Indication for ECMO predicts time to first actionable bleeding complication.

Purpose: Bleeding is a major complication of patients requiring extracorporeal membrane oxygenation (ECMO). Several risk factors have been identified; however, there remains a paucity of evidence for optimal management of anticoagulation and bleeding in ECMO patients. Methods: A total of 255 patients required ECMO from January 1996 to December 2021 at a single institution. The Bleeding Academic Research Consortium (BARC) Score was used for defining actionable bleeding. Univariate and multivariate testing were used for outcome analysis. Kaplan-Meier survival curves were plotted for time-to-event analysis. Results: Of the 255 patients, 147 patients had no actionable bleeding complications, while 108 had at least one actionable bleeding complication. Duration of support (p<0.001) and total number of transfusions (p<0.001) differed between the two groups significantly, with no significant difference in survival to discharge (p=0.894). On multivariate regression, significant predictors for actionable bleeding complications included diabetes (OR 2.01, p=0.03), precannulation hematocrit (OR 0.97, p<0.001), length of support (OR 1.00, p<0.001), use of warfarin (OR 2.28, p=0.03), and post-cardiotomy indication for ECMO (OR 0.77, p=0.02). The median time to first actionable bleeding complication after cannulation was 141.2 h. When stratified by indication for ECMO or type of ECMO circuit, there was a significant difference in time to first actionable bleeding complication (p=0.001, p=0.018). Conclusions: Indication for ECMO and type of ECMO circuit both are predictive of timing to first actionable bleeding complication in our study. Further data are needed to reliably establish individualized anticoagulation strategies and bleeding management based on indication and circuit setup. Supplementary Information: The online version contains supplementary material available at 10.1007/s12055-023-01601-9.

Bio-Bentall and hybrid arch frozen elephant trunk repair for acute type A aortic dissection with malperfusion.

The extent of repair in patients with acute type A aortic dissection is often determined by factors such as entry tear location, aortic anatomy, malperfusion and team expertise. The hybrid arch frozen elephant trunk, which has become an established technique to extend the distal acute type A aortic dissection repair, is particularly useful in malperfusion; however, it remains technically challenging and is associated with increased duration of circulatory arrest and risks of spinal cord ischaemia. Proximal dissection flap extension often determines repairability versus replacement of the aortic root. We present a case report highlighting the proximal and distal extent of repair in a patient with a known ascending aortic aneurysm presenting with an acute type A aortic dissection, with malperfusion, undergoing a successful bio-Bentall procedure and hybrid arch frozen elephant trunk repair.

Automatic Plane of Minimal Hiatal Dimensions Extraction From 3D Female Pelvic Floor Ultrasound.

There is an increasing interest in the applications of 3D ultrasound imaging of the pelvic floor to improve the diagnosis, treatment, and surgical planning of female pelvic floor dysfunction (PFD). Pelvic floor biometrics are obtained on an oblique image plane known as the plane of minimal hiatal dimensions (PMHD). Identifying this plane requires the detection of two anatomical landmarks, the pubic symphysis and anorectal angle. The manual detection of the anatomical landmarks and the PMHD in 3D pelvic ultrasound requires expert knowledge of the pelvic floor anatomy, and is challenging, time-consuming, and subject to human error. These challenges have hindered the adoption of such quantitative analysis in the clinic. This work presents an automatic approach to identify the anatomical landmarks and extract the PMHD from 3D pelvic ultrasound volumes. To demonstrate clinical utility and a complete automated clinical task, an automatic segmentation of the levator-ani muscle on the extracted PMHD images was also performed. Experiments using 73 test images of patients during a pelvic muscle resting state showed that this algorithm has the capability to accurately identify the PMHD with an average Dice of 0.89 and an average mean boundary distance of 2.25mm. Further evaluation of the PMHD detection algorithm using 35 images of patients performing pelvic muscle contraction resulted in an average Dice of 0.88 and an average mean boundary distance of 2.75mm. This work had the potential to pave the way towards the adoption of ultrasound in the clinic and development of personalized treatment for PFD.

3D localization of vena contracta using Doppler ICE imaging in tricuspid valve interventions.

PURPOSE: Tricuspid valve (TV) interventions face the challenge of imaging the anatomy and tools because of the 'TEE-unfriendly' nature of the TV. In edge-to-edge TV repair, a core step is to position the clip perpendicular to the coaptation gap. In this study, we provide a semi-automated method to localize the VC from Doppler intracardiac echo (ICE) imaging in a tracked 3D space, thus providing a pre-mapped location of the coaptation gap to assist device positioning. METHODS: A magnetically tracked ICE probe with Doppler imaging capabilities is employed in this study for imaging three patient-specific TVs placed in a pulsatile heart phantom. For each of the valves, the ICE probe is positioned to image the maximum regurgitant flow for five cardiac cycles. An algorithm then extracts the regurgitation imaging and computes the exact location of the vena contracta on the image. RESULTS: Across the three pathological, patient-specific valves, the average distance error between the detected VC and the ground truth model is [Formula: see text]mm. For each of the valves, one case represented the outlier where the algorithm misidentified the vena contracta to be near the annulus. In such cases, it is recommended to retake the five-second imaging data. CONCLUSION: This study presented a method for ultrasound-based localization of vena contracta in 3D space. Mapping such anatomical landmarks has the potential to assist with device positioning and to simplify tricuspid valve interventions by providing more contextual information to the interventionalists, thus enhancing their spatial awareness. Additionally, ICE can be used to provide live US and Doppler imaging of the complex TV anatomy throughout the procedure.