Early Reconstructions of Complex Lower Extremity Battlefield Soft Tissue Wounds (original) (raw)
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International orthopaedics, 2014
Definitive management of extremity injuries including soft tissue coverage is seldom achieved in battlefield medical treatment facilities due to limited resources and operational constraints. The purpose of this study was to analyse the French Army Medical Service experience performing such reconstructive surgery in a Combat Support Hospital (CSH) in Afghanistan. A clinical study was performed in the KaIA (Kabul International Airport) CSH from July 2012 to January 2013. During this period 23 Afghan patients treated for soft tissue coverage of combat-related extremity injuries were included. They totalled 28 extremity injuries including 18 blast trauma (BT) and ten non blast trauma (NBT). Overall, 35 extremity pedicled flaps were performed. There were 26 fasciocutaneous flaps, eight muscle flaps and one composite flap. Soft tissue coverage was achieved on all patients reviewed with a mean follow-up of 59 days. Five postoperative complications occurred including two deep infections, o...
Plastic Surgery Challenges in War Wounded I: Flap-Based Extremity Reconstruction
Advances in Wound Care, 2016
Scope and Significance: Reconstruction of traumatic injuries requiring tissue transfer begins with aggressive resuscitation and stabilization. Systematic advances in acute casualty care at the point of injury have improved survival and allowed for increasingly complex treatment before definitive reconstruction at tertiary medical facilities outside the combat zone. As a result, the complexity of the limb salvage algorithm has increased over 14 years of combat activities in Iraq and Afghanistan. Problem: Severe poly-extremity trauma in combat casualties has led to a large number of extremity salvage cases. Advanced reconstructive techniques coupled with regenerative medicine applications have played a critical role in the restoration, recovery, and rehabilitation of functional limb salvage. Translational Relevance: The past 14 years of war trauma have increased our understanding of tissue transfer for extremity reconstruction in the treatment of combat casualties. Injury patterns, flap choice, and reconstruction timing are critical variables to consider for optimal outcomes. Clinical Relevance: Subacute reconstruction with specifically chosen flap tissue and donor site location based on individual injuries result in successful tissue transfer, even in critically injured patients. These considerations can be combined with regenerative therapies to optimize massive wound coverage and limb salvage form and function in previously active patients. Summary: Traditional soft tissue reconstruction is integral in the treatment of war extremity trauma. Pedicle and free flaps are a critically important part of the reconstructive ladder for salvaging extreme extremity injuries that are seen as a result of the current practice of war.
The Journal of Hand Surgery, 2016
Purpose To assess the outcomes of treatment with a dermal regeneration template (DRT) in a cohort of combat casualties with severe upper extremity injuries. Methods Records of all active duty military patients treated with DRT at our institution between November 2009 and July 2013 were screened. Inclusion criteria were upper extremity open wounds sustained during combat, requiring split-thickness or full-thickness skin grafting for closure. The primary outcome measure was wound healing after the first attempt at definitive treatment (defined as the first application of split-thickness or full-thickness skin graft). Independent variables collected included time from injury to arrival at our facility, mechanism of injury, wound infection, tobacco use, location of wound, number of operative debridements, and patient demographics. Results A total of 60 patients with 69 wounds met the inclusion criteria. Most wounds were to the wrist or forearm (54%) or fingers (19%). All wounds were heavily contaminated, requiring a mean of 2.5 operative debridements before DRT placement. All wounds treated with fullthickness skin grafting after DRT healed completely without further complication. Splitthickness skin grafting was successful in 96% of patients. Conclusions DRT wound dressings are a helpful adjunct in the treatment of contaminated war wounds to the upper extremity.
Contemporary approach to soft-tissue reconstruction of the lower extremity after trauma
Burns & Trauma, 2021
The complex lower extremity wound is frequently encountered by orthopedic and plastic surgeons. Innovations in wound care, soft tissue coverage and surgical fixation techniques allow for improved functional outcomes in this patient population with highly morbid injuries. In this review, the principles of reconstruction of complex lower extremity traumatic wounds are outlined. These principles include appropriate initial evaluation of the patient and mangled extremity, as well as appropriate patient selection for limb salvage. The authors emphasize proper planning for reconstruction, timing of reconstruction and the importance of an understanding of the most appropriate reconstructive option. The role of different reconstructive and wound care modalities is discussed, notably negative pressure wound therapy and dermal substitutes. The role of pedicled flaps and microvascular free-tissue transfer are discussed, as are innovations in understanding of perforator anatomy and perforator f...
Wartime Soft Tissue Coverage Techniques for the Deployed Surgeon
Military Medicine, 2018
Background: Since the start of the conflict in the Middle East in 2001, military orthopedic surgeons have faced complex orthopedic injuries including high-energy soft tissue wounds, traumatic amputations, and open fractures. Although orthopedic surgeons are well trained in the management of osseous injuries, the treatment of soft tissue injuries can be technically challenging and unfamiliar. Early washout, debridement of devitalized tissue, external fixation of bony injuries, and antibiotic therapy remain the foundation of early wound management. However, these unique extremity injuries have no standard plan of care, and definitive treatment options continue to evolve. The following report highlights the typical cases seen in the wartime setting and offers possible solutions for the associated soft tissue injuries. Methods: A single orthopedic surgeon at a Role 3 combat support hospital performed all cases in this series. This study is a report of the cases that the orthopedic surgeon encountered while deployed and the various techniques that can be used to manage the complex wounds seen in a deployed setting. Findings: Twelve patients were included in this report and the data are shown. Of the 12 patients, 6 were injured by an improvised explosive device (IED), 4 were injured by a high-velocity gunshot wound (HVGSW), 1 was injured by a gunshot wound (GSW), and 1 was injured in an auto versus pedestrian motor vehicle crash. The wound sizes ranged from 10 to 300 cm 2. All patients required more than one irrigation and debridement before wound closure. There was a successful outcome in 11 of the 12 patients. The only patient without a known successful outcome was lost to follow up. Six patients were treated with split thickness skin graft (STSG) alone. Four patients were treated with STSG plus an additional means of coverage. One patient was treated with a random flap and one patient was treated with a full thickness skin graft. Integra was used in two of the patients. Each of the patients in whom integra was used had exposed bone and had a successful outcome with respect to tissue coverage. Discussion: This study details different soft tissue coverage techniques that must be learned and possibly employed by the deployed surgeon. Limitations of this study include its retrospective nature and the selected sampling of cases. At initial presentation, the management of war wounds secondary to high-velocity gunshot wounds and improvised explosive devices can be quite daunting. Adhering to firm surgical principles of thorough and meticulous debridement is the foundation of later soft tissue reconstructive options. Once the tissue is deemed clear of infection and contamination, there are myriad treatment options utilizing flaps, synthetic materials, and skin grafting. These are relatively straightforward techniques that the general orthopedic surgeon can utilize while deployed in a combat setting. In the end, it is critical for deployed surgeons to learn multiple techniques to provide definitive soft tissue coverage in a wartime theater.
Indian Journal of Surgery, 2015
The use of dermal substitutes is considered an effective treatment in several pathologies involving skin damage, mainly extensive burns and trauma. Treatment alternatives entail performing flaps or autografts. The purpose of this cross-sectional study is to assess the clinical effects and costeffectiveness of dermal substitutes in surgical procedure in complex wound healings of adult trauma patients. The study includes 52 patients who received dermal substitutes (n=25) between 2007 and 2012 and patients treated between 2006 and 2011 who received standard treatment (n=27). All patients presented with posttraumatic soft tissue defects with bone and/or tendon exposure. Differences in costs, mean differences in Euros and Euros per square centimeter, and clinical data were collected as outcome measures. Pearson's correlations were used to assess the relationship between total costs with sociodemographic data and clinical services to different healthcare providers (clinical data and costs were recorded for both groups). No relevant differences on acceptance rates were noticed amongst groups. Surgery costs were shown to be significantly reduced in the dermal substitutes group (P<0.01) even though total costs (surgery+hospitalization) did not exhibit a significant difference. Surgical time was significantly reduced in the dermal substitutes group (1.81 min/cm 2 lesions) as compared with the standard group (6.08 min/cm 2 lesions). The current study suggests that not only clinical but also possible economic and logistical advantages in choosing dermal substitutes may exist.
Plastic and reconstructive surgery, 2015
Combat-related extremity injuries frequently require vascular repair within the combat theater before undergoing definitive reconstruction. This study examines the outcomes of early vascular repair with secondary soft-tissue extremity reconstruction over the past decade of war trauma. War-related extremity injuries necessitating a downrange vascular procedure followed by a definitive limb reconstruction were reviewed. Patient demographics, type and location of vascular injuries, vascular intervention, and soft-tissue reconstruction procedures were examined. Outcomes of vascular repair, tissue transfer, and limb salvage were analyzed. From 2003 to 2012, 79 extremities in 78 patients had a vascular injury requiring in-theater intervention followed by 87 staged flap reconstructions performed distal to the vascular repair. Of the 74 arterial injuries requiring intervention, 27 were proximally located, with 73 percent requiring bypass. The early primary patency rate was 66 percent and th...
Reconstructive challenges in war wounds
Indian Journal of Plastic Surgery, 2012
ABSTRACTWar wounds are devastating with extensive soft tissue and osseous destruction and heavy contamination. War casualties generally reach the reconstructive surgery centre after a delayed period due to additional injuries to the vital organs. This delay in their transfer to a tertiary care centre is responsible for progressive deterioration in wound conditions. In the prevailing circumstances, a majority of war wounds undergo delayed reconstruction, after a series of debridements. In the recent military conflicts, hydrosurgery jet debridement and negative pressure wound therapy have been successfully used in the preparation of war wounds. In war injuries, due to a heavy casualty load, a faster and reliable method of reconstruction is aimed at. Pedicle flaps in extremities provide rapid and reliable cover in extremity wounds. Large complex defects can be reconstructed using microvascular free flaps in a single stage. This article highlights the peculiarities and the challenges en...