13 research outputs found
Complex Perioperative Decision-Making: Liver Resection in a Patient with Extensive Superior Vena Cava/Right Atrial Thrombus and Superior Vena Cava Syndrome
The perioperative management of patients suffering from extensive superior vena cava (SVC) thrombus complicated by SVC syndrome presents unique challenges. The anesthesiologist needs to be prepared for possible thrombus dislodgement resulting in pulmonary embolism and also has to assess the need for fluid resuscitation given the dangers of massive intravenous fluid application via the upper extremities. We present our perioperative approach in management of a patient scheduled for right hepatectomy who was previously diagnosed with extensive SVC and right atrial (RA) thrombus complicated by SVC syndrome
Severe Hyponatremia as the Initial Sign Preceding Guillain-Barré Syndrome, an Acute Inflammatory Demyelinating Polyneuropathy: A Case Report
Guillain-Barré syndrome is an immune-mediated polyneuropathy that frequently presents with progressive muscle weakness. Hyponatremia has recently been described as a feature of this condition, generally appearing over the course of the illness and following the diagnosis of this demyelinating process. We report a case of Guillain-Barré syndrome presenting with severe hyponatremia that is further exacerbated by intravenous immune globulin therapy. Awareness should be raised for consideration of both Guillain-Barré syndrome and its treatment with intravenous immune globulin therapy as the cause of hyponatremia
Embryonic Development of the Bicuspid Aortic Valve
Bicuspid aortic valve (BAV) is the most common congenital valvular heart defect with an overall frequency of 0.5%â1.2%. BAVs result from abnormal aortic cusp formation during valvulogenesis, whereby adjacent cusps fuse into a single large cusp resulting in two, instead of the normal three, aortic cusps. Individuals with BAV are at increased risk for ascending aortic disease, aortic stenosis and coarctation of the aorta. The frequent occurrence of BAV and its anatomically discrete but frequent co-existing diseases leads us to suspect a common cellular origin. Although autosomal-dominant transmission of BAV has been observed in a few pedigrees, notably involving the gene NOTCH1, no single-gene model clearly explains BAV inheritance, implying a complex genetic model involving interacting genes. Several sequencing studies in patients with BAV have identified rare and uncommon mutations in genes of cardiac embryogenesis. But the extensive cell-cell signaling and multiple cellular origins involved in cardiac embryogenesis preclude simplistic explanations of this disease. In this review, we examine the series of events from cellular and transcriptional embryogenesis of the heart, to development of the aortic valve
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Embryonic Development of the Bicuspid Aortic Valve
Bicuspid aortic valve (BAV) is the most common congenital valvular heart defect with an overall frequency of 0.5%â1.2%. BAVs result from abnormal aortic cusp formation during valvulogenesis, whereby adjacent cusps fuse into a single large cusp resulting in two, instead of the normal three, aortic cusps. Individuals with BAV are at increased risk for ascending aortic disease, aortic stenosis and coarctation of the aorta. The frequent occurrence of BAV and its anatomically discrete but frequent co-existing diseases leads us to suspect a common cellular origin. Although autosomal-dominant transmission of BAV has been observed in a few pedigrees, notably involving the gene NOTCH1, no single-gene model clearly explains BAV inheritance, implying a complex genetic model involving interacting genes. Several sequencing studies in patients with BAV have identified rare and uncommon mutations in genes of cardiac embryogenesis. But the extensive cell-cell signaling and multiple cellular origins involved in cardiac embryogenesis preclude simplistic explanations of this disease. In this review, we examine the series of events from cellular and transcriptional embryogenesis of the heart, to development of the aortic valve
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Unprecedented Drought Challenges for Texas Water Resources in a Changing Climate: What Do Researchers and Stakeholders Need to Know?
Longârange water planning is complicated by factors that are rapidly changing in the 21st century, including climate, population, and water use. Here, we analyze climate factors and drought projections for Texas as an example of a diverse society straddling an aridity gradient to examine how the projections can best serve water stakeholder needs. We find that climate models are robust in projecting drying of summerâseason soil moisture and decreasing reservoir supplies for both the eastern and western portions of Texas during the 21st century. Further, projections indicate drier conditions during the latter half of the 21st century than even the most arid centuries of the last 1,000 years that included megadroughts. To illustrate how accounting for drought nonstationarity may increase water resiliency, we consider generalized case studies involving four key stakeholder groups: agricultural producers, large surface water suppliers, small groundwater management districts, and regional water planning districts. We also examine an example of customized climate information being used as input to longârange water planning. We find that while stakeholders value the quantitative capability of climate model outputs, more specific climateârelated information better supports resilience planning across multiple stakeholder groups. New suites of tools could provide necessary capacity for both shortâ and longâterm, stakeholderâspecific adaptive planning.NielsenâGammon, Banner, Wong, and Tremaine were supported in part by the National Science Foundation Coupled Natural and Human Systems program, Grant AGSâ1518541, the Cynthia and George Mitchell Foundation Grant Gâ1809â55892, and by The University of Texas at Austin's Planet Texas 2050 Bridging Barriers research initiative. We thank Katharine Hayhoe, Ron Anderson, and Tim Finley for their insights and contributions to the manuscript. We thank the participants of the CNH project and the Texas Water Research Network for helping to define the problem and identify issues.Office of the VP for Researc
Safety and Efficacy of Right Axillary Thoracotomy for Repair of Congenital Heart Defects in Children
BACKGROUND: Minimally invasive repair of congenital heart defects in children has not gained wide popularity yet compared to minimally invasive approaches in adults. We sought to review our experience with this approach in children. METHODS: This study included a total of 37 children (24 girls, 64.9%) with a mean age of 6.5â±â5.1 years, who underwent vertical axillary right minithoracotomy for repair of a variety of congenital heart defects between May 2020 and June 2022. RESULTS: The mean weight of these children was 25.66â±â18.3â
kg. Trisomy 21 syndrome was present in 3 patients (8.1%). The most common congenital heart defects that were repaired via this approach were atrial septal defects (secundum in 11 patients, 29.7%; primum in 5, 13.5%; and unroofed coronary sinus in 1, 2.7%). Twelve patients (32.4%) underwent repair of partial anomalous pulmonary venous connections with or without sinus venosus defects, while 4 patients (10.8%) underwent closure of membranous ventricular septal defects. Mitral valve repair, resection of cor triatriatum dexter, epicardial pacemaker placement, and myxoma resection occurred in 1 patient (2.7%) each. No early mortality or reoperations. All patients were extubated in the operating room, and the mean length of hospital stay was 3.3â±â2.04 days. Follow-up was complete (mean 7â±â5 months). No late mortality or reoperations. One patient required epicardial pacemaker placement due to sinus node dysfunction 5 months after surgery. CONCLUSIONS: Vertical axillary right thoracotomy is a cosmetically superior approach that is safe and effective for repair of a variety of congenital heart defects in children