Quality control in treating patients with patent foramen ovale: 7-year-experience of the Heart and Brain team of the Careggi University Hospital.

BACKGROUND: The right comprehension of ischemic stroke pathogenesis guarantees the best prevention therapy. The term "patent foramen ovale (PFO) related stroke" has been proposed for those events where PFO is supposed to be pathogenetic, but their definition is challenging. A multidisciplinary evaluation in a "Heart & Brain" team (HBteam) including stroke neurologists and interventional cardiologists was therefore highly recommended in the recent guidelines of secondary stroke prevention. OBJECTIVE: We aimed at describing the organization of the HBteam of Careggi-University-Hospital of Florence (Italy), and the results of the first seven years of activity. METHODS: In 2016 Interventional Cardiologists and Stroke Neurologists set up an outpatient clinic for the joined evaluation of patients with PFO and other cardio/neurological conditions. A specific diagnostic-therapeutic hospital plan was produced for PFO patients. Patient empowerment was guaranteed by a hospital explicative webpage, a booklet regarding risks/benefits of PFO closure and a 3D heartmodel to simulate the intervention. Data were collected in a dedicated registry. RESULTS: We evaluated 594 patients for PFO, 40 for left atrial appendage closure and 38 for other conditions. In 20% of PFO-patients, HBteam diagnosis was discordant from that of referring physicians, 14% were stroke misdiagnoses. We advised against closure in 53% of patients. At follow-up 94% of closed patients had no/minimum residual shunt; 3 patients had a cerebral ischemic event. CONCLUSIONS: A dedicated HBteam represents a unique opportunity to share decisions with patients after a thorough empowerment process. The joining of cardioneurological skills allows a better classification of PFO-patients, reducing futile interventions.

Peripheral intravascular lithotripsy for transcatheter aortic valve implantation: a multicentre observational study.

BACKGROUND: The presence of severe calcific atherosclerosis at the iliofemoral axis may preclude transcatheter aortic valve implantation (TAVI) by the transfemoral (TF) approach. Intravascular lithotripsy (IVL) is a novel technology that fractures intimal/medial calcium and increases vessel compliance allowing TF TAVI in selected patients with peripheral artery disease (PAD). AIMS: The aim of this study was to report on the safety and efficacy of IVL-assisted TF TAVI in an all-comers population. METHODS: Clinical, imaging and procedural data on all consecutive patients treated by IVL-assisted TF TAVI in six high-volume European centres (2018-2020) were collected in this prospective, real-world, multicentre registry. RESULTS: IVL-assisted TF TAVI was performed in 108 patients, increasing from 2.4% to 6.5% of all TAVI from 2018 to 2020, respectively. The target lesion was most often localised at the common and/or external iliac artery (93.5% of cases; average TL-MLD 4.6±0.9 mm with 318 degrees of calcium arc). Transfemoral aortic valve delivery was successful in 100% of cases; final procedural success in 98.2% (two conversions to cardiac open surgery for annular rupture and valve migration). Complications of the IVL-treated segments consisted of 1 perforation and 3 major dissections requiring stent implantation (2 covered stents and 2 BMS). Access-site-related complications included 3 major bleedings. Three in-hospital deaths were recorded (2.8%, 1 failed surgical conversion after annular rupture, 1 cardiac arrest after initial valvuloplasty, 1 late hyperkalaemia in renal dysfunction). CONCLUSIONS: IVL-assisted TF TAVI proved to be a safe and effective approach, which helps to expand the indications for TF TAVI in patients with severe calcific PAD. However, these patients continue to have a higher-than-average incidence of periprocedural complications.

New Advances in the Treatment of Severe Coronary Artery Calcifications.

Coronary artery calcifications are always challenging scenarios for interventional cardiologists. Calcium content in coronary tree directly correlates with male sex, age, Caucasian ethnicity, diabetes, and chronic kidney disease. Intracoronary imaging is useful and necessary to understand calcific lesion features and plan the best percutaneous coronary intervention strategy. Thus, accurate evaluation of patient and lesion characteristics is crucial. For this reason, definition of calcific arc, length, and thickness can suggest the best procedure before stenting and final optimization. In our modern era, different devices are available and all are surprisingly promising.

Role of Lithotripsy for Small Calcified Iliacs in the Era of Big Devices.

PURPOSE OF REVIEW: In recent years, transcatheter aortic valve replacement (TAVR) and percutaneous mechanical circulatory support (MCS) systems have seen a widespread diffusion. These devices require the insertion of large femoral sheaths in a population of patients often presenting with calcific peripheral artery disease. Small and severely calcified iliac vessels are associated with increased risk of vascular complications or strategy changes such as the use of an alternative subclavian or transapical approach for TAVR or a conversion to surgery. Intravascular lithotripsy (IVL) technology applies mechanical pressure waves to modify vessel calcifications. It has been applied both in coronary and peripheral calcific disease with promising results. The use in vessel preparation before the insertion of large sheaths is an emerging application of this device. RECENT FINDINGS: After case reports and presentations of isolated cases, two multicenter registries collected 42 and 12 patients treated with peripheral IVL before TAVR and MCS insertion. In most cases, the largest balloons were used in the iliac arteries with success achieved directly or using a separate insertion sheath in all cases. Low-pressure dilatation during energy delivery avoided dissections or vessel ruptures with no need of postprocedural stent implantation or emergency surgical repair. IVL can successfully modify the arterial compliance and facilitate transfemoral delivery of TAVR or MCS in patients with calcified iliofemoral vessels, reducing the need for alternative TAVR access routes and allowing to perform high-risk coronary procedures with adequate support.

Intravascular lithotripsy for calcific coronary and peripheral artery stenoses.

Heavily calcified lesions may be difficult to dilate adequately with conventional balloons and stents, which causes frequent periprocedural complications and higher rates of target lesion revascularisation (TLR). High-pressure non-compliant balloon angioplasty may be of insufficient force to modify calcium and, even when successful, may be limited in its ability to modify the entire calcified lesion. Scoring and cutting balloons hold theoretical value but data to support their efficacy are lacking and, because of their high lesion crossing profile, they often fail to reach the target lesion. Rotational and orbital atherectomy target superficial calcium; however, deep calcium, which may still impact on vessel expansion and luminal gain, is not affected. Intravascular lithotripsy (IVL), based on lithotripsy for renal calculi, is a new technology which uses sonic pressure waves to disrupt calcium with minimal impact to soft tissue. Energy is delivered via a balloon catheter, analogous to contemporary balloon catheters, with transmission through diluted ionic contrast in a semi-compliant balloon inflated at low pressure with sufficient diameter to achieve contact with the vessel wall. With coronary and peripheral balloons approved in Europe, peripheral balloons approved in the USA and multiple new trials beginning, we review the indications for these recently introduced devices, summarise the clinical outcomes of the available trials and describe the design of ongoing studies.