Hebert Lamblet scite author profile

Hebert Lamblet

2Publications

6Citation Statements Received

113Citation Statements Given

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113

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Universidade Federal de São Paulo

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Immediate cell-supplemented lipotransfer (iCSL)

Condé-Green¹,

Lamblet²

2011

Eur J Plast Surg

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Studies have shown that adipose-derived stem cells may improve neovascularization, graft take, and much more. Many strategies have been developed in the last years to isolate and take advantage of these cells for different applications in many specialties. Immediate cellsupplemented lipotransfer (iCSL) is a reproducible and immediate approach that consists in isolating a great number of stem cells from the harvested fat and injecting the suspension with processed adipose tissue as a scaffold in the same procedure, in a short time and cost-effective manner. In this article, the authors present iCSL throughout its processing method, its advantages and current applications in plastic and reconstructive surgery, and its potential applications in all fields of regenerative medicine

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Fat obtained from plastic surgery procedures—stem cells derived from adipose tissue and their potential in technological innovation: a narrative literature review and perspective on dissociative methods

Lamblet

Ferreira

2022

Eur J Plast Surg

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Background Throughout its illustrious history, plastic surgery has searched for novel regenerative therapies and procedures. Recently, interest has emerged in using adipose tissue-derived stem cells (ASCs) in an ethical, easy, and reproducible manner. ASCs are generally not administered alone but as a constituent of the stromal vascular fraction (SVF) in clinical practice. Herein, we searched for innovative fat collection and ASC isolation technologies and applications and evaluated each study’s relevance to plastic surgery. Methods A narrative literature review was carried out using the MEDLINE/PubMed databases. Studies published from January 1993 to August 2020 and written in English, Portuguese, or Spanish were considered. Results The selection process yielded 33 articles for subsequent review, involving exploratory, selective, and interpretive reading, material choice, and text analysis. Twenty-three articles employed enzymatic dissociation methods to isolate ASCs, and 25 employed liposuction as the plastic surgery technique. Moreover, articles describing new devices ( n = 2), techniques ( n = 4), computational models ( n = 1), tissue scaffolds ( n = 21), and therapies and/or treatments ( n = 5) were identified. Conclusions Given the importance of fat tissue for plastic surgery purposes, innovative ASC isolation and liposuction technologies could change how the surgeon conducts surgeries and improve surgical outcomes. Furthermore, many articles investigating tissue scaffolds demonstrate the importance of this area of research and development in plastic surgery and regenerative medicine. Continued efforts in the identified research areas will eventually bring in vivo human plastic surgery applications and regenerative medicine into the operating room. Level of evidence: Not gradable.

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Hebert Lamblet

Immediate cell-supplemented lipotransfer (iCSL)

Fat obtained from plastic surgery procedures—stem cells derived from adipose tissue and their potential in technological innovation: a narrative literature review and perspective on dissociative methods

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