key: cord-0772632-t8e9l60b authors: Chachkhiani, David; Isakadze, Marine; Villemarette-Pittman, Nicole R.; Devier, Deidre J.; Lovera, Jesus F. title: Altered mental status predicts length of stay but not death in a community-based cohort of hospitalized COVID-19 patients date: 2021-10-07 journal: Clin Neurol Neurosurg DOI: 10.1016/j.clineuro.2021.106977 sha: 3449cd374b7d7d257dd67808aef222a91283b6a2 doc_id: 772632 cord_uid: t8e9l60b INTRODUCTION: Altered Mental Status (AMS) is a common neurological complication in patients hospitalized with the diagnosis of COVID-19 (Umapathi et al., 2020; Liotta et al., 2020). Studies show that AMS is associated with death and prolonged hospital stay. In addition to respiratory insufficiency, COVID-19 causes multi-organ failure and multiple metabolic derangements, which can cause AMS, and the multi-system involvement could account for the prolonged hospital stay and increased mortality. In this study, we built on our previous publication (Chachkhiani et al., 2020) using a new, larger cohort to investigate whether we could reproduce our previous findings while addressing some of the prior study’s limitations. Most notably, we sought to determine whether AMS still predicted prolonged hospital stay and increased mortality after controlling for systemic complications such as sepsis, liver failure, kidney failure, and electrolyte abnormalities. OBJECTIVES: The primary purpose was to document the frequency of AMS in patients with COVID-19 at the time of presentation to the emergency room. Secondary aims were to determine: 1) if AMS at presentation was associated with worse outcomes as measured by prolonged hospitalization and death; and 2) if AMS remained a predictor of worse outcome after adjusting for concomitant organ failure and metabolic derangements. RESULTS: Out of 367 patients, 95 (26%) had AMS as a main or one of the presenting symptoms. Our sample has a higher representation of African Americans (53%) than the US average and a high frequency of comorbidities, such as obesity (average BMI 29.1), hypertension (53%), and diabetes (30%). Similar to our previous report, AMS was the most frequent neurological chief complaint. At their admission, out of 95 patients with AMS, 83 (88%) had organ failure or one of the systemic problems that could have caused AMS. However, a similar proportion (86%) of patients without AMS had one or more of these same problems. Age, race, and ethnicity were the main demographic predictors. African Americans had shorter hospital stay [HR1.3(1.0,1.7),p = 0.02] than Caucasians. Hispanics also had shorter hospital stay than non-Hispanics [HR1.6(1.2,2.1), p = 0.001]. Hypoxia, liver failure, hypernatremia, and kidney failure were also predictors of prolonged hospital stay. In the multivariate model, hypoxia, liver failure, and acute kidney injury were the remaining predictors of longer hospital stay, as well as people with AMS at baseline [HR0.7(0.6,0.9), p < 0.02] after adjusting for the demographic characteristics and clinical predictors. AMS at baseline predicted death, but not after adjusting for demographics and clinical variables in the multivariate model. Hypoxia and hyperglycemia at baseline were the strongest predictors of death. CONCLUSION: Altered mental status is an independent predictor of prolonged hospital stay, but not death. Further studies are needed to evaluate the causes of AMS in patients with COVID-19. studied cerebrospinal fluid (CSF) and imaging data in COVID-19 patients with encephalopathy and showed that only 1 out of 21 patients who underwent the CSF analysis had a positive CSF PCR test, and only a few had changes on neuroimaging 13 . An autopsy study from Columbia University showed minimal presence of the viral RNA and protein in the brain tissue 14 . In addition to respiratory insufficiency, COVID-19 causes multi-organ failure and multiple metabolic derangements 15 . Multiple organ failure can cause AMS, and the multi-system involvement could account for the prolonged hospital stay and increased mortality. In our current study, we built on our previous publication 9 using a new, larger cohort to investigate whether we could reproduce our previous findings while addressing some of the prior study's limitations. Most notably, we sought to determine whether AMS still predicted prolonged hospital stay and increased mortality after controlling for systemic complications such as sepsis, liver failure, kidney failure, and electrolyte abnormalities. The Louisiana Health Sciences Center -New Orleans Institutional Review Board and the University Medical Center Clinical Research Review Committee approved the study protocol. The primary purpose was to document the frequency of AMS in patients with COVID-19 at the time of presentation to the emergency room. Secondary aims were to determine: 1) if AMS at presentation was associated with worse outcomes as measured by prolonged hospitalization and death; and 2) if AMS remained a predictor of worse outcome after adjusting for concomitant organ failure and metabolic derangements. We reviewed the electronic medical records (EMR) of patients hospitalized from April 1, 2020, through July 31, 2020, at the University Medical Center New Orleans (UMCNO), who tested positive for SARS-CoV-2 during the same hospitalization. The EMR team generated a list of 368 patients admitted for COVID-19. Two neurology residents (DC, MI) reviewed the EMR in detail to capture the relevant medical history, clinical course, laboratory test results, and abstracted data into an electronic data collection spreadsheet. The residents extracted the dates of admission and the date of discharge or death from the medical record and whether the patients had SIRS, sepsis, hypoxia, hypertension, kidney injury, liver failure, hypoglycemia, hyperglycemia (glucose >200), hyponatremia, hypernatremia, hypercarbia, or postictal state at the time of admission. The Mdcalc.com calculators, which use the criteria from ACCP/SSCM, were used to determine the sepsis or SIRS (https://www.mdcalc.com). Imaging studies were not routinely gathered for admission for COVID-19. It was too rare to be included in the descriptives or the analysis. Age was grouped by decade (e.g. 20-29, 30-39, etc.). Hypoxia was defined as blood oxygen level <92; hypertension was defined as systolic >130, diastolic >80; liver failure was defined as AST >45, ALT >46; hypoglycemia was defined as glucose <70; hyperglycemia was defined as glucose >200; hyponatremia was defined as <135; hypernatremia was defined as >146; and hypercarbia was defined PaCO2 above 45 mm Hg on Arterial Blood Gas readings. All laboratory measurements were captured at the time of admission so intensive care unit (ICU) stay would not affect elevation of the liver function tests (LFTs). We used SAS and Microsoft Excel to generate summary tables. To analyze length of hospital stay or death, we fitted a competing risk proportional hazards model for time to discharge or death using the Proc Phreg 16 of the SAS® software, Version 9.4 for Windows. (Copyright © 2016 SAS Institute Inc. SAS and all other SAS Institute Inc. product or service names are registered trademarks or trademarks of SAS Institute Inc., Cary, NC, USA). The competing risks model allows the analysis of hospital stay, considering that censoring due to death is not random. For each model, we determined baseline demographic and clinical variables predictive of the outcomes and generated adjusted models. Out of 367 patients, 95 (26%) had AMS as a main or one of the presenting symptoms. Table 1 shows the demographic characteristics and comorbidities. Our sample has a higher representation of African Americans (53%) than the US average and a high frequency of comorbidities, such as obesity (average BMI 29.1), hypertension (53%), and diabetes (30%). Table 2 shows the most common neurological chief complaints. Similar to our previous report 9 , AMS was the most frequent neurological chief complaint. At their admission, out of 95 patients with AMS, 83 (88%) had organ failure or one of the systemic problems that could have caused AMS. However, a similar proportion (86%) of patients without AMS had one or more of these same problems. Sepsis was more common in patients with AMS (44%) compared to patients with no AMS (36%). Hypernatremia was more common in the AMS group than in the group without AMS (18% vs. 5%), while hyponatremia occurred less frequently (2% vs. 18%). Hypercarbia was rare, but occurred more frequently in those with AMS (5% vs. 1%), while hypoxia was common and occurred less frequently in those with AMS (33% AMS vs. 38%). Predictors of hospital stay Table 3 shows the results for the competing risks model for length of hospital stay. In this part of the analysis, discharge is the event of interest, and thus higher hazard ratios indicate a shorter hospital stay. There were very few Asians and Hawaiians, so we combined these race categories under the "other" category with those who had no race reported. Too few patients had a glucose<70, SIRS, hypercarbia, or a postictal state to analyze these variables. Age, race, and ethnicity were the main demographic predictors. African Americans had shorter hospital stay [HR1.3(1.0,1.7),p=0.02] than Caucasians. Hispanics also had shorter hospital stay than non-hispanics [HR1.6(1.2,2.1), p=0.001]. Former and current smokers had similar times to discharge than nonsmokers, but the group with unknown smoking status had significantly longer hospital stays [HR0.6 (0.4,0.8), p<0.001]. Hypoxia, liver failure, hypernatremia, and kidney failure were also predictors of prolonged hospital stay. Table 4 shows the results of the final multivariate model built after sequential stepwise selection. In this multivariate model, people with AMS at baseline had a more extended hospital stay [HR0.7(0.6,0.9),p<0.02] after adjusting for the demographic characteristics and clinical predictors. Hypoxia, liver failure, and acute kidney injury were also predictors of hospital stay. Predictors of death Tables 5 and 6 show the univariate and the final multivariate model for death. AMS at baseline predicted death in the univariate test, but not after adjusting for demographics and clinical variables. Hypoxia and hyperglycemia at baseline were the strongest predictors of death. The aim of this follow up study was to replicate the analyses we used in a previous study using an expanded number of subjects. To address a serious limitation in our first sample analysis, we also controlled for potential confounders which were unavailable during our previous analysis. In this sample, we still had a high number of African Americans (53%) however, it was a significantly lower portion as compared to our first study (80%). Interestingly, AMS remained the most common neurological chief complaint at presentation. In our first study, we found that AMS was a predictor of prolonged hospital stay and death, however, after controlling for covariables in this second study, AMS no longer predicted death. AMS did remain predictive of prolonged hospital stay. Lethargy did not predict death after accounting for the metabolic and systemic confounders. Although there is significant overlap in what clinicians consider AMS and lethargy, only AMS predicted prolonged hospital stay after accounting for the metabolic disarrangements and organ system failure. A possible explanation is that the patients that are altered but not lethargic may have direct brain dysfunction due to the virus instead of indirect brain dysfunction due to the systemic complications of the virus. This may also explain why AMS predicts length of stay, but not death. If AMS indicates a direct relationship between the virus and the brain, it may complicate recovery but not be associated with the systemic issues found among deaths from the COVID-19 virus. We noted that persons with "no documented smoking status" had a significantly longer hospital stay than those with known smoking status, including current or previous smokers and nonsmokers. While there could be a more complex reason for this finding, we hypothesize that patients who had no documented smoking status could have presented with more severe disease state, preventing the capture of smoking status. This retrospective analysis only included people who presented to the emergency room, had to be admitted, and tested positive for COVID-19. The patients were already "worse" than other people who tested positive but had mild symptoms or were asymptomatic. Thus, results cannot extend to patients discharged from the emergency room or seen as outpatients. Our sample had a high proportion of African Americans, persons with hypertension, and persons with diabetes. The results of our study may not generalize to populations with more diverse racial or ethnic backgrounds or with fewer comorbidities. Our analysis focused on the findings at admission because capturing AMS and comorbidities during every day of the hospital stay is challenging. It would be attractive to complete a day-today analysis of the mental status and the metabolic complications and use these as timedependent covariates to more accurately predict the time to discharge or death. We did not analyze other important outcomes, such as disability at discharge. Altered Mental Status is a nonspecific term. Ideally, we should use more specific terms, e.g delirium, or agitation. Given the nature of the study, we depended on the documentation available and this limitation was unavoidable. It is also debatable whether lethargy is AMS or not, which prompted us to report this complication in combination with AMS and separately. Baseline Hyperglycemia 0.0003 3.0(1.6,5.3) Table 6 Legend: CC: chief complaint; *To calculate race HR AA and "Other" were compared to Caucasians. **Other refers to individuals where race was not reported, Asians, and Hawaians Highlights  The most common neurological chief complaint in patients with COVID-19 is Altered Mental Status  Altered Mental Status is an independent predictor of prolonged hospital stay  Altered Mental Status does not predict death when controlled for covariables s_cid=10496:cdc%20covid%20vaccine:sem.ga:p:R G:GM:gen:PTN:FY21 The Advisory Committee on Immunization Practices' Interim Recommendation for Use of Pfizer-BioNTech COVID-19 Vaccine -United States A Novel Coronavirus from Patients with Pneumonia in China Neurologic Manifestations of Hospitalized Patients With Coronavirus Disease Neurological manifestations of COVID-19 and other coronavirus infections: A systematic review Neurologic Features in Severe SARS-CoV-2 Infection Encephalopathy in COVID-19 patients; viral, parainfectious, or both? eNeurologicalSci Frequent neurologic manifestations and encephalopathy-associated morbidity in Covid-19 patients Neurological complications in a predominantly African American sample of COVID-19 predict worse outcomes during hospitalization Altered mental status is an independent predictor of mortality in hospitalized COVID-19 patients Invited Review: The spectrum of neuropathology in COVID-19 Neuropathology of COVID-19 (neuro-COVID): clinicopathological update. 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