Injectable hydrogel scaffold from decellularized human lipoaspirate
Soft tissue fillers are rapidly gaining popularity for aesthetic improvements or repair of adipose tissue deficits. Several injectable biopolymers have been investigated for this purpose, but often show rapid resorption or limited adipogenesis and do not mimic the native adipose extracellular matrix...
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Published in | Acta biomaterialia Vol. 7; no. 3; pp. 1040 - 1049 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
England
Elsevier Ltd
01.03.2011
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Subjects | |
Online Access | Get full text |
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Abstract | Soft tissue fillers are rapidly gaining popularity for aesthetic improvements or repair of adipose tissue deficits. Several injectable biopolymers have been investigated for this purpose, but often show rapid resorption or limited adipogenesis and do not mimic the native adipose extracellular matrix (ECM). We have generated an injectable adipose matrix scaffold by efficiently removing both the cellular and lipid contents of human lipoaspirate. The decellularized material retained the complex composition of peptides and glycosaminoglycans found in native adipose ECM. This matrix can be further processed by solubilizing the extracted ECM to generate a thermally responsive hydrogel that self-assembles upon subcutaneous injection. This hydrogel also supports the growth and survival of patient matched adipose-derived stem cells in vitro. The development of an injectable hydrogel from human lipoaspirate represents a minimally invasive option for adipose tissue engineering in terms of both the collection of source material and delivery of the scaffold. |
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AbstractList | Soft tissue fillers are rapidly gaining popularity for aesthetic improvements or repair of adipose tissue deficits. Several injectable biopolymers have been investigated for this purpose but often face rapid resorption or limited adipogenesis, and do not mimic the native adipose extracellular matrix (ECM). We have generated an injectable adipose matrix scaffold by efficiently removing both the cellular and lipid contents of human lipoaspirate. The decellularized material retained a complex composition of peptides and glycosaminoglycans found in native adipose ECM. This matrix can be further processed by solubilizing the extracted ECM to generate a thermally-responsive hydrogel that self-assembles upon subcutaneous injection. This hydrogel also supports the growth and survival of patient matched adipose - derived stem cells
in vitro
. The development of an injectable hydrogel from human lipoaspirate represents a minimally-invasive option for adipose tissue engineering in terms of both the collection of source material and delivery of the scaffold. Soft tissue fillers are rapidly gaining popularity for aesthetic improvements or repair of adipose tissue deficits. Several injectable biopolymers have been investigated for this purpose, but often show rapid resorption or limited adipogenesis and do not mimic the native adipose extracellular matrix (ECM). We have generated an injectable adipose matrix scaffold by efficiently removing both the cellular and lipid contents of human lipoaspirate. The decellularized material retained the complex composition of peptides and glycosaminoglycans found in native adipose ECM. This matrix can be further processed by solubilizing the extracted ECM to generate a thermally responsive hydrogel that self-assembles upon subcutaneous injection. This hydrogel also supports the growth and survival of patient matched adipose-derived stem cells in vitro. The development of an injectable hydrogel from human lipoaspirate represents a minimally invasive option for adipose tissue engineering in terms of both the collection of source material and delivery of the scaffold. |
Author | Christman, Karen L. Ibrahim, Dina O. Young, D. Adam Hu, Diane |
Author_xml | – sequence: 1 givenname: D. Adam surname: Young fullname: Young, D. Adam – sequence: 2 givenname: Dina O. surname: Ibrahim fullname: Ibrahim, Dina O. – sequence: 3 givenname: Diane surname: Hu fullname: Hu, Diane – sequence: 4 givenname: Karen L. surname: Christman fullname: Christman, Karen L. email: christman@bioeng.ucsd.edu |
BackLink | https://www.ncbi.nlm.nih.gov/pubmed/20932943$$D View this record in MEDLINE/PubMed |
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Keywords | Thermally responsive material Glycosaminoglycan Hydrogel Adipose tissue engineering Biomimetic material |
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Snippet | Soft tissue fillers are rapidly gaining popularity for aesthetic improvements or repair of adipose tissue deficits. Several injectable biopolymers have been... |
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SubjectTerms | Adipose Tissue - cytology Adipose Tissue - metabolism Adipose tissue engineering Biocompatible Materials Biomimetic material Cells, Cultured Electrophoresis, Polyacrylamide Gel Extracellular Matrix - metabolism Glycosaminoglycan Glycosaminoglycans - metabolism Humans Hydrogel Hydrogels Peptides - metabolism Thermally responsive material Tissue Engineering |
Title | Injectable hydrogel scaffold from decellularized human lipoaspirate |
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