's jelly, and adipose tissue

et al. 2016

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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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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Osteogenic potential of stem cells‐seeded bioactive nanocomposite scaffolds: A comparative study between human mesenchymal stem cells derived from bone, umbilical cord Wharton's jelly, and adipose tissue

et al. 2016

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“…Stem cells or progenitor cells seem to support this process by multiple paracrine effects especially by high levels of pro-angiogenic molecules (i.e., VEGF, HGF, bFGF, EGF, TGF-β, IGF-1) [44,45,46,47]. These effects could be demonstrated in rodent diabetic wounding models, further underscoring the significant activity of stem cells and their potential in repair-resistant chronic wounds [45,46,48,49]. …”

Section: Angiogenesis In Skin Wound Healingmentioning

confidence: 99%

Skin Wound Healing: An Update on the Current Knowledge and Concepts

Sorg

Tilkorn²,

Hager³

et al. 2016

Eur Surg Res

816

644

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Background: The integrity of healthy skin plays a crucial role in maintaining physiological homeostasis of the human body. The skin is the largest organ system of the body. As such, it plays pivotal roles in the protection against mechanical forces and infections, fluid imbalance, and thermal dysregulation. At the same time, it allows for flexibility to enable joint function in some areas of the body and more rigid fixation to hinder shifting of the palm or foot sole. Many instances lead to inadequate wound healing which necessitates medical intervention. Chronic conditions such as diabetes mellitus or peripheral vascular disease can lead to impaired wound healing. Acute trauma such as degloving or large-scale thermal injuries are followed by a loss of skin organ function rendering the organism vulnerable to infections, thermal dysregulation, and fluid loss. Methods: For this update article, we have reviewed the actual literature on skin wound healing purposes focusing on the main phases of wound healing, i.e., inflammation, proliferation, epithelialization, angiogenesis, remodeling, and scarring. Results: The reader will get briefed on new insights and up-to-date concepts in skin wound healing. The macrophage as a key player in the inflammatory phase will be highlighted. During the epithelialization process, we will present the different concepts of how the wound will get closed, e.g., leapfrogging, lamellipodial crawling, shuffling, and the stem cell niche. The neovascularization represents an essential component in wound healing due to its fundamental impact from the very beginning after skin injury until the end of the wound remodeling. Here, the distinct pattern of the neovascularization process and the special new functions of the pericyte will be underscored. At the end, this update will present 3 topics of high interest in skin wound healing issues, dealing with scarring, tissue engineering, and plasma application. Conclusion: Although wound healing mechanisms and specific cell functions in wound repair have been delineated in part, many underlying pathophysiological processes are still unknown. The purpose of the following update on skin wound healing is to focus on the different phases and to brief the reader on the current knowledge and new insights. Skin wound healing is a complex process, which is dependent on many cell types and mediators interacting in a highly sophisticated temporal sequence. Although some interactions during the healing process are crucial, redundancy is high and other cells or mediators can adopt functions or signaling without major complications.

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“…7,8 In full-thickness skin defects, the skin barrier is partially compromised, but, due to the abundance of inflammatory cells, phagocytic clearance of nanoparticles is another challenging issue. 9,10 Therefore, innovative surface modification of nanoparticles might allow selective evasion of phagocytic clearance by distinct macrophage phenotypes. 11 The study by Li et al 5 addresses this concern, offering an advanced selective delivery system of lyophilized keratinocyte-targeted nanocarriers loaded with locked nucleic acid (LNA)-modified anti-microRNAs (miRs) that significantly increase Dicer expression and downregulate p21 Waf1/Cip1 expression.…”

mentioning

confidence: 99%

Nanotechnology in Wound Care: One Step Closer to the Clinic

Mozafari

2018

Molecular Therapy

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Accelerated wound healing in a diabetic rat model using decellularized dermal matrix and human umbilical cord perivascular cells

Cited by 124 publications

References 64 publications

Osteogenic potential of stem cells‐seeded bioactive nanocomposite scaffolds: A comparative study between human mesenchymal stem cells derived from bone, umbilical cord Wharton's jelly, and adipose tissue

Osteogenic potential of stem cells‐seeded bioactive nanocomposite scaffolds: A comparative study between human mesenchymal stem cells derived from bone, umbilical cord Wharton's jelly, and adipose tissue

Skin Wound Healing: An Update on the Current Knowledge and Concepts

Nanotechnology in Wound Care: One Step Closer to the Clinic

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