Salvage of an Incomplete Sandwich With a Covered Celiac Trunk and a "Floating" Superior Mesenteric Artery Stent in a Thoracoabdominal Aortic Aneurysm.

PURPOSE: To report a case of a patient with a large thoracoabdominal aortic aneurysm (TAAA) extent V treated with a custom-made fenestrated and branched endovascular repair (F/B-EVAR) after a failed and incomplete attempt of a Sandwich repair technique. REPORT: An 83-year-old patient was referred to our department after a failed attempt at endovascular repair of type V TAAA with a sandwich technique. The celiac trunk was inadvertently covered with the first endograft and a covered long superior mesenteric artery stent was placed and left facing upward inside the aorta. We performed a staged repair, by first catheterizing and stenting the celiac trunk and bringing it under and inside the main aortic endograft. In interval, a F/B-EVAR was performed using a bimodular custom-made device (CMD) with a proximal 2 branch module for the celiac trunk and superior mesenteric artery and distal module with fenestrations for both renal arteries. The intervention was successful, and the follow-up was uneventful at 6 months. CONCLUSIONS: Re-intervention after failed endovascular attempts of TAAA repair are technically challenging and require advanced endovascular techniques. The ability to construct CMDs allowed to extend repair to our patient which had severe anatomical constraints for other techniques.

First Experience with the Munich Valsalva Implantation Technique (MuVIT) for Cardiac Output Reduction During Standard and Complex Thoracic Endovascular Aortic Repair.

OBJECTIVE: The Munich Valsalva Implantation Technique (MuVIT) is a non-invasive alternative which uses a modified Valsalva manoeuvre to reduce cardiac output (CO). The aim of this study was to evaluate the technical success and safety of MuVIT in standard and complex endovascular thoracic aneurysm repair (TEVAR). METHODS: This was a retrospective single centre cohort study. Patients were included who underwent CO reduction with MuVIT between March 2020 and February 2021 for standard and fenestrated/branched TEVAR (fbTEVAR). The target systolic blood pressure (SBP) reduction was used as an indicator of CO reduction. The aim of the SBP reduction was 50% in patients undergoing proximal sealing in Ishimaru zones 0-1 (Group 1), and 30% in patients with sealing in Ishimaru zones 2-3 (Group 2). Efficacy outcomes included MuVIT technical success and procedural technical success. Safety outcomes included MuVIT and procedural related complications in the first 30 days. RESULTS: During the study period 52 cases were screened for MuVIT. Of these, 40 patients (77%) underwent procedures that were performed under MuVIT. Exclusion reasons were local anaesthesia (n = 9); pulmonary contraindications (n = 2), and poor heart pump function (n = 1). Fifteen patients (37.5%) underwent bTEVAR, three patients (7.5%) fTEVAR, and 22 patients (55%) standard TEVAR. Twenty nine (72.5%) procedures were elective, seven (17.5%) were urgent, and four (10%) were as an emergency. Successful proximal endograft deployment under MuVIT was 100%. The target SBP reduction was achieved in 95% (Group 1: 89.5%, Group 2: 100%), with an overall mean reduction of 46% (Group 1: 55%, Group 2: 40%). The 30 day mortality was 7.5%, and was not MuVIT related. Two patients with COPD Gold III/IV developed respiratory complications. CONCLUSION: MuVIT is a safe and effective manoeuvre for CO reduction during aortic arch TEVAR. However, careful patient selection is required and potential adverse effects on patients with severe COPD needs further evaluation.