Jennifer Sabino

Use of intraoperative fluorescent angiography to assess and optimize free tissue transfer in head and neck reconstruction.

PURPOSE Composite tissue defects in the head and neck region present unique challenges. Definitive head and neck reconstruction of these cases is often complicated by complex 3-dimensional defects that may require multiple flap or chimeric flap procedures. These advanced techniques can have serious repercussions should poor perfusion of the flap cause flap failure, which can be devastating. MATERIALS AND METHODS A retrospective review was completed for those complex reconstructions using free tissue transfers and fluorescent indocyanine green angiography (Lifecell SPY Elite imaging, Lifecell Corporation, Bridgewater, NJ) at Walter Reed National Military Medical Center over a 24-month period. Data analyzed included flap type (myocutaneous, osteocutaneous, or fasciocutaneous), flap success and failure rates, and complications. These also were compared with data from the institution before the study period and the incorporation of SPY technology. RESULTS Sixty-one free flaps, including 11 head and neck flaps, were performed. The head and neck flaps included 1 latissimus, 3 gracilis, 1 vastus lateralis, 4 anterior lateral thigh, and 2 fibular flaps. The overall success rate was 98.4%; 1 flap was lost (1.6%) and 2 flaps developed partial flap necrosis (3.3%). Where SPY Elite was used, there was no unpredicted partial flap necrosis. The only total flap loss was related to a hypercoagulable condition. CONCLUSIONS Free tissue transfer can be technically challenging, especially in complex head and neck reconstruction. An algorithmic approach using SPY Elite imaging aids in pedicle location, angiosomal assessment, anastomotic flow visualization, and cutaneous and osteocutaneous flap perfusion assessment. This objective tool can assist the reconstructive surgeon in avoiding perfusion-related complications and total and partial flap losses, thus improving patient outcomes.

The use of urinary bladder matrix in the treatment of trauma and combat casualty wound care.

Treatment of combat injuries and resulting wounds can be difficult to treat due to compromised and evolving tissue necrosis, environmental contaminants, multidrug resistant microbacterial and/or fungal infections, coupled with microvascular damage and/or hypovascularized exposed vital structures. Our group has developed surgical care algorithms with identifiable salvage techniques to achieve stable, definitive wound coverage often with the aid of certain regenerative medicine biologic scaffold materials and advanced wound care to facilitate tissue coverage and healing. This case series reports on the role of urinary bladder matrix scaffolds in the wound care and reconstruction of traumatic and combat wounds. Urinary bladder matrix was found to facilitate definitive soft tissue reconstruction by establishing a neovascularized soft tissue base acceptable for second stage wound and skin coverage options within traumatic and combat-related wounds.

A decade of conflict: flap coverage options and outcomes in traumatic war-related extremity reconstruction.

Background: War trauma patients who have sustained extremity trauma often exhibit extensive zones of injury with multiple concomitant injuries that can contribute to limited coverage options. Thus, flap availability and choice can become critical in the reconstruction algorithm of these severely traumatized patients. The authors’ purpose was to analyze the outcomes of muscle and fasciocutaneous flaps during their extremity reconstructive experience to determine which option had better flap and limb salvage outcomes. Methods: A retrospective review of servicemembers treated with flap-based limb salvage from 2003 through 2012 at the National Capital Consortium was completed. Patients were divided into cohorts of patients who underwent muscle or fasciocutaneous flaps. Results: Three hundred fifty-nine flap procedures were performed. Of these procedures, 197 were muscle (55 percent) and 152 were fasciocutaneous flaps (42 percent). There was no difference in overall flap complications between groups (30 percent versus 26 percent; p = 0.475). However, there was a significantly higher flap failure rate in the muscle compared with the fasciocutaneous group (13 percent versus 6 percent; p = 0.030). Although there were more overall extremity complications in the muscle group (59 percent versus 47 percent; p = 0.030), there were no significant differences in soft-tissue infection, osteomyelitis, or amputation rates. Conclusions: There are many flap options that provide adequate coverage in extremity salvage. Complication rates did not differ significantly between muscle and fasciocutaneous flaps, with one exception—flap failure rates were significantly higher in our muscle-based flap cohort of patients. Nonetheless, each of these flap types has utility in our patients based on individual wounding patterns, flap availability for reconstruction, and rehabilitation goals. CLINICAL QUESTION/LEVEL OF EVIDENCE: Therapeutic, III.

Limb salvage after vascular reconstruction followed by tissue transfer during the Global War on Terror

BACKGROUND Combat extremity wounds are complex and frequently require an immediate vascular reconstruction in the operational environment followed by delayed tissue coverage at a stateside medical treatment facility. The purpose of this study was to evaluate limb salvage outcomes after combat-related vascular reconstruction that subsequently required delayed soft tissue coverage during the Global War on Terror. METHODS Patients who incurred a war-related extremity injury necessitating an immediate vascular intervention followed by definitive limb reconstruction requiring flap coverage from combat injuries were reviewed. Patient demographics, types of vascular and extremity injuries, and surgical interventions were examined. Outcomes included limb salvage, primary and secondary graft patency, flap outcomes, and complications. Differences between upper extremities (UEs) and lower extremities (LEs) were compared. RESULTS From 2003 to 2012, 27 patients were treated for combat-related extremity injuries with an immediate vascular reconstruction followed by delayed tissue coverage. Fifteen LEs and 12 UEs were treated. The mean age was 24 years. An explosion was the cause in 77% of patients, with a mean Injury Severity Score (ISS) of 19. An autogenous vein bypass was the most common reconstruction performed in 20 patients (74%). Other vascular repairs included a primary repair, a patch angioplasty with bovine pericardium, and a bypass with use of a prosthetic graft. Eight patients (30%) had a concomitant venous injury, and 23 (85%) had a bone fracture. Thirty flaps were performed at a mean of 33 days from the original injury. Pedicle flaps were used in 24 limbs and free tissue flaps in six limbs. Muscle, fasciocutaneous, bone, and composite flaps were used for tissue coverage. At a mean follow-up of 16 months, primary patency rates of all arterial reconstructions were 66% in the UE and 53% in the LE (P = .69). Secondary patency rates were 100% in the UE and 86% in the LE (P = .48). The overall limb salvage rate was 81%. Limb salvage rates were 66% in the LE and 100% in the UE (P = .04). Three amputated lower limbs (60%) had inline flow to the foot. The flap success rate was 96%. Reasons for amputation included arterial thrombosis, flap failure, persistent soft tissue infection, osteomyelitis, and debilitating peripheral nerve injuries with associated chronic pain. CONCLUSIONS Immediate vascular repair followed by delayed tissue coverage can be performed with a high (>80%) limb salvage rate after combat trauma. Limb salvage rates were higher in the UE despite equivocally high arterial patency rates. Wounded warriors can expect limb salvage by use of this international algorithm.

Use of a bioartificial dermal regeneration template for skin restoration in combat casualty injuries

Military personnel who survive combat injuries frequently have large soft tissue wounds complicated by concomitant injuries and contamination. These devastating wounds present a therapeutic challenge to not only restore the protective skin barrier but also to preserve tendon and muscle excursion, provide protective padding around nerves and restore adequate joint motion. Accordingly, regenerative medicine modalities that can accomplish these goals are of great interest. The use of bioartificial dermal regeneration templates (DRT), such as Integra DRT (Integra Lifesciences Corporation, Plainsboro, NJ, USA), in the management of complex soft tissue injuries has an important role in the reconstruction of war wounds. These DRTs provide initial wound coverage and help establish a well-vascularized wound bed suitable for definitive soft tissue coverage.

Intraoperative Fluorescence Angiography: A Review of Applications and Outcomes in War-Related Trauma

AIMS In the recent Iraq and Afghanistan conflicts, survival rates from complex battlefield injuries have continued to improve. The resulting war-related wounds are challenging, with confounding issues making assessment of tissue perfusion subjective and variable. This review discusses the utility of intraoperative fluorescence angiography, and its usefulness as an objective tool to evaluate the perfusion of tissues in the face of complex war-related injuries. METHODS A retrospective review of all war-related traumatic and reconstructive cases employing intraoperative indocyanine green laser angiography (ICGLA) was performed. Data analyzed included indication for use, procedure success/failure rates, modifications performed, and perfusion-related complications. Anatomical regions assessed were extremity, head and neck, truncal, and intra-abdominal viscera. The endpoint of specific interest involved the decision for additional debridement of poorly perfused tissue, as based on the ICGLA findings. RESULTS Over a 3-year period, this study examined 123 extremity soft tissue flaps, 41 extremity injuries including amputation and/or amputation revision cases, 13 craniofacial flaps, and 9 truncal/abdomen/gastrointestinal cases in which ICGLA was utilized to assess tissue perfusion and viability. A total of 35 (18.8%) of cases employing ICGLA required intraoperative modifications to address perfusion-related issues. CONCLUSIONS Intraoperative fluorescent angiography is an objective, useful tool to assess various war-related traumatic injuries. This study expands on prior cited indications for ICGLA to include (1) guiding debridement in heavily contaminated wounds, (2) providing improved assessment of avulsion soft tissue injuries, (3) allowing for rapid detection of vascular and/or microvascular compromise in soft tissue and osseous flap reconstructions, (4) reducing and preventing perfusion-related complications in trauma, amputation closures, and reconstruction procedures, (5) contributing to better outcomes in certain complex orthopedic and composite tissue injuries, and (6) enabling improved postoperative wound and reconstruction assessment in those cases of perfusion-related issues that arise within a delayed setting.

Vascularized Osseous Flaps and Assessing Their Bipartate Perfusion Pattern via Intraoperative Fluorescence Angiography

BACKGROUND Large segmental bone and composite tissue defects often require vascularized osseous flaps for definitive reconstruction. However, failed osseous flaps due to inadequate perfusion can lead to significant morbidity. Utilization of indocyanine green (ICG) fluorescence angiography has been previously shown to reliably assess soft tissue perfusion. Our group will outline the application of this useful intraoperative tool in evaluating the perfusion of vascularized osseous flaps. METHODS A retrospective review was performed to identify those osseous and/or osteocutaneous bone flaps, where ICG angiography was employed. Data analyzed included flap types, success and failure rates, and perfusion-related complications. All osseous flaps were evaluated by ICG angiography to confirm periosteal and endosteal perfusion. RESULTS Overall 16 osseous free flaps utilizing intraoperative ICG angiography to assess vascularized osseous constructs were performed over a 3-year period. The flaps consisted of the following: nine osteocutaneous fibulas, two osseous-only fibulas, two scapular/parascapular with scapula bone, two quadricep-based muscle flaps, containing a vascularized femoral bone component, and one osteocutaneous fibula revision. All flap reconstructions were successful with the only perfusion-related complication being a case of delayed partial skin flap loss. CONCLUSIONS Intraoperative fluorescence angiography is a useful adjunctive tool that can aid in flap design through angiosome mapping and can also assess flap perfusion, vascular pedicle flow, tissue perfusion before flap harvest, and flap perfusion after flap inset. Our group has successfully extended the application of this intraoperative tool to assess vascularized osseous flaps in an effort to reduce adverse outcomes related to preventable perfusion-related complications.

From battleside to stateside: the reconstructive journey of our wounded warriors.

AbstractRecent military operations in Iraq (Operation Iraqi Freedom) and Afghanistan (Operation Enduring Freedom) have led to further refinements of the military medical system’s ability to provide advanced surgical care. The deployment of a global trauma care system has directly contributed to improved combat casualty survival rates. As a consequence of improved survivorship, a high-volume patient population of individuals having challenging multiple extremity injuries/amputations has presented to military treatment facilities. These patients present with unique mixed pattern blast injuries. Blast injuries incorporate multiple mechanisms of injury including penetrating fragmentary injury, blunt force trauma, flash burn, and overpressure wave damage. These complex injuries have furthered refinements in traditional reconstruction and facilitated early application of regenerative medicine therapies. This article summarizes information presented at the inaugural Garry Brody, MD Family Invited Lectureship presented at the 63rd California Society of Plastic Surgeons Annual.

Known preoperative deep venous thrombosis and/or pulmonary embolus: to flap or not to flap the severely injured extremity?

Background: Warfare-related extremity injury associated with pelvic and long-bone fractures, massive soft-tissue injuries, and high Injury Severity Scores predispose patients to venous thromboembolic events, including deep vein thrombosis and/or pulmonary embolism. The success of flap reconstruction in this setting has not been well described. Methods: A retrospective review of war-related extremity injuries requiring flap coverage from 2003 to 2012 was completed, and the incidence of venous thromboembolic events determined. Outcomes compared included flap and limb salvage success rates and complications, such as partial/total flap failure, hematomas, and failed limb salvage. Results: A total of 173 combat extremity injury flap procedures were performed during the period reviewed, with 50 of these flaps (28.9 percent of all cases) identified as having a venous thromboembolic event during the course of care. Preoperative or perioperative events affected 45 flap procedures (26 percent). In the 41 patients with a preoperative event diagnosis, 21 had deep vein thrombosis (51 percent), 17 had a pulmonary embolism (42 percent), and three had both (7 percent). The complication rate in these cases was 29 percent (most commonly flap or donor-site hematoma). While the total complication rate was similar between the event and nonevent groups (29 versus 20 percent; p = 0.141), the hematoma rate was significantly different (20 versus 5 percent; p = 0.009). Conclusions: Venous thromboembolic events were detected in a high number of the authors’ combat-injured patients requiring extremity flap coverage. Despite preoperative events and risks of therapeutic anticoagulation, flap transfers were performed with high success rates and comparable nonhemorrhage complication rates between flap cohorts. CLINICAL QUESTION/LEVEL OF EVIDENCE: Therapeutic, III.

Ballistic trauma: lessons learned from iraq and afghanistan.

Management of upper extremity injuries secondary to ballistic and blast trauma can lead to challenging problems for the reconstructive surgeon. Given the recent conflicts in Iraq and Afghanistan, advancements in combat-casualty care, combined with a high-volume experience in the treatment of ballistic injuries, has led to continued advancements in the treatment of the severely injured upper extremity. There are several lessons learned that are translatable to civilian trauma centers and future conflicts. In this article, the authors provide an overview of the physics of ballistic injuries and principles in the management of such injuries through experience gained from military involvement in Iraq and Afghanistan.