Cardiovascular drugs attenuated myocardial resistance against ischaemia-induced and reperfusion-induced injury in a rat model of repetitive occlusion.

Objective: We investigated the impact of cardioprotective drugs on ST-elevation, arrhythmias and infarct size in a rat model of repetitive coronary artery occlusion.

Methods: Seventy Sprague-Dawley rats were randomised to two control and five treatment groups. Placebo was either implantation of a pneumatic occluder onto the left anterior descending coronary artery (LAD) without starting repetitive occlusion (SHAM) or subsequent RO of the LAD over 10 days without medication (ROP).

A novel computer-aided diagnostic approach for detecting peripheral arterial disease in patients with diabetes.

Peripheral arterial disease (PAD) is an important manifestation of systemic atherosclerosis, with diabetes being one of its most significant risk factors. Owing to medial arterial calcification (MAC), the ankle-brachial index (ABI) is not always a reliable tool for detecting PAD. Arterial Doppler flow parameters, such as systolic maximal acceleration (ACCmax) and relative pulse slope index (RPSI), may serve as effective surrogates to detect stenosis-induced flow alteration.

Induction of extracranial arteriogenesis by an arteriovenous fistula in a pig model.

Background And Aims: Arteriogenesis, the positive outward remodeling and growth of pre-existent collateral vessels, holds potential as a novel treatment for ischemic vascular disease. An extracranial arteriogenesis model in a pig will allow us to study molecular changes in a complex arteriolar network in a more clinically relevant large-animal model. To increase fluid shear stress in the brain, an experimental carotid arteriovenous fistula (AVF model) in minipigs was established, providing high flow through the extracranial rete mirabile.

Long-term individual shear rate therapy counterpulsation enhances plasma nitrite release in patients with PAD.

Background: Individual shear rate therapy (ISRT) has been designed as a novel non-invasive treatment option for peripheral artery disease (PAD) patients and has been shown to improve endothelial function and walking distance. The aim of this study was to elucidate the impact of ISRT on the level of nitric oxide in patient blood plasma and the expression of related molecular markers in peripheral blood mononuclear cells (PBMCs). Molecular diagnostic tests were performed for two ISRT trials.

Adaptation of external counterpulsation based on individual shear rate therapy improves endothelial function and claudication distance in peripheral artery disease.

Background: External counterpulsation therapy enhances blood flow and was shown to improve endothelial function and quality of life in coronary artery disease patients. However, high pressures of up to 300 mmHg may lead to malperfusion of the ischaemic limb. To improve the clinical outcome of patients with peripheral artery disease (PAD), we adjusted external counterpulsation and developed a novel non-invasive approach termed individual shear rate therapy (ISRT).

Influence of epicardial stenosis severity and central venous pressure on the index of microcirculatory resistance in a follow-up study.

Aims: This study sought to evaluate the reproducibility of the index of microcirculatory resistance (IMR) in a follow-up model and the role of epicardial artery stenosis and central venous pressure (Pv) on IMR.

Methods And Results: Twenty-two patients with stable coronary artery disease underwent coronary catheterisation at baseline and after seven weeks. The IMR was calculated at baseline and follow-up in several ways: as IMRuncorrected=Pd·Tmn (Pd: intracoronary pressure distal to the stenosis; Tmn: transit mean time); IMRcorrected=Pa·Tmn·(Pd - Pw)/(Pa-Pw), (Pw: coronary wedge pressure; Pa: aortic pressure); and as IMRcentral venous pressure (IMRcvp)=(Pa-Pv)·Tmn·(Pd-Pw)/(Pa-Pw).

Feasibility of cardiovascular magnetic resonance to assess the orifice area of aortic bioprostheses.

Background: Prosthetic orifice area, usually calculated by transthoracic echocardiography (TTE) or transesophageal echocardiography (TEE), provides important information regarding the hemodynamic performance of aortic bioprostheses. However, both TTE and TEE have limitations; therefore accurate and reproducible determination of the orifice area often remains a challenge. The present study aimed to investigate the feasibility of cardiovascular magnetic resonance (CMR) to assess the orifice areas of aortic bioprostheses.

Assessment of the effect of external counterpulsation on myocardial adaptive arteriogenesis by invasive functional measurements--design of the arteriogenesis network trial 2.

Background: Stimulation of collateral artery growth is a promising therapeutic option for patients with coronary artery disease. External counterpulsation is a non-invasive technique suggested to promote the growth of myocardial collateral arteries via increase of shear stress. The Art.