Post-transcatheter aortic valve replacement (TAVR), paravalvular leak (PVL) is a quality metric associated with worse clinical outcomes. Transcatheter heart valve (THV) sizing is based primarily on the systolic annular size without regard to the left ventricular outflow tract (LVOT), which also lies within the THV landing zone. We hypothesized that LVOT size relative to the annulus is associated with post-TAVR PVL.
Naloxegol antagonizes peripheral opioid-related side effects without preventing opioid-related analgesia. However, the effect of naloxegol on opioid-induced bladder dysfunction remains unknown.patients given naloxegol have lower residual bladder urine volume than those given placebo.136 patients scheduled for elective hip and knee surgery were randomized to oral naloxegol or placebo given the morning of surgery, and on the first two postoperative mornings. Residual urine volume was measured ultrasonographically within 30 min after voiding once in the morning and once in the afternoon for two postoperative days. Opioid-related Symptom Distress Scale (ORSDS), the need for indwelling urinary catheterization, and quality of recovery (QoR) score were secondary outcomes.67 were randomized to naloxegol and 64 to placebo. We did not identify a significant effect on urine residual volume, with an estimated ratio of geometric means of 0.9 (0.3, 2.6), p = 0.84. There were no significant differences in ORSDS or QoR. There were 19 (29%) patients assigned to naloxegol who needed indwelling urination catheterization versus 7 (11%) patients in the placebo group, p = 0.012.Our results do not support use of naloxegol for postoperative urinary retention after hip and knee surgery.
Mechanical circulatory support is often challenging in patients with cardiogenic shock secondary to valvular heart disease because of challenging device placement, decreased efficacy, the need for a concomitant device for left ventricular unloading, or contraindications. Left atrial venoarterial-extracorporeal membranous oxygenation (LAVA-ECMO) is an emerging technique to achieve simultaneous ventricular unloading and circulatory support unaffected by valvular disease. The use of LAVA-ECMO for high-risk transcatheter valvular replacement has not been described.
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