727 Use of a Biodegradable Dermal Matrix in Conjunction with Meshed and Sprayed Autologous Cell Suspension with a Vacuum Assisted Dressing Achieved Limb Salvage in a 73 Year Old with Deep Full Thickness Burns Despite Exposed Tendon and Bone

2020 ◽  
Vol 41 (Supplement_1) ◽  
pp. S195-S195
Author(s):  
Joe Olivi ◽  
Megan Rodgers
Keyword(s):  
Cell Suspension ◽  
Limb Salvage ◽  
Skin Graft ◽  
Split Thickness Skin Graft ◽  
Vacuum Therapy ◽  
Dermal Substitute ◽  
Full Thickness ◽  
Dermal Matrix ◽  
Autologous Cell ◽  
The Right

Abstract Introduction Deep Full thickness burns require tangential excision of the burned tissues down to viable tissue. This often leaves exposed muscle, tendon and bone. Coverage of these areas is vital to limb salvage. Multiple modalities are necessary with these type of patients, such as, dermal matrix graft, split thickness skin graft, sprayed autologous cell suspension (ACS) and wound vacuum therapy(VAC). A dermal matrix provides a scaffold for tissue and vascular en growth that is suitable for accepting a skin graft and also provides a layer between the muscle, tendon, bone and the skin graft which improves movement and produces a more pliable graft. Biodegradable temporizing matrix(BTM), produced by PolyNovo Ltd, was used to cover the muscle, bone and tendon. This product has a silicone backing which can be delaminated once it has matured with tissue and vascular en growth for auto grafting. A combination of a wide meshed skin graft at 3:1 ratio and a sprayed ACS allows for faster healing and less donor site usage which decreases the overall wound burden. Methods A 73 y/o male with total body surface area burn of 24 % suffered deep full thickness burns to the bilateral lower legs. He underwent multiple debridements with management of the right leg with irrigating wound vacuum therapy. The deeper right leg had a wound base with that consisted of muscle from the thigh down onto the foot with exposed tendons and anterior tibial bone. The open wounds to the right leg were grafted with BTM for dermal substitute coverage. Once the BTM was mature it was delaminated, and the wound surface was covered with a 3:1 ratio split thickness skin graft (STSG) and sprayed on autologous cell suspension. This resulted in using less donor skin than a 1.5 or 2:1 meshed graft STSG which decreased his wound burden. Donor sites were also sprayed with ACS. Results We had nearly 100% take of the STSG and sprayed autologous suspension epidermal graft. There was a small area over the patella tendon where the BTM did not incorporate. This is though to be because of lack of immobilization of his knee and a pseudomonal infection. Donor sites healed faster and there were minimal open areas to the graft POD 11 excluding the patella area. Conclusions BTM can be used to provide a suitable dermal substitute in complex wounds when muscle, tendon and/or bone are exposed. Immobilization of the joints is necessary to allow the tissue en growth into the dermal matrix. Wide meshed graft with sprayed ACS can be used with good results with wound vacuum therapy. Decreased wound burden and time to heal open wounds of the graft and donor sites. Applicability of Research to Practice Use of a dermal matrix, wide mesh split thickness graft and sprayed epidermal ACS with wound vacuum therapy is a good option for limb salvage when vital structures are exposed.

525 Autologous Skin Cell Suspension May Enhance Healing of Burn Wounds and Skin Graft Donor Sites in Elderly Burn Patients

2020 ◽  
Vol 41 (Supplement_1) ◽  
pp. S100-S101
Author(s):  
Arhana Chattopadhyay ◽  
Courtney Swan ◽  
Clifford C Sheckter ◽  
Deepak Gupta ◽  
Yvonne L Karanas
Keyword(s):  
Cell Suspension ◽  
Skin Graft ◽  
Donor Site ◽  
Full Thickness ◽  
Burn Wounds ◽  
Skin Cell ◽  
Partial Thickness ◽  
Thickness Skin ◽  
Graft Donor ◽  
The Right

Abstract Introduction An autologous skin cell suspension (ASCS) spray containing keratinocytes, fibroblasts, and melanocytes can be processed from a small split thickness skin sample for use at the point-of-care in the operating room. ASCS have been shown to facilitate epidermal regeneration in large TBSA partial thickness burns with minimal donor site morbidity. We hypothesized that ASCS in conjunction with a 3:1 split thickness skin graft applied to burn wounds and ASCS alone applied to the donor site would facilitate healing in a 95 year-old burn patient with 12% TBSA deep partial and full thickness scald burns to the abdomen and bilateral thighs. To our knowledge, she is the oldest patient to undergo epidermal autografting with ASCS. Methods All burn wounds were tangentially excised in the standard fashion to healthy tissue. Split thickness (12/1000 inch) skin graft was harvested from the right lateral thigh, meshed 3:1, and applied to all wound beds. ASCS were prepared and sprayed on grafted sites and the donor site. All areas were dressed with Telfa clear and Xeroform with bacitracin. Dressings were initially changed every 2 days, and wounds were photographed on day 2, 4, 6, 8, 10, and 20. Results All burn wounds were deep partial thickness or full thickness. The right thigh donor site was completely healed by POD 10. 90% of the burn wounds had healed by POD 10. The area of deepest burn, an approximately 20 cm2area on the left medial thigh, was healed by POD 20. Conclusions We believe that ASCS enhanced the rate of re-epithelialization of burn wounds in a 95 year-old patient compared to our experience with skin grafting alone in this population. ASCS also promoted complete healing of the donor site by POD 10. This technology may have a role in decreasing healing time in the geriatric burn population. These findings are important for this population as longer lengths of stay are associated with delirium, hospital acquired infections, and deconditioning. This patient’s improved donor site healing also has broader implications as split thickness skin grafts are used widely for wound coverage in plastic surgery. Applicability of Research to Practice Demonstrates efficacy of ASCS in very elderly patients with moderate-sized deep burns and with skin graft donor sites.

scholarly journals Treatment of a Full-Thickness Burn Injury With NovoSorb Biodegradable Temporizing Matrix and RECELL Autologous Skin Cell Suspension: A Case Series

2019 ◽  
Vol 41 (1) ◽  
pp. 215-219 ◽  
Author(s):  
Kenneth W Larson ◽  
Cindy L Austin ◽  
Simon J Thompson
Keyword(s):  
Cell Suspension ◽  
Skin Graft ◽  
Healing Process ◽  
Treatment Algorithm ◽  
Case Series ◽  
Split Thickness Skin Graft ◽  
Full Thickness ◽  
Dermal Substitutes ◽  
Skin Cell ◽  
Thickness Skin

Abstract Dermal substitutes coupled with split thickness skin graft are the primary method of treating most severe full-thickness burns particularly when there is a lack of healthy donor skin. Although dermal replacements optimize functional and aesthetic outcomes in patients, the risk of infection and the amount of time required to process most dermal substitutes delay treatment potentially compromising graft take and the overall healing process. The purpose of this case series is to describe the treatment course of patients with severe burn injuries using a novel synthetic Biodegradable Temporizing Matrix (NovoSorb BTM) in conjunction with RECELL Autologous Cell Harvesting Device, a new methodology allowing for a timely point-of-care preparation of an autologous skin cell suspension in combination with a 3:1 split-thickness skin graft. To the best of our knowledge, this is the first reported case series to describe the treatment algorithm and clinical outcomes of deep full-thickness burns utilizing BTM in conjunction with RECELL ASCS.

666 Autologous Skin Cell Therapy After Dermal Matrix with STSG in a 5-year-old African-American Female - How Adjunct Therapies are Refining the Dogmatic Treatment Approach to Burns

2021 ◽  
Vol 42 (Supplement_1) ◽  
pp. S189-S190
Author(s):  
Alexandra Coward
Keyword(s):  
African American ◽  
Cell Suspension ◽  
Healing Time ◽  
African American Female ◽  
Full Thickness ◽  
Dermal Matrix ◽  
Skin Cell ◽  
Thickness Skin ◽  
Dermal Regeneration

Abstract Introduction Split-thickness skin grafting (STSG) is the standard of care for the treatment of full thickness skin injuries. Skin grafts are associated with long-term morbidity including graft loss, adjacent structural injury, anesthetic complications, scarring, and scar contractures. Large surface area burns are additionally challenging due to limited donor site availability. Autologous skin cell suspension (ASCS) is a new adjunct for STSG using device that provides a suspension of non-cultured, autologous skin cells applied overtop of STSG. Dermal matrix templates are placed on wounds after burn excision and induces dermal regeneration in preparation for STSG, allowing for a thinner graft to be harvested and applied. This technique has been shown to require both smaller areas of donor skin as well as thinner skin harvest which improves both healing time and aesthetic outcomes of donor sites, enhancing the time-tested and well accepted technique of STSG. Methods We present the case of a 5-year-old African American female who suffered 18% TBSA deep partial thickness burns and full thickness burns to her abdomen, trunk and left back after her shirt was accidentally lit on fire at home. She was transferred from a local hospital to our burn center for further evaluation. She was evaluated by both the burn surgery and pediatric teams and admitted for wound cares and surgical planning. Results On hospital day five she underwent burn excision and placement of acellular dermal regeneration template. She returned to the operating room on hospital day 22 after daily wound cares for autografting with autologous skin cell suspension application to anterior and posterior torso and left arm, as well as to back and thigh donor sites. Her takedown on hospital day 29 showed excellent graft take. She was ultimately discharged on hospital day 47. She continued to undergo wound care in the outpatient burn clinic and daily physical and occupational therapy. Conclusions This case illustrates the use of dermal matrix and ASCS on a large burn with excellent aesthetic outcomes and improved healing time. This case is unique in highlighting the versatility of this therapy in a darker skinned patient. There are significant challenges with long term morbidity from STSG and the use of both dermal regenerative matrix and ASCS may provide surgeons with new approaches to decreasing depth and size of donor sites, as well as improving the length of hospital stay and overall aesthetic outcomes of donor and graft sites, specifically in darker skinned patients.

549 Lessons Learned from Two Survivors of Greater Than 90% Total Body Surface Area Full Thickness Burn Injuries Using a Dermal Biodegradable Substitute and Autologous Skin Cell Suspension: A Case Series

2021 ◽  
Vol 42 (Supplement_1) ◽  
pp. S123-S123
Author(s):  
Aldin Malkoc ◽  
David Wong
Keyword(s):  
Cell Suspension ◽  
Body Surface ◽  
Total Body Surface Area ◽  
Fluid Loss ◽  
Dermal Substitute ◽  
Full Thickness ◽  
Skin Cell ◽  
Thickness Skin ◽  
Total Body ◽  
Skin Coverage

Abstract Introduction Advances in burn injury knowledge, critical care, and pharmacological developments have increased survival rates among extensive burn patients. Survival now dependents not just on skin coverage, but effective control of SIRS response, metabolic derangement, fluid loss and sepsis. Novel synthetic dermal substitutes create robustness, thickness, and pliability of the skin in addition to an improved aesthetic appearance while; point-of-care autologous skin cell harvesting enhances treatment by amplifying small split-thickness skin samples to produce an autologous skin cell suspension (ASCS) to cover a larger burn area. This study reports on two survivors with greater than 90% total body surface area full-thickness burns utilizing a combined treatment of a dermal substitute along with ASCS and traditional burn management strategies. Methods Chart review of two patients with >90% burns and inhalation injury after being trapped in a burning vehicle following a traffic collision occurred. Most of the burns in both patients were “leathery” and consistent with full thickness, sparing only the plantar and dorsal aspect of the feet and bilateral small areas of the hip in Patient 1. Patient 2 had fourth-degree burns in some areas of the chest and flank with only the bilateral groin regions and feet spared. The patients were treated with a multi-step process which included using allograft, dermal substitute, and ASCS with split-thickness skin grafts (STSG) in place of cultured epidermal autograft to achieve coverage of >90% burns with high meshed ratio. Results The dermal substitute was limited to deep burns that penetrated down to fat, muscle, and/or joints. Fluid loss was well controlled by the dermal substitute during initial resuscitation. Post reconstruction, areas covered with the dermal substitute and grafted with autogenous STSG with ASCS exhibited less hypertrophy and contracture bands. The elbow and knee joints showed minimal restriction with passive motion and good skin compliance, but contractures persisted in areas where 4th degree tendon and fascia thermal injury occurred. Areas that showed signs of infection were trimmed or unroofed and allowed to drain while maintaining the remainder of the dermal substitute. Conclusions The use of dermal substitutes and ASCS allowed the care team to achieve SIRS control, improved fluid management, enhanced skin coverage, and reduced hospitalization stay. The process experienced in these cases shows promise for future patients with extensive burns. Both patients were able to survive and show improvement during rehabilitation.

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