With the advent of the Industrial Revolution, traumatic injuries of the upper extremity increased exponentially. As a result, surgeons began to reevaluate amputation as the standard of care. Following the Second World War, local and regional pedicled flaps became common forms of traumatic upper extremity reconstruction. Today, microsurgery offers an alternative when options lower on the reconstructive ladder have been exhausted or will not produce a desirable result. In this article, the authors review the use of free tissue transfer for upper extremity reconstruction. Flaps are categorized as fasciocutaneous, muscle, and functional tissue transfers. The thin pliable nature of fasciocutaneous flaps makes them ideal for aesthetically sensitive areas, such as the hand. The radial forearm, lateral arm, scapula, parascapular, anterolateral thigh, and temporoparietal fascia flaps are highlighted in this article. Muscle flaps are utilized for their bulk and size; the latissimus dorsi flap serves as a “workhorse” free muscle flap for upper extremity reconstruction. Other muscle flaps include the rectus abdominis and serratus anterior. Lastly, functional tissue transfers are used to restore active range of motion or bony integrity to the upper extremity. The innervated gracilis can be utilized in the forearm to restore finger flexion or extension. Transfer of vascularized bone such as the fibula may be used to correct large defects of the radius or ulna. Finally, replacement of “like with like” is embodied in toe-to-thumb transfers for reconstruction of digital amputations.
The provision of health care in the perioperative setting has undergone significant changes due to severe respiratory distress syndrome coronavirus‐2 (SARS‐CoV‐2). Hospital facilities have been tasked with developing and implementing personal protective equipment (PPE) protocols to protect both medical providers and patients. Texas Children's Hospital has created a set of protocols for donning and doffing PPE while managing surgical pediatric patients. These requirements have undergone numerous modifications as a result of our internal infrastructural recommendations and the Centers for Disease Control and Prevention guidance, which has led to more lenient regulations. While these perioperative PPE protocols were less stringent compared to the original guidelines, we were able to create a safe surgical environment without further exposing patients and health care providers to SARS‐CoV‐2. In this article, we detail the design, distribution, implementation, and modification of our institutional surgical PPE protocols.
Mandibular and maxillary deformities commonly require surgical intervention. Prior to distraction osteogenesis, traditional modalities involving single-staged translocation and rigid fixation were used to correct these craniofacial anomalies. Distraction osteogenesis has evolved as a compelling alternative for treating aesthetic and functional dentofacial defects. The process of distraction osteogenesis involves three phases—latency, activation, and consolidation—which allow for appropriate translation of the affected craniofacial skeleton. This review will cover the role of distraction for managing congenital and acquired deformities of the mandible and maxilla. This novel technique can be performed at numerous anatomical sites along the craniofacial skeleton to treat a variety of anomalies, which serves as a testament to its adaptability and efficacy. Importantly, distraction osteogenesis also has the ability to simultaneously increase bone length and the overlying soft tissue envelope. This advantage results in larger advancements with reduced relapse rates and improved patient satisfaction. While complications remain a concern, it stands to reason that the measurable benefits observed underscore the power and versatility of distraction osteogenesis.
Breast tissue expanders (TEs) with magnetic infusion ports are labeled “MR Unsafe.” Therefore, patients with these implants are typically prevented from undergoing magnetic resonance imaging (MRI). We report a patient with a total submuscular breast TE who inadvertently underwent an MRI exam. She subsequently developed expander exposure, requiring explantation and autologous reconstruction. The safety profile of TEs with magnetic ports and the use of MRI in patients with these implants is surprisingly controversial. Therefore, we present our case report, a systematic literature review, and propose procedural guidelines to help ensure the safety of patients with TEs with magnetic ports that need to undergo MRI exams.
Free tissue transfer serves as a modern workhorse for breast reconstruction. Advancements in microsurgical technique have allowed for the development of free flap procedures that produce an aesthetic breast while minimizing donor site morbidity. Here, the authors review the use of different free flap procedures for breast reconstruction with a focus on the preferred and most commonly used flap, the deep inferior epigastric perforator flap. Each flap has its advantages and drawbacks, and certain patient risk factors increase postoperative complications. Other techniques of breast reconstruction including pedicled flaps and adjunctive fat grafting are also briefly discussed.
Background: Coronavirus disease 2019 (COVID-19) has greatly impacted pediatric healthcare facilities throughout the United States due to widespread case rescheduling and the implementation of supplementary COVID-19 perioperative protocols. To our knowledge, no studies have investigated the impact of COVID-19 on case volume, surgical timing, or operational aspects of cleft surgical procedures. The aim of this study is to investigate the impact that COVID-19 has had on cleft surgical care at our institution. Methods: A retrospective study comparing cleft surgical care in 2019 (the pre-pandemic cohort) and 2020 (the COVID-19 cohort) was designed. All patients who underwent a cleft surgical procedure from April 1st to August 31st in 2019 and 2020 were included for analysis. Procedures were stratified into 4 groups: primary cleft lip repairs, primary cleft palate repairs, alveolar bone grafting procedures, and revisional/secondary repair procedures. Variables investigated in this study included: surgical volume, number of patients receiving timely surgery, causes for untimely surgery, number of combined cases, number of delayed cases, delay time, time under anesthesia, and procedure length. Results: A total of 191 cleft surgeries, 102 in 2019 and 89 in 2020, were identified during the study period. We observed no statistically significant differences in cleft surgical volume and other investigated variables across all surgical subgroups from 2019 to 2020. Conclusion: Cleft surgical care was largely unaffected by COVID-19 despite high rates of case rescheduling and the addition of supplementary perioperative safety protocols. More studies are needed to assess the impact of COVID-19 on cleft surgical care at other cleft centers and to investigate the long-term outcomes of these patients.
Craniofacial surgery in children is a highly challenging discipline that requires extensive knowledge of craniofacial anatomy and pathology. Insults to the fronto-orbital skeleton have the potential to inflict significant morbidity and even mortality in patients due to its proximity to the central nervous system. In addition, significant aesthetic and ophthalmologic disturbances frequently accompany these insults. Craniosynostosis, facial trauma, and craniofacial tumors are all pathologies that frequently affect the fronto-orbital region of the craniofacial skeleton in children. While the mechanisms of these pathologies vary greatly, the underlying principles of reconstruction remain the same. Despite the limited data in certain areas of fronto-orbital reconstruction in children, significant innovations have greatly improved its safety and efficacy. It is imperative that further investigations of fronto-orbital reconstruction are undertaken so that craniofacial surgeons may provide optimal care for these patients.
Total and subtotal sternectomy oncological defects can result in large deficits in the chest wall, disrupting the biomechanics of respiration. Reviewing the current literature involving respiratory function and rib motion after sternectomy, autologous rigid reconstruction was determined to provide the optimal reconstructive option. We describe a novel technique for sternal defect reconstruction utilizing a double-barrel, longitudinally oriented, vascularized free fibula flap associated with rib titanium plates fixation. Our reconstructive approach was able to deliver a physiological reconstruction, providing rigid support and protection while allowing articulation with adjacent ribs and preservation of chest wall mechanics.
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