Two-Step Autologous Grafting Using HYAFF Scaffolds in Treating Difficult Diabetic Foot Ulcers: Results of A Multicenter, Randomized Controlled Clinical Trial With Long-Term Follow-up

This study evaluated the efficacy and tolerability of an autologous tissue-engineered graft—a 2-step HYAFF autograft—in the treatment of diabetic foot ulcers compared with standard care. In all, 180 patients with dorsal or plantar diabetic foot ulcers (unhealed for ≥1 month) were randomized to receive Hyalograft-3D autograft first and then Laserskin autograft after 2 weeks (n = 90; treatment group) or nonadherent paraffin gauze (n = 90; control group). Efficacy and adverse events were assessed weekly for 12 weeks, at 20 weeks, and at 18 months. The primary efficacy outcome was complete ulcer healing at 12 weeks. Wound debridement, adequate pressure relief, and infection control were provided to both groups. At 12 weeks, complete ulcer healing was similar in both groups (24% of treated vs 21% controls). A 50% reduction in ulcer area was achieved significantly faster in the treatment group (mean 40 vs 50 days; P = .018). Weekly percentage ulcer reduction was consistently higher in the treatment group. At 20 weeks, ulcer healing was achieved in 50% of the treated group as compared with 43% of controls. Dorsal ulcers had a 2.17-fold better chance of wound healing per unit time following autograft treatment (P = .047). In a subgroup with hard-to-heal ulcers, there was a 3.65-fold better chance of wound healing following autograft treatment of dorsal ulcers ( P = .035). Adverse events were similar in both groups. The study results demonstrated the potential of this bioengineered substitutes to manage hard-to-heal dorsal foot ulcers.

[1]  A. Morabito,et al.  Predictive values of transcutaneous oxygen tension for above-the-ankle amputation in diabetic patients with critical limb ischemia. , 2007, European journal of vascular and endovascular surgery : the official journal of the European Society for Vascular Surgery.

[2]  M. Cavallini Autologous fibroblasts to treat deep and complicated leg ulcers in diabetic patients , 2007, Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society.

[3]  J. Giurini,et al.  Percent change in wound area of diabetic foot ulcers over a 4-week period is a robust predictor of complete healing in a 12-week prospective trial. , 2003, Plastic and reconstructive surgery.

[4]  Vincent Falanga,et al.  Wound healing and its impairment in the diabetic foot , 2005, The Lancet.

[5]  A. Boulton,et al.  Pathogenesis of foot ulcers and the need for offloading. , 2005, Hormone and metabolic research = Hormon- und Stoffwechselforschung = Hormones et metabolisme.

[6]  P. Fratino,et al.  HYAFF 11-based autologous dermal and epidermal grafts in the treatment of noninfected diabetic plantar and dorsal foot ulcers: a prospective, multicenter, controlled, randomized clinical trial. , 2003, Diabetes care.

[7]  W. Marston,et al.  The efficacy and safety of Dermagraft in improving the healing of chronic diabetic foot ulcers: results of a prospective randomized trial. , 2003, Diabetes care.

[8]  L. Uccioli Clinical results related to the use of the tissuetech autograft system in the treatment of diabetic foot ulceration , 2003 .

[9]  J. Hanft,et al.  The Efficacy and Safety of Dermagraft in Improving the Healing of Chronic Diabetic Foot Ulcers , 2003 .

[10]  D. Armstrong,et al.  Healing the diabetic wound and keeping it healed: Modalities for the early 21st century , 2002, Current diabetes reports.

[11]  V. Falanga,et al.  Debridement performance index and its correlation with complete closure of diabetic foot ulcers , 2002, Wound repair and regeneration : official publication of the Wound Healing Society [and] the European Tissue Repair Society.

[12]  June Chen,et al.  Graftskin Treatment of Difficult to Heal Diabetic Foot Ulcers: One Center's Experience , 2002, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[13]  I Tarawneh,et al.  The effects of ulcer size and site, patient's age, sex and type and duration of diabetes on the outcome of diabetic foot ulcers , 2001, Diabetic medicine : a journal of the British Diabetic Association.

[14]  David G Armstrong,et al.  Graftskin, a human skin equivalent, is effective in the management of noninfected neuropathic diabetic foot ulcers: a prospective randomized multicenter clinical trial. , 2001, Diabetes care.

[15]  R. Cortivo,et al.  In vitro reconstructed dermis implanted in human wounds: degradation studies of the HA-based supporting scaffold. , 2000, Biomaterials.

[16]  E. Faglia,et al.  A Combined Conservative Approach in the Treatment of a Severe Achilles Tendon Region Ulcer in a Diabetic Patient: A Case Report , 1999 .

[17]  D. Margolis,et al.  Healing of diabetic neuropathic foot ulcers receiving standard treatment. A meta-analysis. , 1999, Diabetes care.

[18]  D. Barisoni,et al.  Use of hyaluronic acid and cultured autologous keratinocytes and fibroblasts in extensive burns , 1999, The Lancet.

[19]  M. Radice,et al.  Semisynthetic resorbable materials from hyaluronan esterification. , 1998, Biomaterials.

[20]  A. Hansson,et al.  Fibroblasts derived from human chronic diabetic wounds have a decreased proliferation rate, which is recovered by the addition of heparin. , 1998, Journal of dermatological science.

[21]  R. Kirsner,et al.  Skin grafts as pharmacological agents: pre‐wounding of the donor site , 1996, The British journal of dermatology.

[22]  G. Reiber,et al.  Pathways to Diabetic Limb Amputation: Basis for Prevention , 1990, Diabetes Care.

[23]  M. Sternberg,et al.  Connective tissue in diabetes mellitus: biochemical alterations of the intercellular matrix with special reference to proteoglycans, collagens and basement membranes. , 1985, Diabete & metabolisme.