The Impact of the COVID-19 Pandemic on a Dedicated Vascular Emergency Clinic.

BACKGROUND: Vascular Emergency Clinics (VEC) improve patient outcomes in chronic limb-threatening ischemia (CLTI). They provide a "1 stop" open access policy, whereby "suspicion of CLTI" by a healthcare professional or patient leads to a direct review. We assessed the resilience of the outpatient VEC model to the first year of the coronavirus disease (COVID-19) pandemic. METHODS: A retrospective review of a prospectively maintained database of all patients assessed in our VEC for lower limb pathologies between March 2020 and April 2021 was performed. This was cross-referenced to national and loco-regional Governmental COVID-19 data. Individuals with CLTI were further analysed to determine Peripheral Arterial Disease-Quality Improvement Framework compliance. RESULTS: Seven hundred and ninety one patients attended for 1,084 assessments (Male n = 484, 61%; Age 72.5 ± standard deviation 12.2 years; White British n = 645, 81.7%). In total, 322 patients were diagnosed with CLTI (40.7%). A total of 188 individuals (58.6%) underwent a first revascularization strategy (Endovascular n = 128, 39.8%; Hybrid n = 41, 12.7%; Open surgery n = 19, 5.9%; Conservative n = 134, 41.6%). Major lower limb amputation rate was 10.9% (n = 35) and mortality rate was 25.8% (n = 83) at 12 months of follow-up. Median referral to assessment time was 3 days (interquartile range: 1-5). For the nonadmitted patient with CLTI, the median assessment to intervention was 8 days (interquartile range: 6-15) and median referral to intervention time of 11 days (11-18). CONCLUSIONS: The VEC model has demonstrated strong resilience to the COVID-19 pandemic with rapid treatment timelines maintained for patients with CLTI.

Short-term risk prediction after major lower limb amputation: PERCEIVE study.

BACKGROUND: The accuracy with which healthcare professionals (HCPs) and risk prediction tools predict outcomes after major lower limb amputation (MLLA) is uncertain. The aim of this study was to evaluate the accuracy of predicting short-term (30 days after MLLA) mortality, morbidity, and revisional surgery. METHODS: The PERCEIVE (PrEdiction of Risk and Communication of outcomE following major lower limb amputation: a collaboratIVE) study was launched on 1 October 2020. It was an international multicentre study, including adults undergoing MLLA for complications of peripheral arterial disease and/or diabetes. Preoperative predictions of 30-day mortality, morbidity, and MLLA revision by surgeons and anaesthetists were recorded. Probabilities from relevant risk prediction tools were calculated. Evaluation of accuracy included measures of discrimination, calibration, and overall performance. RESULTS: Some 537 patients were included. HCPs had acceptable discrimination in predicting mortality (931 predictions; C-statistic 0.758) and MLLA revision (565 predictions; C-statistic 0.756), but were poor at predicting morbidity (980 predictions; C-statistic 0.616). They overpredicted the risk of all outcomes. All except three risk prediction tools had worse discrimination than HCPs for predicting mortality (C-statistics 0.789, 0.774, and 0.773); two of these significantly overestimated the risk compared with HCPs. SORT version 2 (the only tool incorporating HCP predictions) demonstrated better calibration and overall performance (Brier score 0.082) than HCPs. Tools predicting morbidity and MLLA revision had poor discrimination (C-statistics 0.520 and 0.679). CONCLUSION: Clinicians predicted mortality and MLLA revision well, but predicted morbidity poorly. They overestimated the risk of mortality, morbidity, and MLLA revision. Most short-term risk prediction tools had poorer discrimination or calibration than HCPs. The best method of predicting mortality was a statistical tool that incorporated HCP estimation.

A review of disparities in peripheral artery disease and diabetes-related amputations during the COVID-19 pandemic.

The COVID-19 pandemic has profoundly affected health care delivery. In addition to the significant morbidity and mortality associated with acute illness from COVID-19, the indirect impact has been far-reaching, including substantial disruptions in chronic disease care. As a result of pandemic disruptions in health care, vulnerable and minority populations have faced health inequalities. The aim of this review was to investigate how the COVID-19 pandemic has impacted vulnerable populations with limb-threatening peripheral artery disease and diabetic foot infections.

Outcomes of Surgical Revascularization for Acute Limb Ischemia in COVID-19 Patients Comparing to Noninfected Cohort: A Single-Center Observational Prospective Study.

BACKGROUND: The purpose of the study was to compare the clinical presentation, management, and outcomes of surgical revascularization for acute limb ischemia (ALI) in 2 groups of patients-with and without SARS-CoV-2 infection. METHODS: During the 2 years (01.01.2020-31.12.2021) all consecutive patients diagnosed with ALI and treated with urgent revascularization were prospectively enrolled. Based on the results of polymerase chain reaction swab for SARS-CoV-2 infection patients were allocated to group A-infected or group B-noninfected. Demographic characteristics, clinical, imaging, laboratory data, and details of treatment were collected prospectively. The composite endpoint of major amputation and/or death at 30 days after surgery was defined as main study outcome. The postoperative ankle-brachial index value, reinterventions, complications, and length of hospital stay were considered as secondary outcomes. RESULTS: Overall, 130 patients (139 limbs with ALI) were analyzed-21 patients (23 limbs) in group A and 109 patients (116 limbs) in group B. The anatomical site of arterial occlusion, duration, and severity of ischemia did not differ significantly between the groups. Patients with COVID-19 had significantly shorter time from ALI onset till administration of the first dose of anticoagulant: 8 (2.5-24) hr vs. 15.7 (6-72) hr in group B, P = 0.02. Vascular imaging was performed before intervention only in 5 (23.8%) infected patients compared to 78 (71.5%) patients in group B, P < 0.001. The main outcome was registered in 38 (29.2%) patients, significantly more frequent in infected cohort: 12 (57.1%) patients in group A versus 26 (23.8%) in group B, P = 0.003. Difference was preponderantly caused by high mortality in group A-9 (42.8%) patients, compared to 17 (15.5%) patients in group B, P = 0.01. The difference in the rate of limb loss was not statistically significant: 4 (17.3%) limbs were amputated in COVID-19 patients and 12 (10.3%) limbs-in noninfected patients (P = 0.3). Combination of ALI and COVID-19 resulted in increased 30-day mortality-risk ratio (RR) 2.7 (95% confidence interval [CI]: 1.42-5.31), P = 0.002, but did not lead to significantly higher amputation rate-RR 1.6 (95% CI: 0.59-4.75), P = 0.32. In group A initial admission of the patient in the intensive care unit was an independent risk factor for amputation/death. Excepting systemic complications which were more frequently registered among COVID-19 patients: 7 (33%) cases vs. 14 (12.8%) in group B, P = 0.04; no differences in other secondary outcomes were observed between the groups. CONCLUSIONS: Study demonstrates the significant negative impact of COVID-19 upon the 30-day amputation-free survival in patients undergoing urgent surgical revascularization for ALI. The difference in outcome is influenced by higher rate of mortality among infected patients, rather than by the rate of limb loss. Severity of COVID-19, namely requirement of intensive care, mostly determines the outcome of ALI treatment.

COVID-associated acute limb ischemia during the Delta surge and the effect of vaccines.

OBJECTIVE: Hypercoagulability is common in severe acute respiratory syndrome coronavirus 2 and has been associated with arterial thrombosis leading to acute limb ischemia (ALI). Our objective was to determine the outcomes of concurrent coronavirus disease 2019 (COVID-19) infection and ALI, particularly during the Delta variant surge and the impact of vaccination status. METHODS: A retrospective review was performed of patients treated at a single health care system between March 2020 and December 2021 for ALI and recent (<14 days) COVID-19 infection or who developed ALI during hospitalization for the same disease. Patients were grouped by year as well as by pre and post Delta variant emergence in 2021 based on the World Health Organization timeline (January to May vs June to December). Baseline demographics, imaging, interventions, and outcomes were evaluated. A control cohort of all patients with ALI requiring surgical intervention for a 2-year period prior to the pandemic was used for comparison. Primary outcomes were in-hospital mortality and amputation-free survival. Kaplan-Meier survival and Cox proportional hazards analysis were performed. RESULTS: Forty acutely ischemic limbs were identified in 36 patients with COVID-19, the majority during the Delta surge (52.8%) and after the wide availability of vaccines. The rate of COVID-19-associated ALI, although low overall, nearly doubled during the Delta surge (0.37% vs 0.20%; P = .09). Intervention (open or endovascular revascularization vs primary amputation) was performed on 31 limbs in 28 individuals, with the remaining eight treated with systemic anti-coagulation. Postoperative mortality was 48%, and overall mortality was 50%. Major amputation following revascularization was significantly higher with COVID-19 ALI (25% vs 3%; P = .006) compared with the pre-pandemic group. Thirty-day amputation-free survival was significantly lower (log-rank P < .001). COVID-19 infection (adjusted hazard ratio, 6.2; P < .001) and age (hazard ratio, 1.1; P = .006) were associated with 30-day amputation in multivariate analysis. Severity of COVID-19 infection, defined as vasopressor usage, was not associated with post-revascularization amputation. There was a higher incidence of re-thrombosis in the latter half of 2021 with the Delta surge, as reintervention for recurrent ischemia of the same limb was more common than our previous experience (21% vs 0%; P = .55). COVID-19-associated limb ischemia occurred almost exclusively in non-vaccinated patients (92%). CONCLUSIONS: ALI observed with Delta appears more resistant to standard therapy. Unvaccinated status correlated highly with ALI occurrence in the setting of COVID-19 infection. Information of limb loss as a COVID-19 complication among non-vaccinated patients may help to increase compliance.

Clinical course of patients with chronic limb-threatening ischemia developing COVID-19.

BACKGROUND: The COVID-19 pandemic, caused by severe acute respiratory syndrome coronavirus 2, has overwhelmed healthcare systems. Patients with lower extremity artery disease are at high risk of cardiovascular events, of whom chronic limb-threatening ischemia (CLTI) is the most severe manifestation of peripheral artery disease with an increased risk of mortality compared to patients with intermittent claudication. However, the clinical course of CLTI patients with COVID-19 has not been reported. METHODS: We retrospectively surveyed clinical course for 25 CLTI patients who developed COVID-19 during the "sixth wave" of the pandemic in Japan, which started in January 2022. The primary outcome measure was the 30-day mortality after the diagnosis of COVID-19. We also compared the mortality risk of the 18 COVID-19 patients who underwent initial endovascular treatment with that of 1867 CLTI patients who received initial endovascular treatment before December 2019 (i.e. before the COVID-19 pandemic) (control group). Cox proportional hazard regression model was used to evaluate the effect of COVID-19 on the mortality. To confirm the robustness of these results, we added the analysis with inverse probability weighting (IPW) based on the propensity score for the COVID-19. RESULTS: The 30-day mortality after the diagnosis of COVID-19 reached 20 %; the 95 % confidence interval (CI) of the proportion was calculated to be 7 % to 41 % by the Clopper-Pearson exact method. Cox regression analysis demonstrated the mortality risk was significantly higher in patients developing COVID-19 than in control group [adjusted hazard ratio, 3.08 (95 % CI, 1.13-8.37); p = 0.027]. The IPW analysis also confirmed the significant association of COVID-19 with the mortality risk [hazard ratio, 3.97 (95 % CI 1.54-10.21, p = 0.004)]. CONCLUSION: In CLTI patients, the 30-day mortality after the diagnosis of COVID-19 reached 20 % (95 % CI, 7 % to 41 %) under the pandemic in January 2022, and patients developing COVID-19 had a significantly higher mortality risk than those treated before the pandemic.

Low serum albumin: A neglected predictor in patients with cardiovascular disease.

Albumin, the most abundant circulating protein in blood, is an essential protein which binds and transports various drugs and substances, maintains the oncotic pressure of blood and influences the physiological function of the circulatory system. Albumin also has anti-inflammatory, antioxidant, and antithrombotic properties. Evidence supports albumin's role as a strong predictor of cardiovascular (CV) risk in several patient groups. Its protective role extends to those with coronary artery disease, heart failure, hypertension, atrial fibrillation, peripheral artery disease or ischemic stroke, as well as those undergoing revascularization procedures or with aortic stenosis undergoing transcatheter aortic valve replacement, and patients with congenital heart disease and/or endocarditis. Hypoalbuminemia is a strong prognosticator of increased all-cause and CV mortality according to several cohort studies and meta-analyses in hospitalized and non-hospitalized patients with or without comorbidities. Normalization of albumin levels before discharge lowers mortality risk, compared with hypoalbuminemia before discharge. Modified forms of albumin, such as ischemia modified albumin, also has prognostic value in patients with coronary or peripheral artery disease. When albumin is combined with other risk factors, such as uric acid or C-reactive protein, the prognostic value is enhanced. Although albumin supplementation may be a plausible approach, its efficacy has not been established and in patients with hypoalbuminemia, priority is focused on diagnosing and managing the underlying condition. The CV effects of hypoalbuminemia and relevant issues are considered in this review. Large cohort studies and meta-analyses are tabulated and the physiologic effects of albumin and the deleterious effects of low albumin are pictorially illustrated.

Jetstream Atherectomy Followed by Paclitaxel-Coated Balloons versus Balloon Angioplasty Followed by Paclitaxel-Coated Balloons: Twelve-Month Exploratory Results of the Prospective Randomized JET-RANGER Study.

Background: It is unknown at this time whether Jetstream atherectomy (JET) and paclitaxel-coated balloon (PCB) provides a superior outcome to balloon angioplasty (PTA) followed by PCB in treating femoropopliteal (FP) arterial disease. Methods: The JET-RANGER study was a multicenter (eleven US centers) randomized trial, core lab-adjudicated, designed to demonstrate the superiority of JET + PCB versus PTA + PCB in treating FP arterial disease. The study intended to enroll 255 patients, but was stopped early because of poor enrollment due to COVID-19 and concerns about the association of paclitaxel with mortality. The data are thus considered exploratory. A total of 47 patients (48 lesions) with claudication (80.9%) or rest pain/ulcerations (19.2%) were randomly assigned 2:1 to JET + PCB (n=31) or PTA + PCB (n=16). The In.PACT (Medtronic) and Ranger (Boston Scientific) PCBs were used. Freedom from target-lesion revascularization (TLR) was evaluated at 1 year. Analysis was performed on intention to treat. Results: Mean lesion length was 10.8±4.3 cm for JET + PCB and 11.2±7.6 cm for PTA + PCB (P=0.858). There were no other differences in demographic or angiographic variables between the two groups. Procedural success was superior with JET + PCB (87.1%) vs PTA + PCB alone (52.9%; P=0.0147). Overall bailout stenting rate was 17% (0 JET + DCB versus 50% PCB, P<0.0001). There was no distal embolization requiring treatment. There was no amputation or death in either group. Using KM analysis, the primary end point of freedom from TLR (bailout stent considered a TLR) at 1 year was 100% and 43.8% (P<0.0001) for JET + PCB versus PTA + PCB, respectively. When bailout stent was not considered a TLR, freedom from TLR was 100% and 93.7%, respectively (P=0.327). Conclusion: A high rate of freedom from TLR was seen in the JET + PCB arm and the PTA + DCB arm at 1-year follow-up, with a significant reduction in bailout stenting following vessel prepping with the Jetstream.

The impact of the pandemic for COVID-negative vascular patients: analysis from the Italian epicenter.

BACKGROUND: To face the "first wave" of the pandemic (01/03/2020-15/05/2020), Lombardy's healthcare system was reorganized according to the "Hub-and-Spoke" model, and deferrable inpatient and outpatient activities were suspended. The limitations imposed by COVID-19, associated with patients' fear of presenting to medical attention, may have led to a delay in diagnosis and treatment of time-dependent pathologies. Our multicenter retrospective cohort study aims at analyzing the impact on COVID-negative patients of the shift of medical resources in Lombardy, the Italian epicenter of the pandemic. METHODS: Inclusion criteria were an age ≥18, COVID-negative condition, and referral to IRCCS Istituto Clinico Humanitas - Rozzano, Milan (Spoke Center) or IRCCS Ospedale San Raffaele - Milan (Hub Center) for acute vascular diseases requiring urgent treatment. SARS-CoV-2 infection, either on admission or during hospitalization, was the exclusion criterion. Data of the "first wave" were compared with the corresponding months of 2019, to highlight differences in vascular pathologies' case rates, clinical presentation, treatment type and post-treatment outcomes (mortality, rate of adverse events, primary and secondary clinical success and of amputation). RESULTS: Two hundred and two patients were treated for acute vascular diseases, 52 in 2019, 150 in 2020 (P<0.001). A later presentation to medical attention (4.3 versus 5.9 days after symptoms onset, P=0.03) and an increased need for urgent treatment for peripheral arterial disease (P=0.04) differentiated 2020. A higher number of peripheral arterial disease patients underwent major amputations (P=0.38). Access to post-surgical rehabilitation programs was restricted (P<0.001). CONCLUSIONS: During the first wave of COVID-19 pandemic, in the face of a radical health care rearrangement, no increase in mortality nor in post-operative adverse event rate was registered. Anyway, urgent hospitalizations for vascular disease increased, more specifically for peripheral ischemia, in which late presentation may have influenced an increase in amputation rate.

Evaluating the feasibility and acceptability of an exercise and behaviour change intervention in socioeconomically deprived patients with peripheral arterial disease: The textpad study protocol.

This pilot randomised controlled trial aims to assess the feasibility and acceptability of a 12-week home-based telehealth exercise and behavioural intervention delivered in socioeconomically deprived patients with peripheral artery disease (PAD). The study will also determine the preliminary effectiveness of the intervention for improving clinical and health outcomes. Sixty patients with PAD who meet the inclusion criteria will be recruited from outpatient clinic at the Freeman Hospital, United Kingdom. The intervention group will undergo telehealth behaviour intervention performed 3 times per week over 3 months. This program will comprise a home-based exercise (twice a week) and an individual lifestyle program (once per week). The control group will receive general health recommendations and advice to perform unsupervised walking training. The primary outcome will be feasibility and acceptability outcomes. The secondary outcomes will be objective and subjective function capacity, quality of life, dietary quality, physical activity levels, sleep pattern, alcohol and tobacco use, mental wellbeing, and patients' activation. This pilot study will provide preliminary evidence of the feasibility, acceptability and effectiveness of home-based telehealth exercise and behavioural intervention delivered in socioeconomically deprived patients with PAD. In addition, the variance of the key health outcomes of this pilot study will be used to inform the sample size calculation for a future fully powered, multicentre randomized clinical trial.

Early experience with venous arterialization for limb salvage in no-option patients with chronic limb-threatening ischemia.

OBJECTIVE: Chronic limb-threatening ischemia (CLTI) is associated with adverse limb outcomes and increased mortality. However, a small subset of the CLTI population will have no feasible conventional methods of revascularization. In such cases, venous arterialization (VA) could provide an alternative for limb salvage. The objective of the present study was to review the outcomes of VA at our institution. METHODS: We performed a single-institution review of 41 patients who had been followed up prospectively and had undergone either superficial or deep VA. The data collected included patient demographics, comorbidities, VA technique (endovascular vs hybrid), and WIfI (wound, ischemia, and foot infection) limb staging. Data were collected at 1-month, 6-month, and 1-year intervals and included the following outcomes: patency, wound healing, major adverse limb events, major amputation, and death. Descriptive statistics were used for analysis. RESULTS: The study group included 41 patients who had undergone successful open hybrid superficial or deep endovascular VA; 21 (51.2%) had undergone a purely endovascular procedure and 20 (48.8%), hybrid VA. The WIfI clinical stage was as follows: stage 4, 33 (80.5%); stage 3, 6 (14.6%); and stage 2, 1 (2.4%). Of the 41 patients, 24 (58.5%) had completed follow-up at 6 months and 16 (39%) at 1 year. At 1 year, the VA primary patency was 28.6% (95% confidence interval [CI], 0.15%-0.43%), primary assisted patency was 44.3% (95% CI, 0.27%-0.60%), and secondary patency was 67% (95% CI, 0.49%-0.80%). The complete wound healing rate was 2.7% (n = 1) at 1 month, 62.5% (n = 15) at 6 months, and 18.8% (n = 3) at 1 year. Overall wound healing at 1 year was 46.3% (n = 19). The number of major adverse limb events at 1 year was 15 (36.5%) and included 8 reinterventions (19.5%) and 7 major amputations (17%). The number of deaths was zero (0%) at 1 month and four (19%) at 6 months. Two deaths (9.5%) were attributed to COVID-19 (coronavirus disease 2019). No further deaths had occurred within 1 year. The limb salvage survival probability at 1 year was 81%. CONCLUSIONS: These findings suggest that for a select subset of CLTI patients presenting with a high WIfI clinical limb stage and no viable options for conventional open or endovascular arterial revascularization, superficial and deep VA are feasible options to achieve limb salvage.

COVID-19-related Peripheral Arterial Thrombosis Treated in a Large Health Maintenance Organization.

BACKGROUND: COVID-19 was initially identified as an acute respiratory disease, but it was quickly recognized that multiple organ systems could be affected. Venous thrombosis and pulmonary embolism have been well reported. However, there is a paucity of data on COVID-19-related arterial thrombosis. We examined the incidence, characteristics, treatment, and outcome in patients with acute COVID-19-related arterial thrombosis in a large health maintenance organization (HMO). METHODS: A retrospective multicenter case review was performed from March 2020 to March 2021. Cases were identified through a questionnaire sent to vascular surgeons. Patient characteristics, imaging, treatment, and outcome were reviewed. Successful revascularization was defined as restoration of blood flow with viability of the end organ and absence of death within 30 days. Limb salvage was defined as prevention of major amputation (transtibial or transfemoral) and absence of death in 30 days. RESULTS: There were 37,845 patients admitted with COVID-19 complications during this time. Among this group, 26 patients (0.07%) had COVID-19-related arterial thrombosis. The mean age was 61.7 years (range, 33-82 years) with 20 men (77%) and 6 women (23%). Ethnic minorities comprised 25 of 26 cases (96%). Peripheral arterial disease (PAD) was present in 4 of 26 (15%), active smoking in 1 of 26 (3.8%), and diabetes in 19 of 26 (73%) cases. Most patients developed acute arterial ischemia in the outpatient setting, 20 of 26 (77%). Of the outpatients, 6 of 20 (30%) had asymptomatic COVID-19 and 14 of 20 (70%) had only mild upper respiratory symptoms. Distribution of ischemia was as follows: 23 patients had at least one lower extremity ischemia, one patient had cerebral and lower extremity, one had mesenteric and lower extremity, and one had upper extremity ischemia. Revascularization was attempted in 21 patients, of which 12 of 21 (57%) were successful. Limb salvage was successful in 13 of 26 (50%) patients. The overall mortality was 31% (8/26). CONCLUSIONS: Our experience in a large HMO revealed that the incidence of COVID-19-related arterial thrombosis was low. The actual incidence is likely to be higher since our method of case collection was incomplete. The majority of arterial thrombosis occurred in the outpatient setting in patients with asymptomatic or mild/moderate COVID-19 respiratory disease. Acute ischemia was the inciting factor for hospitalization in these cases. Acute lower extremity ischemia was the most common presentation, and limb salvage rate was lower than that expected when compared to ischemia related to PAD. Arterial thrombosis associated with COVID-19 portends a significantly higher mortality. Education of primary care providers is paramount to prevent delayed diagnosis as most patients initially developed ischemia in the outpatient setting and did not have a high cardiovascular risk profile.

Safety and feasibility study of non-invasive robot-assisted high-intensity focused ultrasound therapy for the treatment of atherosclerotic plaques in the femoral artery: protocol for a pilot study.

INTRODUCTION: Peripheral arterial disease (PAD) is an atherosclerotic disease leading to stenosis and/or occlusion of the arterial circulation of the lower extremities. The currently available revascularisation methods have an acceptable initial success rate, but the long-term patency is limited, while surgical revascularisation is associated with a relatively high perioperative risk. This urges the need for development of less invasive and more effective treatment modalities. This protocol article describes a study investigating a new non-invasive technique that uses robot assisted high-intensity focused ultrasound (HIFU) to treat atherosclerosis in the femoral artery. METHODS AND ANALYSIS: A pilot study is currently performed in 15 symptomatic patients with PAD with a significant stenosis in the common femoral and/or proximal superficial femoral artery. All patients will be treated with the dual-mode ultrasound array system to deliver imaging-guided HIFU to the atherosclerotic plaque. Safety and feasibility are the primary objectives assessed by the technical feasibility of this therapy and the 30-day major complication rate as primary endpoints. Secondary endpoints are angiographic and clinical success and quality of life. ETHICS AND DISSEMINATION: Ethical approval for this study was obtained in 2019 from the Medical Ethics Committee of the University Medical Center Utrecht, the Netherlands. Data will be presented at national and international conferences and published in a peer-reviewed journal. TRIAL REGISTRATION NUMBER: NL7564.

The catastrophic impact of COVID-19 infection in patients with chronic limb-threatening ischemia.

BACKGROUND: To determine the impact of COVID-19 infection in patients with chronic limb-threatening ischemia, mainly the limb salvage estimates rate and the overall survival. METHODS: This was a retrospective, consecutive cohort study of chronic limb-threatening ischemia in patients with COVID-19 infection. RESULTS: Overall, 35 patients with chronic limb-threatening ischemia and COVID-19 infection were evaluated. The mean age of the patients was 72.51 years, and most of them were male (60%), with arterial hypertension (85.7%), followed by diabetes mellitus (80%) and tobacco user (71.4%). There was a higher prevalence of wound, ischemia and foot infection (WIfI) classification 4 with 58.8% and Rutherford grade 5 (74.3%). The factors related to overall mortality rate were: D-dimer >1,000 mg/dL (hazard ratio = 22.7, P < .001, confidence interval = 10.49-26.52), respiratory symptoms (hazard ratio = 16.6, P < .001, confidence interval = 9.87-20.90), chest computed tomography compromising higher than 50% of the pulmonary tract (hazard ratio = 16,0, P < .001, confidence interval = 10.41-20.55), acute kidney failure (hazard ratio = 21.58, P < .001, confidence interval = 16.5-30.5), chronic kidney disease (hazard ratio = 4.4, P = .036, confidence interval = 1.45-10.1), therapeutic anticoagulation (hazard ratio = 8.37, P = .004, confidence interval = 1.35-8.45), and WIfI classification (hazard ratio = 5.28, P = .022, confidence interval = 1.34-10.01). The following were related to limb loss: D-dimer >1,000 mg/mL (hazard ratio = 5.47, P = .02, confidence interval = 1.94-10.52), respiratory symptoms (hazard ratio = 5.42, P = .02, confidence interval = 1.87-10.90), and WIfI classification (hazard ratio = 4.44, P = .035, confidence interval = 1.34-8.01). CONCLUSION: This study concluded that COVID-19 has a catastrophic impact among patients with chronic limb-threatening ischemia. The main factors related to overall mortality were D-dimer >1,000 mg/dL, respiratory symptoms, chest computed tomography compromising higher than 50% of the pulmonary tract, acute kidney failure, chronic kidney disease, therapeutic anticoagulation, and WIfI classification. The factors related to limb loss were WIfI classification, D-dimer >1,000 mg/mL and respiratory symptoms.

Platelet reactivity testing in peripheral artery disease.

PURPOSE: Oral antiplatelet therapy is routinely used to prevent adverse cardiovascular events in patients with peripheral artery disease (PAD). Several laboratory tests are available to quantify the degree of platelet inhibition following antiplatelet therapy. This article aims to provide a review of the literature surrounding platelet functional testing in patients with PAD receiving oral P2Y12 inhibitors and to offer guidance to clinicians for the use and interpretation of these tests. SUMMARY: A literature search of PubMed and the Web of Science Core Collection database was conducted. All studies that performed platelet function testing and reported clinical outcomes in patients with PAD were included. Evaluation of the data suggests that, among the available testing strategies, the VerifyNow platelet reactivity unit (PRU) test is the most widely used. Despite numerous investigations attempting to define a laboratory threshold indicating suboptimal response to antiplatelet therapy, controversy exists about which PRU value best correlates with cardiovascular outcomes (ie, mortality, stent thrombosis, etc). In the PAD literature, the most commonly used PRU thresholds are 208 or higher and 235 or higher. Nonetheless, adjusting antiplatelet regimens based on suboptimal P2Y12 reactivity values has yet to be proven useful in reducing the incidence of adverse cardiovascular outcomes. This review examines platelet function testing in patients with PAD and discusses the interpretation and application of these tests when monitoring the safety and efficacy of P2Y12 inhibitors. CONCLUSION: Although platelet functional tests may be simple to use, clinical trials thus far have failed to show benefit from therapy adjustments based on test results. Clinicians should be cautioned against relying on this test result alone and should instead consider a combination of laboratory, clinical, and patient-specific factors when adjusting P2Y12 inhibitor therapy in clinical practice.