Preventive Therapies in Peripheral Arterial Disease

Trends in lower extremity peripheral arterial disease incidence since 1990 and forecasting future statistics using Global Burden of Disease 2021: a time-series analysis

Background

Lower extremity peripheral arterial disease (LEPAD) significantly affects quality of life and is associated with severe cardiovascular risks. Studies on its long-term incidence trends are limited.

Objective

This study aims to analyze global trends in LEPAD incidence from 1990 to 2021 using the Global Burden of Disease (GBD) 2021 database and to forecast future trends between 2022 and 2030, providing insights for healthcare planning and resource allocation.

Methods

Data were extracted from the GBD 2021 database by genders, age groups, continents, and sociodemographic index (SDI) levels. Using Joinpoint regression analysis, annual percentage changes (APC) and average annual percentage changes (AAPC) were calculated to assess age-standardized incidence rates (ASIR) historical trends. Autoregressive integrated moving average (ARIMA) model was applied to predict ASIR between 2022 and 2030.

Results

The global ASIR of LEPAD showed a slight decrease from 1990 to 2021, though regional differences were notable. In 2021, the highest ASIR was in the Americas, while Africa had the lowest. Gender and age disparities were significant, and females and older populations were at higher risk. ARIMA predictions indicate a stable ASIR trend from 2025 onward.

Conclusion

This study provides a comprehensive analysis of LEPAD incidence trends and a forecast through 2030. While global incidence may stabilize, the rising burden in lower-income countries calls for prioritizing early intervention and health education in high-risk regions. These findings emphasize the importance of targeted resource allocation and strategic prevention efforts.

Codon-Optimized and de novo-Synthesized E-Selectin/AAV2 Dose-Response Study for Vascular Regeneration Gene Therapy

OBJECTIVE

This study focuses on dose-response investigation using a codon-optimized and de novo-synthesized E-Selectin/AAV2 (E-Sel/AAV2) vector in preparation for Investigational New Drug enabling of subsequent clinical studies.

BACKGROUND

Gene therapy is a potential solution for patients suffering from chronic limb-threatening ischemia. Understanding the dose for effective gene delivery is crucial for future Investigational New Drug-enabling studies.

METHODS

Expression of the codon-optimized E-Selectin gene was assessed by flow cytometry following in vitro cell transfection assay and RT-qPCR for murine limbs injected in vivo with AAV-m-E-Selectin (E-Sel/AAV2). Dose-response studies involved 3 cohorts of FVB/NJ mice (n=6/group) with escalating log doses of E-Selectin/AAV2 injected intramuscularly in divided aliquots, ranging from 2 × 10 9 VG to 2 × 10 11 VG, into ischemic limbs created by left femoral artery/vein ligation/excision and administration of nitric oxide synthase inhibitor, L-NAME. Limb perfusion, extent of gangrene free limb, functional limb recovery, and therapeutic angiogenesis were assessed.

RESULTS

Codon-optimized E-Sel/AAV2 gene therapy exhibits a superior expression level than WT E-Sel/AAV2 gene therapy both in vitro and in vivo. Mice treated with a high dose (2 × 10 11 VG) of E-Sel/AAV2 showed significantly improved perfusion indices, lower Faber scores, increased running stamina, and neovascularization compared with lower doses tested with control groups, indicating a distinct dose-dependent response. No toxicity was detected in any of the animal groups studied.

CONCLUSIONS

E-Sel/AAV2 Vascular Regeneration Gene Therapy holds promise for enhancing the recovery of ischemic hindlimb perfusion and function, with the effective dose identified in this study as 2 × 10 11 VG aliquots injected intramuscularly.

Association between statin intensity and femoropopliteal stent primary patency in peripheral arterial disease

BACKGROUND

Statins are widely used in coronary and peripheral arterial disease, but their impact on patency of stents placed for peripheral arterial disease is not well-studied. The purpose of this study was to evaluate femoropopliteal stent primary patency according to statin intensity at the time of stent placement and compare this effect to other covariates that may influence stent patency.

MATERIALS AND METHODS

A retrospective review identified 278 discrete femoropopliteal stent constructs placed in 216 patients over a 10-year period; Rutherford categories were 2 (3.6%), 3 (12.9%), 4 (21.2%), 5 (49.6%), and 6 (12.6%). Stent locations were common femoral (1.8%), common femoral/superficial femoral (0.7%), superficial femoral (50.7%), superficial femoral/popliteal (32.7%) and popliteal (14.0%) arteries; 63.3% of stents were paclitaxel-eluting. Primary patency of each stent construct was determined with duplex ultrasound, angiography, or computed tomographic angiography. Greater than 50% restenosis or stent occlusion was considered loss of patency. Cox proportional hazard and Kaplan-Meier modeling were used to assess the effect of statin use and additional covariates on stent patency.

RESULTS

Patients on any statin at the time of stent placement were half as likely to undergo loss of primary unassisted patency as patients on no statin therapy (hazard ratio, 0.53; 95% confidence interval, 0.19-0.87; P = .004). Moderate/high intensity statin therapy conferred 17 additional months of median stent patency compared to the no statin group. Antiplatelet therapy, anticoagulant therapy, drug-eluting stents (versus bare metal or covered stents), and Rutherford class were not predictive of stent patency (P = 0.52, 0.85, 0.58, and 0.82, respectively).

CONCLUSION

Use of statin therapy at the time of femoropopliteal stent placement was the most predictive examined variable influencing primary unassisted patency.

Hypertension in Patients With Peripheral Artery Disease: An Updated Literature Review

Peripheral artery disease (PAD), a condition where there is reduced blood flow due to narrowing or blockage of the arteries of the peripheral vasculature, is an epidemic that currently affects eight million people in the United States alone and is a major risk equivalent to having active coronary artery disease (CAD). However, it is commonly underdiagnosed in the general population. Hypertension is a common cardiovascular condition characterized by elevated blood pressure levels. There are several mitigating risk factors that can reduce the risk of complications of PAD, with hypertension playing a major role. This literature review aims to explore the relationship between hypertension and PAD, including their shared risk factors, pathophysiological mechanisms, and management strategies. In addition, we will analyze how this impacts major cardiovascular outcomes, such as critical limb ischemia, vascular amputation, myocardial infarction (MI), ischemic stroke, and cardiovascular-related death by examining relevant studies, current guidelines, and evidence. This literature review is intended to guide practitioners on ideal blood pressure parameters and evidence-based anti-hypertensives that provide overall cardiovascular benefit in both the primary care and hospital-based setting. By understanding the association between hypertension and PAD and the underlying pathophysiological mechanisms, healthcare professionals can improve diagnosis, treatment, and management strategies for affected individuals.

A Non-Coronary, Peripheral Arterial Atherosclerotic Disease (Carotid, Renal, Lower Limb) in Elderly Patients-A Review PART II-Pharmacological Approach for Management of Elderly Patients with Peripheral Atherosclerotic Lesions outside Coronary Territory

BACKGROUND

Aging is a key risk factor for atherosclerosis progression that is associated with increased incidence of ischemic events in supplied organs, including stroke, coronary events, limb ischemia, or renal failure. Cardiovascular disease is the leading cause of death and major disability in adults ≥ 75 years of age. Atherosclerotic occlusive disease affects everyday activity, quality of life, and it is associated with reduced life expectancy. As most multicenter randomized trials exclude elderly and very elderly patients, particularly those with severe comorbidities, physical or cognitive dysfunctions, frailty, or residence in a nursing home, there is insufficient data on the management of older patients presenting with atherosclerotic lesions outside coronary territory. This results in serious critical gaps in knowledge and a lack of guidance on the appropriate medical treatment. In addition, due to a variety of severe comorbidities in the elderly, the average daily number of pills taken by octogenarians exceeds nine. Polypharmacy frequently results in drug therapy problems related to interactions, drug toxicity, falls with injury, delirium, and non-adherence. Therefore, we have attempted to gather data on the medical treatment in patients with extra-cardiac atherosclerotic lesions indicating where there is some evidence of the management in elderly patients and where there are gaps in evidence-based medicine. Public PubMed databases were searched to review existing evidence on the effectiveness of lipid-lowering, antithrombotic, and new glucose-lowering medications in patients with extra-cardiac atherosclerotic occlusive disease.