Onsite Tobacco Cessation Treatment for Patients With PAD
Tobacco CessationPeripheral Artery DiseaseTobacco cessation treatment is needed for individuals with peripheral artery disease (PAD) to improve symptoms, lower cardiovascular risk, and prevent amputation. While such treatment is effective, many PAD patients do not receive cessation therapy. Participants will receive nicotine replacement therapy, counseling, and and complete questionnaires. We hypothesize that integrating tobacco cessation services into a dedicated PAD clinic (OU CVI Limb Preservation Clinic) can improve tobacco cessation rates and improve PAD-related health outcomes in this at risk population.
The Impact of Factor Xa Inhibition on Thrombosis, Platelet Activation, and Endothelial Function...
Peripheral Arterial DiseaseThe purpose of this study is to understand how the drug rivaroxaban improves symptoms associated with peripheral artery disease.
Concurrent Training on Patients With Type-II DM Associated PAD.
Type 2 Diabetes With Peripheral AngiopathyThis clinical trial aims to analyze the effects of concurrent vs aerobic training on glycemic control, ABI, functional capacity and disease-specific QOL among patients with Type-II DM-associated PAD at baseline & after 12 weeks of intervention. The main questions it aims to answer are: Is concurrent training more effective than aerobic training in improving glycemic control among patients with Type-II DM-associated PAD? Is concurrent training more effective than aerobic training in improving ABI among patients with Type-II DM-associated PAD? Is concurrent training more effective than aerobic training in enhancing functional capacity among patients with Type-II DM-associated PAD? Is concurrent training more effective than aerobic training in improving QOL among patients with Type-II DM-associated PAD? Signed informed consent will be taken before participation. For exercise training, Both will perform Warm up for 10 - 12 minutes, followed by 30 - 60 minutes of training protocol and then Cool down exercises for 10 - 12 minutes. Group A will perform concurrent training, whereas Group B will perform aerobic training.
Inter-individual Physiological Response to a Training and Detraining Period in Cardiometabolic Risk...
Vascular DiseasePeripheral3 moreBackground: Although exercise training is a well described therapy for some cardiometabolic diseases such as obesity, type 2 diabetes, arterial hypertension, and metabolic syndrome, there is scarcity of knowledge about the post-exercise period term as 'detraining' where usually all physiological adaptations as cardiovascular and metabolic benefits are lost due to physical inactivity. Likewise, as some exercise training modalities as high-intensity interval training improve vascular parameters including endothelial dysfunction parameters as flow-mediated dilation (FMD%), and carotid-intima media thickness (c-IMT) during the 'training' period, there is little knowledge about how many 'volume' or 'intensity' of exercise training or physical activity per week is needed to maintain the exercise training benefits in populations with cardiometabolic risk factors such as those patients with arterial hypertension. This information will be of great interest for both improving and maintaining the vascular profile and health of Chilean adults with risk factors and to maintain a better vascular profile. Objective: To study the beneficial adaptations from the 'training' and 'detraining' period of exercise training on functional and structural vascular parameters in healthy and cardiometabolic risk factors adult subjects to improve the health profile. Methods: The investigators will conduct an experimental design of 5 groups of exercise training in healthy (controls) and hypertensive (HTN) patients (≥140 mmHg), with overweight/or obesity, men and women, with BMI ≥25 and ≤35 kg/m2, aged ≥18y, physically inactive (<150 min/week of low/moderate PA/week, or <75 min/week of vigorous PA) in the last 6 months will be invited for participating. The groups will be as follows; Group (HTNex will be compared with Group HTNcg). Group (ELEex will be compared with Group ELEcg). Group (NTex will be compared with Group NTcg). Each group will be compared in their physiological vascular adaptations before and after exercise training such as HIIT, and after 3 months of a detraining period. Results (hypothesis): The investigators hypothesized that the maintenance of vascular outcomes after the 'detraining' period is intensity-dependent in adults with HTN that participated of an exercise intervention.
Effects of aSPIrin Versus Aspirin Plus Low-dose RIvaroxaban on Carotid aTherosclerotic Plaque Inflammation...
Atherosclerosis of ArteryCoronary Artery Disease2 morePrimary Study Objective : To compare the effects of low-dose rivaroxaban plus aspirin versus aspirin on atherosclerotic plaque inflammation using serial FDG Positron Emission Tomography/Computed Tomography(PET-CT) imaging of carotid artery and ascending aorta. Secondary Study Objective : To compare the effects of low-dose rivaroxaban plus aspirin versus aspirin on biomarkers including high-sensitivity C-Reactive Protein(CRP) and lipid profiles.
Randomized Preventive Vascular Screening Trial of 65-74 Year Old Men in the Central Region of Denmark...
Abdominal Aortic AneurysmsPeripheral Arterial Disease1 moreWell-documented health benefits may be achieved through prophylactic screening for cardiovascular disease. The advantages are fewer premature deaths and a reduction in the number of hospital admissions and amputations. Furthermore, hospitals will benefit from the derived reduction in the pressure on surgery and intensive care capacities at vascular surgery departments. It therefore seems extremely relevant to offer joint screening for abdominal aortic aneurysm, peripheral arterial disease and hypertension, even if the benefit and costs of such a measure are not currently known. Consequently, the primary objective of the study is to establish the effect and cost-efficiency of a joint circulation screening programme for 40,000 men aged 65-74 years in a randomised, clinically controlled study. The project manager will train six nurses to measure ABI and perform ultrasound scans of the aorta. The nurses form three teams which will each be equipped with a portable Doppler, blood pressure cuff and portable ultrasound scanner. Each team will operate from the hospitals in the Region. Civil registration number (in Danish: CPR), name and address information will be supplied by the Clinical Epidemiological Department (CED), which will also perform the randomisation in groups of approx. 1,000 to avoid too long a period from data extraction to invitation. Half of the randomised subjects will be invited to participate in a circulation examination focused on PAD, AAA and hypertension, while the other half will be controls Men with positive findings are informed and proper preventive actions is taken. Annual controls are offered, and AAA exceeding 5.5 cm in diameter is offered operation. The primary efficiency variables are death, cardiovascular death and AAA-death. The secondary efficiency variables are hospital services related to cardiovascular conditions and costs for such services in accordance with current DRG rates. The entire population, the controls as well as the screening group, will be monitored for a period of 10 years. Information concerning deaths, including date of death, is obtained from the Civil Registration System, information on visits to outpatient clinics and hospital admissions caused by cardiovascular conditions including amputations is obtained from the National Patient Registry. From the Danish Causes of Death Registry information on cause of death is collected. The information is classified with regards to cause; AAA or cardiovascular. The cardiovascular interventions are identified in the vascular surgery database (Karbasen). Major follow-up is performed at 3, 5 and 10 years. A steering and data validation group will be formed including the project manager and a representative from the Clinical Epidemiology Department. Furthermore, a vascular surgeon from each of the two affected departments in the region will participate. Total mortality, cardiovascular and AAA-related mortality and initial cardiovascular hospital service are compared for the two groups using Cox proportional hazards-regression analysis which facilitates description of the risk ratio. The cost-efficiency calculation will be adjusted for quality of life.
Analysis of Arterial Waveforms and Oxygen Pressure During Supervised Exercise for Peripheral Artery...
Peripheral Arterial DiseaseThe goal of this observational study is to assess the evolution of oxygen pressure and arterial waveform during supervised exercise therapy in patients with peripheral arterial disease. The main questions it aims to answer are: can a significant increase in oxygen pressure be observed at 3 weeks? can a significant increase of oxygen pressure or arterial waveform be observed at 3, 6 or 9 weeks?
Genotype-guided Strategy for Antithrombotic Treatment in Peripheral Arterial Disease.
Peripheral Arterial DiseaseRationale: Peripheral arterial disease (PAD) is a common presentation of atherosclerosis. For the prevention of adverse events related to arterial thrombosis in PAD patients, clopidogrel is recommended. Clopidogrel in itself is inactive and needs to be metabolized by cytochrome P450 2C19 (CYP2C19) into the active metabolite. About 30% of PAD patients receiving clopidogrel is carrying one or two CYP2C19 loss-of-function allele(s) and do not or to a limited extent convert the prodrug into its active metabolites, and are therefore at increased risk of adverse clinical events related to arterial thrombosis. We hypothesize that genotype-guided prescription of antithrombotic treatment reduces adverse clinical events related to arterial thrombosis. Objective: The primary aim of the GENPAD study is to evaluate the ability of genotype-guided antithrombotic treatment to reduce adverse clinical events related to arterial thrombosis in PAD patients. Secondary objectives are to evaluate the ability of genotype-guided antithrombotic treatment to reduce the separate elements of the primary composite outcome and to assess the risk of clinically relevant bleedings in patients allocated to the genotype-guided antiplatelet treatment versus standard clopidogrel prescription. Study design: A randomized, controlled, open label, multicenter trial. Study population: Patients (n=2276) with PAD consulting a vascular surgeon for diagnosis and/or treatment, receiving clopidogrel according to the guidelines. Intervention: Testing for carriage of the CYP2C19*2 and *3 loss-of-function alleles, followed by a genotype guided antithrombotic treatment with either clopidogrel 75mg once daily (normal metabolizers), clopidogrel 75mg twice daily (intermediate metabolizers), or low-dose rivaroxaban plus acetylsalicylic acid (poor metabolizers). Comparator: All patients receive clopidogrel 75mg once daily without pharmacogenetic guidance. Main study parameters/endpoints: The primary combined outcome is the occurrence of adverse clinical events related to arterial thrombosis at 24 months. The occurrence of major adverse cardiovascular events, major adverse limb events, death and clinically relevant bleedings are the secondary endpoints.
A Study of Loco-Regional Liposomal Bupivacaine Injection
Peripheral Arterial DiseaseThe purpose of this research is to find out if using liposomal bupivacaine solution (bupivacaine liposome) injections during lower extremity revascularization surgery will lower the amount of narcotic drugs used during and following the procedure.
Disrupt PAD BTK II Study With the Shockwave Peripheral IVL System
Peripheral Artery DiseaseTo assess the continued safety, effectiveness, and optimal clinical use of the Shockwave Medical Peripheral IVL System for the treatment of calcified, stenotic BTK arteries. Post-market, prospective , multi-center, single-arm study.