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Documenting the Recovery of Vascular Services in European Centres Following the Initial COVID-19 Pandemic Peak: Results from a Multicentre Collaborative Study
ObjectiveTo document the recovery of vascular services in Europe following the first COVID-19 pandemic peak.MethodsAn online structured vascular service survey with repeated data entry between 23 March and 9 August 2020 was carried out. Unit level data were collected using repeated questionnaires addressing modifications to vascular services during the first peak (March - May 2020, "period 1"), and then again between May and June ("period 2") and June and July 2020 ("period 3"). The duration of each period was similar. From 2 June, as reductions in cases began to be reported, centres were first asked if they were in a region still affected by rising cases, or if they had passed the peak of the first wave. These centres were asked additional questions about adaptations made to their standard pathways to permit elective surgery to resume.ResultsThe impact of the pandemic continued to be felt well after countries' first peak was thought to have passed in 2020. Aneurysm screening had not returned to normal in 21.7% of centres. Carotid surgery was still offered on a case by case basis in 33.8% of centres, and only 52.9% of centres had returned to their normal aneurysm threshold for surgery. Half of centres (49.4%) believed their management of lower limb ischaemia continued to be negatively affected by the pandemic. Reduced operating theatre capacity continued in 45.5% of centres. Twenty per cent of responding centres documented a backlog of at least 20 aortic repairs. At least one negative swab and 14 days of isolation were the most common strategies used for permitting safe elective surgery to recommence.ConclusionCentres reported a broad return of services approaching pre-pandemic "normal" by July 2020. Many introduced protocols to manage peri-operative COVID-19 risk. Backlogs in cases were reported for all major vascular surgeries
Income deprivation and groin wound surgical site infection: cross-sectional analysis from the groin wound infection after vascular exposure multicenter cohort study
Background: Living in deprived areas is associated with poorer outcomes after certain vascular procedures and surgical site infection in other specialties. Our primary objective was to determine whether living in more income-deprived areas was associated with groin wound surgical site infection after arterial intervention. Secondary objectives were to determine whether living in more income-deprived areas was associated with mortality and clinical consequences of surgical site infection.
Methods: Postal code data for patients from the United Kingdom who were included in the Groin Wound Infection after Vascular Exposure (GIVE) multicenter cohort study was used to determine income deprivation, based on index of multiple deprivation (IMD) data. Patients were divided into three IMD groups for descriptive analysis. Income deprivation score was integrated into the final multivariable model for predicting surgical site infection.
Results: Only patients from England had sufficient postal code data, analysis included 772 groin incisions (624 patients from 22 centers). Surgical site infection occurred in 9.7% incisions (10.3% of patients). Surgical site infection was equivalent between income deprivation tertiles (tertile 1 = 9.5%; tertile 2 = 10.3%; tertile 3 = 8.6%; p = 0.828) as were the clinical consequences of surgical site infection and mortality. Income deprivation was not associated with surgical site infection in multivariable regression analysis (odds ratio [OR], 0.574; 95% confidence interval [CI], 0.038–8.747; p = 0.689). Median age at time of procedure was lower for patients living in more income-deprived areas (tertile 1 = 68 years; tertile 2 = 72 years; tertile 3 = 74 years; p < 0.001).
Conclusions: We found no association between living in an income-deprived area and groin wound surgical site infection, clinical consequences of surgical site infection and mortality after arterial intervention. Patients living in more income-deprived areas presented for operative intervention at a younger age, with similar rates of comorbidities to patients living in less income-deprived areas.
Groin wound surgical site infection (SSI) after arterial surgery is common [1], and research into reducing SSIs in vascular surgery is recognized as a priority by both clinicians and patient/caregiver representatives [2]. Despite the substantial potential morbidity and mortality of these SSIs [3,4], the available evidence relating to contributory factors is largely historic or reliant on retrospective data [5–7]. Further research on the epidemiology of SSI in this patient group is needed to allow better risk stratification, improve pre-operative discussions of risk with patients, and to guide targeted SSI prevention strategies that often include expensive prophylactic interventions [8]. However, little is currently known about the impact of socioeconomic characteristics on groin wound SSIs in this population.
Socioeconomic deprivation is linked to health [9], and lifestyle-influenced cardiovascular diseases are more prevalent in more deprived areas [10]. Higher rates of unhealthy lifestyles (smoking, poor diet, and lack of physical exercise) in deprived areas are postulated to cause higher rates of cardiovascular risk increasing comorbidities, such as obesity and hyperlipidemia [10–12]. Several cardiovascular risk factors (e.g., smoking, body mass index, and diabetes mellitus), and peripheral arterial disease itself, are well recognized risk factors for SSI [13–16]. The association between socioeconomic deprivation and SSIs has previously been demonstrated in orthopedic surgery, cardiac surgery, and general surgery [17–19]. It is currently unknown whether living in an income-deprived area is associated with groin wound SSIs after arterial intervention.
It was recently demonstrated in a large registry study in the United Kingdom, that outcomes following endovascular intervention for occlusive peripheral arterial disease were worse for patients living in deprived areas [20]. To the best of our knowledge, this aspect of outcomes after arterial intervention through a groin incision has not been investigated. Furthermore, studies demonstrating higher prevalence of cardiovascular disease risk factors in more deprived areas are now mostly historic and have not specifically investigated those presenting for arterial intervention through a groin incision for demographic differences in relation to deprivation [9–12]. Updated, prospective evidence is required to determine whether health inequalities persist for such patients today.
Our primary objective was to determine whether residing in a more income-deprived area was associated with a higher risk of groin wound SSI after arterial intervention, by analyzing a subset of patients enrolled in the Groin wound Infection after Vascular Exposure (GIVE) multicenter cohort study [1,21]. Secondary objectives were to determine whether living in more income-deprived areas was associated with 30-day mortality and the clinical sequelae of SSI, and whether patients living in more income-deprived areas differed in terms of demographics and comorbidities compared with patients from less income-deprived areas