Paravalvular leak (PVL) is a challenging complication of valve replacement surgery that can cause heart failure and haemolysis. Surgical repair is the traditional treatment for severe, symptomatic ...PVL, but many patients with PVL fall into high-risk categories for redo surgery. Percutaneous techniques for closure of PVL have been increasingly refined over the last decade with availability of approved purpose-specific devices for closure. Percutaneous closure requires a heart team approach, with attention paid to appropriate preprocedural and periprocedural imaging to ensure a successful closure with minimal residual leak or complication. There are limited studies addressing the selection of a percutaneous approach to PVL. No randomised trials comparing surgical and percutaneous repair have been conducted. Large national registries from the UK and Ireland and from Spain have demonstrated that high rates of technical success can be achieved, with mortality comparable with surgical repair. Six retrospective studies comparing surgical and percutaneous approaches have been published. These broadly show comparable technical success between the interventions, with reduced short-term mortality among patients treated percutaneously. Long-term outcomes were similar between both treatment options. Percutaneous repair is an attractive treatment option in many patients due to its reduced invasiveness and quicker recovery period. However, more prospective studies are needed to validate its place in the armamentarium of the heart team.
Transcatheter aortic valve replacement (TAVR) is an established therapy for patients with aortic stenosis (1). A conductance catheter (Millar Instruments, Houston, Texas) positioned at the RV apex ...recorded a family of pressure-volume loops during pre-load reduction with inferior vena cava balloon occlusion pre- and post-TAVR recorded a median time of 17 min (IQR: 12 to 23 min) after valve replacement.
Paravalvular leak (PVL) is a complication that occurs in 5-17% of patients after surgical prosthetic valve implantation. Whereas PVLs can be benign, some PVLs are associated with substantial ...morbidity and mortality. Percutaneous closure using occluders specifically designed to improve closure and reduce procedural complications has now become the first-line treatment for PVL. In this Review, we first detail the frequency and clinical consequences of PVL closure. The role of cardiac imaging in the assessment and management of PVL, including echocardiographic imaging and adjunctive techniques such as CT, is then discussed, together with important considerations for the percutaneous closure of PVL, such as access site and device selection. Finally, we summarize the clinical evidence for percutaneous closure of PVL, including large national registries from Ireland, Spain and the UK, as well as head-to-head data comparing this procedure with surgical closure.
Post-infarction ventricular septal defect (PIVSD) is a mechanical complication of acute myocardial infarction (AMI) with a poor prognosis. Surgical repair is the mainstay of treatment, although ...percutaneous closure is increasingly undertaken.
Patients treated with surgical or percutaneous repair of PIVSD (2010-2021) were identified at 16 UK centres. Case note review was undertaken. The primary outcome was long-term mortality. Patient groups were allocated based upon initial management (percutaneous or surgical). Three-hundred sixty-two patients received 416 procedures (131 percutaneous, 231 surgery). 16.1% of percutaneous patients subsequently had surgery. 7.8% of surgical patients subsequently had percutaneous treatment. Times from AMI to treatment were similar percutaneous 9 (6-14) vs. surgical 9 (4-22) days, P = 0.18. Surgical patients were more likely to have cardiogenic shock (62.8% vs. 51.9%, P = 0.044). Percutaneous patients were substantially older 72 (64-77) vs. 67 (61-73) years, P < 0.001 and more likely to be discussed in a heart team setting. There was no difference in long-term mortality between patients (61.1% vs. 53.7%, P = 0.17). In-hospital mortality was lower in the surgical group (55.0% vs. 44.2%, P = 0.048) with no difference in mortality after hospital discharge (P = 0.65). Cardiogenic shock adjusted hazard ratio (aHR) 1.97 (95% confidence interval 1.37-2.84), P < 0.001), percutaneous approach aHR 1.44 (1.01-2.05), P = 0.042, and number of vessels with coronary artery disease aHR 1.22 (1.01-1.47), P = 0.043 were independently associated with long-term mortality.
Surgical and percutaneous repair are viable options for management of PIVSD. There was no difference in post-discharge long-term mortality between patients, although in-hospital mortality was lower for surgery.
Background Adenosine is used to treat no-reflow in the infarct-related artery (IRA) during ST-segment-elevation myocardial infarction intervention. However, the physiological effect of adenosine in ...the IRA is variable. Coronary steal-a reduction of blood flow to the distal coronary bed-can occur in response to adenosine and this is facilitated by collaterals. We investigated the effects of adenosine on coronary flow reserve (CFR) in patients presenting with ST-segment-elevation myocardial infarction to better understand the physiological mechanism underpinning the variable response to adenosine. Methods and Results Pressure-wire assessment of the IRA after percutaneous coronary intervention was performed in 93 patients presenting with ST-segment-elevation myocardial infarction to calculate index of microvascular resistance, CFR, and collateral flow index by pressure. Modified collateral Rentrop grade to the IRA was recorded, as was microvascular obstruction by cardiac magnetic resonance imaging. Coronary steal (CFR <0.9), no change in flow (CFR=0.9-1.1), and hyperemic flow (CFR >1.1) after adenosine occurred in 19 (20%), 15 (16%), and 59 (63%) patients, respectively. Patients with coronary steal had higher modified Rentrop score to the IRA (1 0, 1.75 versus 0 0, 1,
<0.001) and a higher collateral flow index by pressure (0.25±0.10 versus 0.15±0.10,
=0.004) than the hyperemic group. The coronary steal group also had significantly higher index of microvascular resistance (61.68 28.13, 87.04 versus 23.93 14.67, 37.00,
=0.006) and had more disease (stenosis >50%) in the donor arteries (52.63% versus 22.03%,
=0.02) than the hyperemic group. Conclusions Adenosine-induced coronary steal may be responsible for a reduction in coronary flow reserve in a proportion of patients presenting with ST-segment-elevation myocardial infarction. Registration URL: https://www.clinicaltrials.gov; Unique identifier: NCT03145194. URL: https://www.isrctn.com; Unique identifier: ISRCTN3176727.
Incretin therapies appear to provide cardioprotection and improve cardiovascular outcomes in patients with diabetes, but the mechanism of this effect remains elusive. We have previously shown that ...glucagon-like peptide (GLP)-1 is a coronary vasodilator and we sought to investigate if this is an adenosine-mediated effect.
We recruited 41 patients having percutaneous coronary intervention (PCI) for stable angina and allocated them into four groups administering a specific study-related infusion following successful PCI: GLP-1 infusion (Group G) (n = 10); Placebo, normal saline infusion (Group P) (n = 11); GLP-1 + Theophylline infusion (Group GT) (n = 10); and Theophylline infusion (Group T) (n = 10). A pressure wire assessment of coronary distal pressure and flow velocity (thermodilution transit time-Tmn) at rest and hyperaemia was performed after PCI and repeated following the study infusion to derive basal and index of microvascular resistance (BMR and IMR).
There were no significant differences in the demographics of patients recruited to our study. Most of the patients were not diabetic. GLP-1 caused significant reduction of resting Tmn that was not attenuated by theophylline: mean delta Tmn (SD) group G - 0.23 s (0.27) versus group GT - 0.18 s (0.37), p = 0.65. Theophylline alone (group T) did not significantly alter resting flow velocity compared to group GT: delta Tmn in group T 0.04 s (0.15), p = 0.30. The resulting decrease in BMR observed in group G persisted in group GT: - 20.83 mmHg s (24.54 vs. - 21.20 mmHg s (30.41), p = 0.97. GLP-1 did not increase circulating adenosine levels in group GT more than group T: delta median adenosine - 2.0 ng/ml (- 117.1, 14.8) versus - 0.5 ng/ml (- 19.6, 9.4); p = 0.60.
The vasodilatory effect of GLP-1 is not abolished by theophylline and GLP-1 does not increase adenosine levels, indicating an adenosine-independent mechanism of GLP-1 coronary vasodilatation.
The local research ethics committee approved the study (National Research Ethics Service-NRES Committee, East of England): REC reference 14/EE/0018. The study was performed according to institutional guidelines, was registered on http://www.clinicaltrials.gov (unique identifier: NCT03502083) and the study conformed to the principles outlined in the Declaration of Helsinki.