key: cord-0738084-mwl7jdh7
authors: Reddy, Sujan T.; Satani, Nikunj; Beauchamp, Jennifer E. S.; Selvaraj, Sudhakar; Rajan, Suja S.; Rahbar, Mohammad H.; Tahanan, Amirali; Kim, Sori; Holder, Travis; Jiang, Xiaoqian; Chen, Luyao; Kamal, Haris; Indupuru, Hari Kishan R.; Wu, Tzu‐Ching; Savitz, Sean I.
title: A meta‐analysis of the global impact of the COVID‐19 pandemic on stroke care & the Houston Experience
date: 2021-02-22
journal: Ann Clin Transl Neurol
DOI: 10.1002/acn3.51322
sha: c058b048a0e8d0082cad4c8efd586cf8bfbca012
doc_id: 738084
cord_uid: mwl7jdh7

OBJECTIVE: To review the global impact of the COVID‐19 pandemic on stroke care‐metrics and report data from a health system in Houston. METHODS: We performed a meta‐analysis of the published literature reporting stroke admissions, intracerebral hemorrhage (ICH) cases, number of thrombolysis (tPA) and thrombectomy (MT) cases, and time metrics (door to needle, DTN; and door to groin time, DTG) during the pandemic compared to prepandemic period. Within our hospital system, between January–June 2019 and January–June 2020, we compared the proportion of stroke admissions and door to tPA and MT times. RESULTS: A total of 32,640 stroke admissions from 29 studies were assessed. Compared to prepandemic period, the mean ratio of stroke admissions during the pandemic was 70.78% [95% CI, 65.02%, 76.54%], ICH cases was 83.10% [95% CI, 71.01%, 95.17%], tPA cases was 81.74% [95% CI, 72.33%, 91.16%], and MT cases was 88.63% [95% CI, 74.12%, 103.13%], whereas DTN time was 104.48% [95% CI, 95.52%, 113.44%] and DTG was 104.30% [95% CI, 81.99%, 126.61%]. In Houston, a total of 4808 cases were assessed. There was an initial drop of ~30% in cases at the pandemic onset. Compared to 2019, there was a significant reduction in mild strokes (NIHSS 1‐5) [N (%), 891 (43) vs 635 (40), P = 0.02]. There were similar mean (SD) (mins) DTN [44 (17) vs 42 (17), P = 0.14] but significantly prolonged DTG times [94 (15) vs 85 (20), P = 0.005] in 2020. INTERPRETATION: The COVID‐19 pandemic led to a global reduction in stroke admissions and treatment interventions and prolonged treatment time metrics.

The coronavirus (COVID-19) pandemic has impacted many facets of healthcare worldwide and disrupted essential services. There are increasing reports on reduced acute stroke evaluations and admissions, prolonged symptom onset to hospital arrivals, and delays in the administration of time-sensitive treatments for acute ischemic stroke (AIS), including intravenous thrombolysis (tPA), and mechanical thrombectomy (MT). 1 the virus transmission in the community have been postulated as causes of decreasing stroke admissions. 2 In this systematic review and meta-analysis of the literature, we compare the global impact of the COVID-19 pandemic on stroke care compared to the prepandemic period, and additionally, we report our experience from a Houston-based healthcare system encompassing 10 hospitals.

We conducted this systematic review in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-analysis guidelines (PRISMA). 3 The authors declare that all supporting data are publicly available and appropriately cited in this article. The study protocol has been published in the International Prospective Register of Ongoing Systematic Reviews PROSPERO (CRD42020218130).

Observational cohort studies (prospective and retrospective) suitable for inclusion in the review were identified through an independent search by the Texas Medical Library (TH) of the databases PubMed and Embase. The following keywords were used in all database searches: "COVID" or "COVID-19" or "SARS-CoV-2" or "coronavirus" or "pandemic" AND "stroke" or "cerebrovascular disease" or "Ischemic Stroke" or "intracerebral hemorrhage" or "intracranial hemorrhage" or "Stroke admissions" or "Stroke epidemiology" or "Stroke care" or "Stroke metrics", restricted to the English language. The last literature search was performed on November 13, 2020. The complete search algorithm used in the search is available in the supplement (Supplementary Methods). Reference lists of included articles were screened for potential studies missed by the initial search. Case reports and surveys, cross-sectional studies, and non-English language articles were excluded from consideration. The search results were screened by independent researchers (SR and NS) in a blinded fashion using Rayyan software for systematic reviews 4 and disagreements resolved via consensus of the two authors. Observational studies reporting impact of the COVID-19 pandemic on stroke care (AIS and ICH) were considered eligible and were included in the present systematic review.

Quality control and bias identification in included studies were performed by two independent reviewers who were involved in the screening (SR and NS) with the use of the "The Joanna Briggs Institute (JBI) Critical Appraisal Checklist for analytical cross-sectional study". 5 All conflicts were resolved via consensus agreement between the two authors.

Our predefined primary outcome measure was stroke admission rates during the COVID-19 pandemic compared to the historical period (either time period immediately preceding the pandemic time frame or a corresponding time period from the previous year). We also assessed the impact of the COVID-19 pandemic on the number of tPA and MT cases and corresponding time metrics, including door to needle times (DTN) and door to thrombectomy times (DTG) and intracerebral hemorrhage (ICH) cases.

Studies with a similar time frame between the study period and comparison period and available daily counts of stroke admissions for both periods were included in the meta-analysis. We compared six criteriatotal admissions, tPA cases, MT cases, time metrics (DTN and DTG), and ICH cases of the study period with those from the comparison prepandemic period. As estimated values of some ratios have exceeded 1, we excluded the estimation of variance for each study and focused on the estimation of average for ratios in these six criteria. Based on each study's ratios, we estimated the weighted sum and variance using the number of centers as weights. As variance does not exist within the study level, homogeneity of variance test was not performed and funnel plots were not displayed.

The institutional review board approved the study and a waiver of consent was granted. We retrospectively analyzed data obtained from our stroke registry, which captured demographic and quality of care data on all stroke and suspected stroke patients admitted directly or transferred to any of the 10 hospitals, including four comprehensive stroke centers (CSC) within our health system based in the Greater Houston region. We assessed all stroke admissions, including ischemic AIS and ICH cases seen between January and June 2019, and compared with stroke admissions between January and June 2020.

Demographic data including age, gender, race/ethnicity, and clinical data including time of last known well (LKW), time of hospital arrival, direct admission versus transfer status, use of tPA or MT, and time metrics associated with treatment (DTN and DTG) and discharge disposition (inpatient rehabilitation, skilled nursing facility, home, and hospice) were assessed.

We compared demographic and clinical characteristic of the two group of stroke patients admitted from January to June 2019 and those admitted from January to June in 2020. As part of descriptive analyses, continues variables were summarized using mean and standard deviation (SD) or median and interquartile range (IQR). Categorical variables were summarized using frequency counts and percentages. Formal testing hypotheses were performed to compare the two distributions of the measurements between the two time periods. For normally distributed continuous variables, we used a two-sample ttest and Wilcoxon Rank-sum test when the distribution was not normal. To compare the proportions between the two groups of stroke patients, we used Logistic regression models. All analyses were performed at 5% level of significant using SAS 9.4 (SAS institute Inc., Cary, NC).

A total of 52 studies reporting the impact of the COVID-19 pandemic on stroke admissions were identified for qualitative synthesis. A total of 32,640 stroke admissions from 29 studies 6-34 were included in the meta-analysis ( Figure 1 ) (Supplementary Table S1 ) based on a similar time frame of the study period and comparison period, of which ratios were derived, depending on each criterion data availability. Compared to the prepandemic period, the mean ratio of stroke admissions during the pandemic was 70. 

After an initial drop of nearly 30% in case volumes at the pandemic onset (Figure 3) , when compared to 2019, there was a 14% reduction in overall stroke admissions during the study period in 2020 ( Table 1 ). The reduced volumes were observed irrespective of the hospital's stroke certification status, both at the primary and CSCs. (Table 1 ).

In terms of discharge disposition, differences were noted only in the ICH subgroup between the two time periods. There was a significantly fewer number of ICH patients discharged to an inpatient rehabilitation facility 

In this systematic review, we summarize published reports of the impact of the COVID-19 pandemic on stroke admissions and care. Overall, globally, there was~29% reduction in stroke admissions compared to the prepandemic period, including~17% reduction in ICH cases. Moreover, there were fewer treatment interventions, with thrombolysis administration reduced by 18% and thrombectomy interventions by 11%. Additionally, there were prolonged treatment times with an increase in door to needle and groin times by 4%. We added data from our region because Houston became a major global epicenter for COVID-19 in the time period studied. Our findings of reduced overall stroke admissions across 10 hospitals by~30% during the pandemic onset and prolonged mechanical thrombectomy treatment times within a large healthcare system in the greater Houston region during the COVID-19 pandemic are consistent with prior published literature from various stroke centers across the world. There was a transient increase in admissions before the 'second wave' of the pandemic in April-May 2020 ( Figure 3) . Moreover, similar to prior studies, we noticed 9, 30, 35 but there was no difference in last known well to hospital arrival or the number of cases treated with thrombolysis and thrombectomy in our cohort. 8, 19 A number of reasons have been postulated to explain the reduced stroke admissions witnessed during the ongoing pandemic. Fear of acquiring the virus through community transmission, particularly in a healthcare setting, likely deters patients with milder strokes from seeking medical attention. 36 Additionally, governmental lockdowns to restrict public movement and community spread hinder access to healthcare systems, and as evidenced by our results, the steepest drop in admissions occurred in the third week of March 2020 when the state of Texas issued lockdown orders. Even though our results do not indicate increased time lapses between last known well and hospital arrival, in the future, when issuing statewide or nationwide mandates, it is crucial to simultaneously incorporate public awareness to encourage patients to seek timely medical care for emergent conditions like stroke and myocardial infarction which are treatable with time-sensitive treatments. Taking the treatment to the patient with mobile stroke units can be a defining strategy during such crises in the future. Also, telehealth clinics for mild stroke and transient ischemic attacks should be considered.

Our results from Houston show the number of in-hospital stroke alerts and evaluations were significantly lower during the pandemic than the previous year. It is possible that with increasing COVID-19 cases admitted to the hospital and the requirement of extensive, time-consuming donning and doffing of personal protective equipment, hospital staff were not as frequently evaluating patients as they would have otherwise done. Consequently, fewer neurological changes were being detected, and few stroke alerts being called. Additionally, elective surgical procedures across hospitals were suspended during the pandemic. With fewer operative patients, there could have been fewer postoperative complications, particularly cardiovascular procedures which account for most of the in-hospital stroke alerts. We also noticed a decline in the number of patients transferred to our tertiary referral centers. The likely explanation was that volumes were reduced across the board in referring community hospitals as well, as has been seen elsewhere. 37 Moreover, tertiary centers in Houston were running at capacity, and there were possibly more transfer request denials due to hospital diversions due to lack of beds than the preceding years. Coordination among the hospital leadership and implementation of policies to assign and allocate resources for stroke patients in a future pandemic is vital. 38, 39 The prolonged door to thrombectomy times in our systematic analyses and in our Houston cohort is of growing concern. 40 The reasons for delay may include delayed recognition of large vessel occlusions in the emergency room due to restructuring of emergency care teams including the endovascular team members (nursing staff and anesthesiologists) to care for the overwhelming number of COVID-19 patients. Additional back-up teams can be employed to prevent logistical delays. Whether the delay in treatment affects short-and long-term outcomes in patients treated during the peak of the pandemic remains to be seen.

ICH patients are known to have worse functional outcomes compared to ischemic stroke patients. 41 Expectedly, the length of stay in the ICH cohort in Houston was longer than the ischemic subtype. Moreover, with rehabilitation and nursing facilities being at capacity during the pandemic and requiring negative COVID screening results before accepting hospital discharges, fewer patients were being discharged to inpatient rehabilitation. Our systematic review has certain limitations. First, the included studies considerably varied in their comparator groups, with some comparing stroke admissions during the pandemic to the corresponding time period from the preceding years, whereas others are comparing admissions with the immediate prepandemic time frame. Moreover, there is considerable variation in the centers' certification status with some reports from primary stroke centers and others from comprehensive stroke centers and hospital systems, leading to potential publication bias. Smaller centers are more likely to run at capacity from COVID-19 nonstroke admissions and, as a result, have reduced stroke admissions. We have not taken population density into account, which can also affect stroke prevalence rates in a region.

COVID-19 pandemic has globally impacted stroke care and led to reduced overall stroke admissions (Figure 4 ), particularly mild stroke admissions and led to delays in stroke treatment. Public health awareness to encourage patients to seek medical attention and restructuring and adequate resource allocation is needed to avoid delays in treatment and subsequent disability. Identifying reasons to mitigate these findings is crucial for the ongoing and future pandemic preparedness.

Additional supporting information may be found online in the Supporting Information section at the end of the article.

Supplementary Material. Search strategy for systematic review. Supplementary Table S1 . Comparison of 29 studies on 6 criteria (total admissions, thrombolysis (tPA) cases, thrombectomy (MT) cases, tPA metrics (tPA door to needle, DTN time), and MT metrics (door to groin, DTG)) of study period with those from the comparison period. Supplementary Figure S1 . Comparison of intracerebral hemorrhage (ICH) cases between study period and comparison period. Supplementary Figure S2 . Comparison of thrombolysis (tPA) cases between study period and comparison period. Supplementary Figure S3 . Comparison of mechanical thrombectomy (MT) cases between study period and comparison period. Supplementary Figure S4 . Comparison of thrombolysis (tPA) door to needle (DTN) time between study period and comparison period. Supplementary Figure S5 . Comparison of door to groin (DTG) between study period and comparison period. Supplementary Figure S6 . Summary statistics of all ratios from each criterion between study period and comparison period.

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