ABSTRACT
PURPOSE: Since the beginning of the coronavirus disease 2019 pandemic in early March, there has been a push to expand virtual patient care visits instead of in-person clinic visits. Studies have found that telemedicine can provide efficient triaging, reduction in emergency room visits, and conservation of health care resources and personnel. Although virtual patient care has been implicated in providing similar outcomes to traditional face-to-face care in patients affected with coronavirus disease 2019, there are a lack of studies on the effectiveness of virtual care visits (VCVs) for patients with craniosynostosis or deformational plagiocephaly. This study aims to develop an understanding of whether physicians can accurately diagnose pediatric patients with craniosynostosis or deformational plagiocephaly via VCVs, and whether they can determine if affected patients will benefit from helmet correction or if surgical treatment is required. METHODS: An Institutional Review Board-approved retrospective chart analysis over a 4-month period (March 1, 2020 to June 30, 2020) was performed analyzing all pediatric patients (<18âyears old) who underwent virtual care calls for diagnosis and treatment of abnormal head shape. Patients were referred to UT Physicians Pediatric Surgery clinic for evaluation by a member of the Texas Cleft-Craniofacial Team (2 surgeons or 1 physician's assistant). Variables such as patient demographics, diagnosis, and need for confirmation were pulled and recorded from Allscripts Electronic Medical Records software. RESULTS: Thirty-five patients were identified who fit our search criteria. Out of these patients, eleven (31.43%) cases were diagnosed with craniosynostosis, twenty-two (62.86%) cases were diagnosed with deformational plagiocephaly, and 2 (5.71%) cases were diagnosed as being normocephalic. Median age at virtual care evaluation was 14.10âmonths (Interquartile Range [IQR] 5.729, 27.542) for patients diagnosed with craniosynostosis and 6.51âmonths (IQR 4.669, 7.068) for patients diagnosed with deformational plagiocephaly. All eleven (100%) patients diagnosed with craniosynostosis were referred for a confirmatory computed tomography scan before undergoing surgical intervention and saw an alleviation in head shape postoperatively. Eighteen (81.82%) of patients diagnosed with deformational plagiocephaly were recommended to undergo conservative treatment and the remaining 4 (18.18%) were recommended for helmet therapy. Two cases were unable to be diagnosed virtually. These patients needed a follow-up visit in person to establish a diagnosis and plan of treatment. CONCLUSIONS: Virtual care visits are increasing in frequency and this includes consultations for abnormal head shapes. Our experience demonstrates that the majority of patients can be evaluated safely in this modality, with only 5.71% requiring additional imaging or in-person visits to confirm the diagnosis. Our study underscores the feasibility of virtually diagnosing and recommending a plan for treatment in pediatric patients with abnormal head shapes. This information can be implemented to further our knowledge on the accuracy of diagnosis and treatment options for patients with craniosynostosis and deformational plagiocephaly. Further analyses are needed to quantify the financial and patient-reported outcomes of VCVs for these patients.
Subject(s)
COVID-19 , Craniosynostoses , Plagiocephaly, Nonsynostotic , Telemedicine , Adolescent , Child , Humans , Infant , Retrospective Studies , SARS-CoV-2ABSTRACT
OBJECTIVE: Velopharyngeal insufficiency (VPI) remains a known complication of primary palatoplasty. We sought to identify factors associated with the incidence of VPI and create a predictive model for VPI development in our population. DESIGN: A single-institution, retrospective review. SETTING: Multidisciplinary clinic in a tertiary academic institution. PATIENTS: A total of 453 consecutive patients undergoing primary palatoplasty from 1999 to 2016 were reviewed. Inclusion required follow-up past age 5. Patients who were non-verbal, and thus unable to undergo speech evaluation, were excluded. MAIN OUTCOME MEASURES: Primary outcome was VPI, defined as revision palatoplasty or recommendation by speech-language pathology. RESULTS: Of 318 patients included, 179 (56%) were male. Median age at primary repair was 1.0 years (0.9-1.1) with a median age of 8.8 years at last follow-up. One hundred nineteen (37%) patients developed VPI at a median age of 5.0 years (3.8-6.5). Higher rates were seen with posterior fistula (65% vs 14%, P <.01) and straight-line repair (41% vs 9%, P <.01), with lower rates in patients with Veau I clefts (22% vs 39%, P <.05). Patients with VPI were older at last follow-up. Following multivariate regression, factors remaining significant were posterior fistula (odds ratio [OR]: 11.3, 95% CI: 6.1-22.0), primary Furlow repair (OR: 0.18, 95% CI: 0.03-0.68), genetic diagnoses (OR: 2.92, 95% CI: 1.1-7.9), and age at last follow-up (OR: 1.11, 95% CI: 1.01-1.2). CONCLUSIONS: Length of follow-up, posterior fistulae, and genetic diagnoses are associated with VPI formation. Furlow repair may protect against formation of VPI. Use of allograft, Veau class, birth type, birth weight, and race are not independently associated with VPI formation.
Subject(s)
Cleft Palate , Fistula , Velopharyngeal Insufficiency , Child , Child, Preschool , Cleft Palate/complications , Female , Fistula/etiology , Humans , Male , Retrospective Studies , Treatment Outcome , Velopharyngeal Insufficiency/etiology , Velopharyngeal Insufficiency/surgeryABSTRACT
Background: Lower extremity (LE) trauma within the pediatric population may be debilitating and have different implications and etiologies than in adults. Specifically, lawnmower injuries can cause catastrophic sequelae to the lower extremities, often requiring complex reconstruction or resulting in amputation. This study aims to present our experience with pediatric LE lawnmower injuries at one of the busiest level 1 trauma centers in the United States. Methods: An IRB-approved retrospective analysis was performed studying pediatric patients (age <18 years) who experienced LE trauma due to a lawnmower injury over a 5-year period (2012-2017). Patient demographics, perioperative data, and types of reconstruction were reviewed. Univariate analysis of the data was performed to examine trends in exposure and management of pediatric LE lawnmower injuries. Results: Twenty-three patients were identified with pediatric LE lawnmower injuries, of whom 82.6% were male. The patients had a median age of 6 years and a median Injury Severity Score (ISS) of 4. Over one-third (34.8%) of this cohort required immediate amputation. Additionally, 26.1% and 8.7% required local and free flap reconstruction, respectively. In comparison, only 3.6% and 2.3% of all traumatic pediatric LE injuries from the same time frame required local and free flaps, respectively. Conclusions: Lawnmower injuries to the LE can be devastating, causing long-term physical, emotional, and psychosocial consequences for pediatric patients and their families. The data in this study suggest that pediatric LE injuries from lawnmowers more often require complex reconstruction than other traumatic LE injuries. Rapid and effective decision-making by experienced surgeons is necessary to optimize the potential for limb salvage in pediatric LE lawnmower injuries. An algorithm of recommendations on when to transfer these types of injuries to more experienced tertiary centers is provided. Additional resources should be dedicated toward improving public awareness and industrial safety features to help prevent lawnmower injuries in pediatric patients.
ABSTRACT
Breast cancer-related lymphedema is characterized by progressive limb enlargement and occurs in up to 30% of breast cancer patients following axillary lymph node dissection (ALND). Immediate lymphatic reconstruction (ILR) is a preventative technique used to reduce lymphedema rates by performing lymphovenous anastomoses of disrupted afferent lymphatics. This study presents a novel method of axillary reconstruction following ALND using a buried dermal flap that provides local tissue with intact subdermal lymphatics to the axillary dead space. A single-center retrospective review was performed to assess breast cancer patients who underwent modified radical mastectomy without reconstruction between 2018 and 2023. Groups were divided into those who had ILR alone (group 1) and those who had buried dermal flap with attempted ILR (group 2). There were 31 patients included in this study: 18 patients in group 1 and 13 patients in group 2. Patient demographics, comorbidities, and breast cancer history were similar between the groups. There was no significant difference in the mean number of lymphovenous anastomoses performed (1.6 versus 1.7, Pâ =â 0.84). Mean operative time of 224.4â ±â 51.9 minutes in group 1 was similar to 223.4â ±â 30.4 minutes in group 2 (Pâ =â 0.95). We introduce a novel method of axillary reconstruction following ALND using a buried dermal flap that is inset into the axillary dissection space and over the area of ILR. We propose that it is an efficient accessory procedure to augment ILR by providing supplementary intact lymphatic channels to the area of lymphatic injury, while obliterating the axillary dead space.
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Background: Primary explosion injuries with fireworks can lead to devastating and geometrically complex facial traumas that present a challenge to the reconstructive surgeon. Our patient, a woman in her early thirties, was hit directly in her chin by a large artillery shell firework. This caused complete soft tissue loss of the lower lip and chin beyond the oral commissures, complicated further by a comminuted mandible fracture. Methods: After external fixation, our patient underwent a 2-stage reconstruction with a novel composite flap arrangement. Soft tissue coverage and lip reconstruction were performed with opposing bilateral radial forearm free flaps. The outer flap constituted the soft tissue of the new chin and outer lower lip, whereas the inner flap composed the intraoral lining. In the second stage, portions of the inner upper lip mucosa and superior orbicularis oris muscle were flipped down as a bipedicle, axial pattern "bucket-handle" type flap to the lower lip to reconstruct the vermilion. A graft of fascia lata was attached to the modioli of the orbicularis oris and interpositioned beneath the vermilion flap and the radial forearms to restore static and some dynamic sphincter control. One month later, the mandibular fractures underwent open reduction and internal fixation. Results: Two months after soft tissue reconstruction with no complications, our patient had satisfactory aesthetic outcomes, oral competence, and speech. Conclusions: This case has shown that use of bilateral, fascia lata-reinforced radial forearm flaps may be an effective choice for soft tissue reconstruction and oral competence restoration in cases of severe facial explosion trauma.
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Background: Electrical injuries from high-voltage power lines are unique forms of trauma that can create challenging wounds for reconstructive surgeons. Our patients, a man in his late thirties (Patient 1) and a man in his early twenties (Patient 2), both sustained upper extremity injuries after contact with a high-voltage line. Methods: Despite minimal superficial damage, both patients required fasciotomies and debridement of the volar forearm, revealing segmental defects in most digital tendons as well as the distal median nerve. Free fasciocutaneous anterolateral thigh (ALT) flaps were harvested to ensure adequate wound coverage. Additionally, fascia lata grafts were taken from the free flap donor site and rolled into tubes to transfer available flexor digitorum superficialis proximal tendon stumps to the distal stumps of flexor digitorum profundus. The rolls were also used to bridge segmental tendon defects in flexor pollicis longus, while cadaveric nerve allografts were used to bridge the median nerve defects. Results: Nine months postoperatively, Patient 1 had premorbid function with activities of daily living (ADLs), and Patient 2 required only minimal assistance with instrumental ADLs. Within a year following reconstruction, Patient 1 mostly regained range of motion in his digits with some rigidity, and Patient 2 regained full range of motion in his digits with minimal rigidity. Conclusions: These cases have demonstrated that the use of an ALT free flap combined with rolled fascia lata graft tubes may be an effective choice for reconstruction and functional restoration in cases of severe high-voltage electrical trauma.
ABSTRACT
BACKGROUND: Predicting the need for post-traumatic reconstruction of lower extremity injuries remains a challenge. Due to the larger volume of cases in adults than in children, the majority of the medical literature has focused on adult lower extremity reconstruction. This study evaluates predictive risk factors associated with the need for free flap reconstruction in pediatric patients following lower extremity trauma. METHODS: An IRB-approved retrospective chart analysis over a 5-year period (January 1, 2012 to December 31, 2017) was performed, including all pediatric patients (<18 years old) diagnosed with one or more lower extremity wounds. Patient demographics, trauma information, and operative information were reviewed. The statistical analysis consisted of univariate and multivariate regression models to identify predictor variables associated with free flap reconstruction. RESULTS: In total, 1,821 patients were identified who fit our search criteria, of whom 41 patients (2.25%) required free flap reconstruction, 65 patients (3.57%) required local flap reconstruction, and 19 patients (1.04%) required skin graft reconstruction. We determined that older age (odds ratio [OR], 1.134; P =0.002), all-terrain vehicle accidents (OR, 6.698; P<0.001), and trauma team activation (OR, 2.443; P=0.034) were associated with the need for free flap reconstruction following lower extremity trauma in our pediatric population. CONCLUSIONS: Our study demonstrates a higher likelihood of free flap reconstruction in older pediatric patients, those involved in all-terrain vehicle accidents, and cases involving activation of the trauma team. This information can be implemented to help develop an early risk calculator that defines the need for complex lower extremity reconstruction in the pediatric population.