Background: Open surgical closure and small-bore suture-based preclosure devices have limitations when used for transcatheter aortic valve replacement, percutaneous endovascular abdominal aortic aneurysm repair, or percutaneous thoracic endovascular aortic aneurysm repair. The MANTA vascular closure device is a novel collagen-based technology designed to close large bore arteriotomies created by devices with an outer diameter ranging from 12F to 25F. In this study, we determined the safety and effectiveness of the MANTA vascular closure device. Methods and Results: A prospective, single arm, multicenter investigation in patients undergoing transcatheter aortic valve replacement, percutaneous endovascular abdominal aortic aneurysm repair, or thoracic endovascular aortic aneurysm repair at 20 sites in North America. The primary outcome was time to hemostasis. The primary safety outcomes were accessed site-related vascular injury or bleeding complications. A total of 341 patients, 78 roll-in, and 263 in the primary analysis cohort, were entered in the study between November 2016 and September 2017. For the primary analysis cohort, transcatheter aortic valve replacement was performed in 210 (79.8%), and percutaneous endovascular abdominal aortic aneurysm repair or thoracic endovascular aortic aneurysm repair was performed in 53 (20.2%). The 14F MANTA was used in 42 cases (16%), and the 18F was used in 221 cases(84%). The mean effective sheath outer diameter was 22F (7.3 mm). The mean time to hemostasis was 65±157 seconds with a median time to hemostasis of 24 seconds. Technical success was achieved in 257 (97.7%) patients, and a single device was deployed in 262 (99.6%) of cases. Valve Academic Research Consortium-2 major vascular complications occurred in 11 (4.2%) cases: 4 received a covered stent (1.5%), 3 had access site bleeding (1.1%), 2 underwent surgical repair (0.8%), and 2 underwent balloon inflation (0.8%). Conclusions: In a selected population, this study demonstrated that the MANTA percutaneous vascular closure device can safely and effectively close large bore arteriotomies created by current generation transcatheter aortic valve replacement, percutaneous endovascular abdominal aortic aneurysm repair, and thoracic endovascular aortic aneurysm repair devices. Clinical Trial Registration: URL: https://www.clinicaltrials.gov . Unique identifier: NCT02908880.
Purpose: To evaluate the safety and effectiveness of the MANTA percutaneous vascular closure device in patients undergoing percutaneous endovascular aneurysm repair (PEVAR) or thoracic endovascular aortic repair (TEVAR). Materials and Methods: The SAFE MANTA Study ( ClinicalTrials.gov identifier NCT02908880) was a prospective, single-arm, multicenter trial in patients undergoing endovascular interventions using large-bore sheaths (transcatheter aortic valve replacement, PEVAR, or TEVAR) at 20 sites in North America. Patient selection intended to test the MANTA device in populations without morbid obesity, severe calcification, or a severely scarred femoral access area. Of the 263 patients enrolled in the primary analysis cohort, 53 (20.2%) patients (mean age 74.9±8.9 years; 41 men) underwent PEVAR (n=51) or TEVAR (n=2) procedures and form the cohort for this subgroup analysis. Per protocol a single MANTA device was deployed in all PEVAR/TEVAR cases. Results: The mean time to hemostasis in the PEVAR/TEVAR cohort was 35±91 seconds, with a median time of 19 seconds vs 24 seconds in the overall SAFE MANTA population. The MANTA device met the definition for technical success in 52 (98%) of 53 PEVAR/TEVAR cases compared with 97.7% in the overall SAFE MANTA population. One (1.9%) major complication (access-site stenosis) occurred in this subgroup compared to 14 (5.3%) events in the SAFE population. In the PEVAR/TEVAR group, 1 pseudoaneurysm was noted prior to discharge, another at 30-day follow-up, and one at 60 days. One (1.9%) of the 3 minor pseudoaneurysms was treated with ultrasound-guided compression and the other 2 required no treatment. Conclusion: The MANTA device demonstrated a short time to hemostasis and low complication rates compared with published literature results of other percutaneous closure devices. Time to hemostasis and complication rates were comparable between the PEVAR/TEVAR patients and the full SAFE MANTA study cohort. The MANTA device provides reliable closure with a single percutaneous device for PEVAR/TEVAR procedures.
Data Structures is an integral topic for any Computer Science or Software Engineering degree, identified as a Core Tier-1 topic of the ACM/IEEE Computer Science Curricula. The underlying concepts are inherently abstract, making them especially difficult to understand for novice programmers. This paper proposes a cognitively challenging technique to help students understand the thought process that the learning outcomes of fundamental data structure units aim to achieve. The development of this thought process is using a technique we term Visual Kinesthetic Pseudocode, with the overarching goal of helping students code without coding, yet providing the necessary scaffold to guide them in implementing the data structures with real code. This was implemented in the form of InteractiveDS, an app for students and teachers to guide the learning of fundamental data structure concepts. The evaluations demonstrate that students strongly credited InteractiveDS in aiding their understanding of concepts and confidence in applying data structure concepts in practice. The study is also a step forward in revealing potential threshold concepts pertaining to data structure modules.
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