Abstract |
Diabetic foot ulcerations can be a devastating complication of diabetes, causing prolonged hospitalization and significant morbidity. Previously identified risk factors include peripheral neuropathy, foot deformities, and poor wound healing due to an altered wound environment. Despite appropriate treatment, many diabetic ulcers fail to heal. Bioengineered tissue, such as Apligraf (Graftskin; Organogenesis Inc., Canton, Mass.), has been effectively and safely used to increase the incidence of complete wound closure and decrease the healing time. Studies have demonstrated that Apligraf works through the delivery of growth factors and cytokines to the chronic wound environment.
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Authors | Thanh L Dinh, Aristidis Veves |
Journal | Plastic and reconstructive surgery
(Plast Reconstr Surg)
Vol. 117
Issue 7 Suppl
Pg. 152S-157S; discussion 158S-159S
(Jun 2006)
ISSN: 1529-4242 [Electronic] United States |
PMID | 16799383
(Publication Type: Journal Article, Review)
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Chemical References |
- Apligraf
- Biocompatible Materials
- Cytokines
- Growth Substances
- Collagen
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Topics |
- Biocompatible Materials
(administration & dosage, economics)
- Collagen
(administration & dosage, economics)
- Cost-Benefit Analysis
- Cytokines
(analysis)
- Diabetic Foot
(surgery)
- Growth Substances
(analysis)
- Humans
- Quality of Life
- Risk Factors
- Skin, Artificial
- Treatment Outcome
- Wound Healing
(drug effects)
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