Ventilatory Ratio Identifies Organ Failure Risk in Covid-19 Ards Requiring Mechanical Ventilation

INTRODUCTION: Ventilatory ratio (VR) is a simple bedside index of carbon dioxide removal. VR correlates well with physiologic dead space fraction (VD/VT) and clinical outcomes in patients with acute respiratory distress syndrome (ARDS). We hypothesized that high VR would identify COVID-19 ARDS patients with higher risk for death and organ failure. METHOD(S): We conducted a retrospective cohort study of patients admitted to a single hospital in New York, NY, USA from March-July 2020 who had PCR-confirmed SARS-CoV-2 infection, met the Berlin criteria for ARDS, and required tracheostomy for prolonged invasive mechanical ventilation (MV). MV parameters were collected 2-8 hours after intubation. Based on prior studies, a VR>2 was considered to be abnormally elevated. Comparisons were performed using the Wilcoxon rank-sum test or z-test for difference in proportions with alpha=0.05. The primary outcome was 30- day mortality and the secondary outcome was a composite endpoint of death or organ failure defined as requiring renal replacement or extracorporeal membrane oxygenation (ECMO) during the hospitalization. RESULT(S): Of 139 subjects enrolled, 67 (48.2%) had a VR>2. Low and high VR groups had similar baseline characteristics, including age (mean 58 years, SD +/-15.2), body mass index (30.1+/-6.69 kg/m2), simplified acute physiology score II (35.4+/-12.4), sequential organ failure assessment (SOFA) score (5.7+/-2.5), and a 19-point review of systemic disease history. High VR was not significantly associated with mortality (OR 0.92, p=0.827). However, high VR was associated with increased risk for the composite endpoint (OR 1.96, p=0.049) and independently identified patients with a higher risk of organ failure (OR 2.03, p=0.047). High VR was also associated with longer hospital length-of-stay for subjects who survived to discharge (52 vs. 43, p=0.035), more MV-free days within the 30 days after intubation (3.2 vs. 1.8, p=0.029), and higher SOFA score at 10+/-4 days post-intubation (6.2 vs. 4.8, p=0.024). CONCLUSION(S): Ventilatory ratio identifies COVID-ARDS ventilated patients with increased risk for organ failure requiring advanced intervention, as well as patients who may require prolonged mechanical ventilation and hospitalization.

Comparison of the Prognostic Value of Pulmonary Dead Space Proxies in Covid-19 Ards Outcomes

INTRODUCTION: Mortality and morbidity associated with COVID-19 acute respiratory distress syndrome (ARDS) has been associated with pulmonary vasculopathy, which has been hypothesized to increase pulmonary dead space (VD/ VT). However, VD/VT is rarely measured at the bedside. As a result, multiple proxy estimates have been developed. Our hypothesis was proxy estimates for VD/VT would have differing utilities in prognostication of COVID-19 ARDS. METHOD(S): We conducted a retrospective cohort study of patients admitted to an intensive care unit with SARSCoV- 2 ARDS who required invasive mechanical ventilation. Ventilation parameters were collected 2-8 hours after intubation. The VD/Vt proxies examined were 1) ventilatory ratio (VR), 2) estimation of VD/VT using the Harris-Benedict equation for energy expenditure (VD/VT-HB), 3) direct estimation of VD/VT using Beitler et. al.'s formula (VD/VTDir), and 4) corrected minute ventilation (VECorr). For each proxy, subjects were dichotomized using the median value. Comparisons were performed using the Wilcoxon rank-sum test with alpha=0.05. RESULT(S): For 139 subjects, mean VR was 2.08 (SD+/-0.80), mean VD/VT-HB was 0.614 (+/-0.15), mean VD/VT-Dir was 0.657 (+/-0.08), and mean VECorr was 12.2 (+/-4.6) L/min. All four proxies had strong inter-measure correlation (Pearson's r 0.748-0.881, p< 0.001 for all comparisons). No proxy was predictive of 30-day hospital mortality. High VR and VECorr were associated with increased morbidity using a composite endpoint of death or organ failure (defined as requiring renal dialysis or extracorporeal membrane oxygenation) with both having an odds ratio of 2.20 (95% CI: 1.12-4.33, p=0.022), while VD/VT-HB (p=0.552) and VD/VT-Dir (p=0.554) were not significantly associated. Of all proxies, only VR was significantly associated with increased sequential organ failure assessment (SOFA) score at 10+/-4 days post-intubation (6.2 vs. 4.8, p=0.024) and more ventilatorfree days within the 30 days after intubation (3.2 vs. 1.8, p=0.029). CONCLUSION(S): Ventilatory ratio and corrected minute volume appear to have stronger associations with morbidity in COVID-19 ARDS compared to other VD/VT estimates. Ventilatory ratio is also associated with ventilator-free days and delayed SOFA score.

Influence of Inflammatory Markers and Acute Phase Reactants on Pulmonary Dead Space in Covid-19 Ards

INTRODUCTION: Ventilatory ratio (VR) is a bedside index of impaired ventilation that can be used as a surrogate marker for pulmonary dead space fraction (VD/VT). Vasculopathy is hypothesized to increase VD/VT in patients with acute respiratory distress syndrome (ARDS) due to COVID-19. The purpose of this study was to investigate associations between VR and markers of inflammation in critically ill COVID-ARDS patients. METHOD(S): We conducted a retrospective study of patients admitted to an intensive care unit due to SARS-CoV-2 infection. All subjects required invasive mechanical ventilation and met the Berlin criteria for ARDS. Clinical lab values were collected at two timepoints: 2-8 hours after intubation (T1) and 2-24 hours before tracheostomy (T2). VR was split into high (VR>2) and low (VR< 2) groups. Comparisons were performed using student's t, Mann-Whitney, and z tests for difference in proportions with alpha=0.05. RESULT(S): Of the 139 subjects enrolled at T1, 67 (48%) had high VR (>2), with an overall mean VR of 2.08. High VR was significantly associated with leukocyte count (WBC) (13.3 vs. 10.6 x10

Potential Benefit of Masking and Other COVID-19 Infection Prevention Measures on Late-onset Infectionsin theNICU

Background: The incidence of nosocomial blood stream infections (BSI) among NICU admissions remains high, with significant mortality and morbidity. Due to COVID-19, there are increased infection prevention (IP) measures in NICUs including universal masking for all healthcare workers and families, social distancing, visitation restrictions, and increased attention to hand hygiene. These measures may also affect late-onset infection rates and offer understanding of novel interventions for prevention. Methods: We examined infection rates from three neonatal centers during the 24 months prior to implementation of COVID-19 IP measures (PRE-period) compared to the months after implementation from April 2020 (POST-period). Late-onset infections were defined as cultureconfirmed infection of the blood, urine, and other sterile fluids or identification of respiratory viral pathogens. An interrupted time series analysis of infection per 1000 patient days was performed based on a change-point Poisson regression with a lagged dependent variable and the number of patient days used as offsets. Each month was treated as independent with additional analysis using an observation-driven model to account for serial dependence. Results: Multicenter analysis to date included all infants cared for at three centers (Level 3 and 4) from 2018-2020. Monthly BSI rates decreased in the POSTperiod at the three centers (Figure 1). At all centers actual BSI rate was lower than the expected rate in the POST-period (Figure 2). The combined BSI rate per 1000 patient days was 41% lower compared to the rate prior to implementation (95% CI, 0.42 to 0.84, P = 0.004). In subgroup analysis of BSI by birthweight, during the POST-period there was a 39% reduction in infants < 1000g (P = 0.023), a 44% decrease for 1000-1500g patients (P = 0.292) and a 53% decrease in those > 1500g (0.083). Examining single center data from the University of Virginia through March 2021, there was a 36% decrease in all late-onset infections (BSI, UTI, Viral, and peritonitis) (95% CI, 0.46 to 0.90, P=0.011). Conclusion: In this preliminary analysis, we found a reduction of BSI after the implementation of COVID-19 infection prevention measures. Additionally, there were fewer viral infections, though there were a limited number of episodes. Further analyses of multicenter data and a larger number of patients from all 12 centers of our study network will elucidate the significance of these findings and the role some of these IP measures, such as universal masking, may have in infection prevention in the NICU (Supported in part by Grant Funding from the Gerber Foundation).

Comparing Autopsy Thoracic Injury Patterns between In-Hospital CPR Patients Receiving LUCAS Device vs Manual Chest Compressions

Background: Current research comparing CPR-associated injuries between those receiving LUCAS device and manual CPR has primarily focused on patients who suffered out-of-hospital cardiac arrest. During the SARS-CoV-2 pandemic, more hospitals leveraged mechanical CPR devices to provide distant yet high quality chest compressions for in-hospital cardiac arrest (IHCA) patients. We sought to investigate autopsy thoracic injury patterns in in-hospital non-traumatic cardiac arrests, comparing traditional manual compressions with the mechanical LUCAS device compressions. Design: Autopsies were screened for a history of in-hospital cardiopulmonary resuscitation in the absence of prior traumatic injuries at a single, large quaternary care center from 1/1/2018 to 06/30/2021. 20 received LUCAS compressions and 40 received manual compressions. Student's T-Tests were used to compare means for continuous variables, while chi-squared and Fischer's exact tests were used for categorical variables. An alpha of 0.05 was chosen as the threshold for statistical significance. Results: A statistically significant decrease in the rate of sternal fractures and rate of multiple sternal fractures during mechanical CPR was found. A statistically significant increase in other soft tissue injuries, such as pleural wall or lung injuries was seen in mechanical CPR cases, while an increased rate of bilateral rib fractures was noted in manual compression cases. Conversely, no difference in the number or laterality of rib fractures were noted. There was no significant difference in age, biological sex, or rate of scoliosis or kyphosis between cohorts. Results are listed in table 1. (Table Presented) Little research has looked at the injury patterns of mechanical CPR in the IHCA patient population. These results point to a potential difference in thoracic injury patterns from manual compressions when compared to LUCAS device compressions. The statistically significant decrease in sternal fractures with mechanical compressions is noteworthy. Conversely, the increase in other soft tissue injury demands further examination. The decrease in bilateral rib fractures with LUCAS use suggests that placement of the device may play a role in the epidemiology of rib injuries, but not in the number of ribs injured. Further research should examine rib injuries in more detail, and quantify additional comorbidities in both survivors and non-survivors of cardiac arrest.

Migrating Media & Entertainment into the Cloud: A Real-World Perspective

On 31 August, SMPTE+ presented a seminar on migrating media into the cloud co-chaired by consultant Sally Hubbard and Deluxe senior vice president of innovation Richard Welsh. SMPTE executive director Barbara Lange and president Hans Hoffman opened the event, making note of the increased pace of migrating to the cloud as a result of the COVID-19 pandemic. The seminar focused on the challenges that remain, as the media & entertainment (M&E) industry continues with the migration. © 2002 Society of Motion Picture and Television Engineers, Inc.

Global pandemic, translocal medicine the Covid-19 diaries of a Tibetan physician in New York City

This article analyzes the audio diaries of a Tibetan physician, originally from Amdo (Qinghai Province, China), now living in New York City. Dr. Kunchog Tseten describes his experiences during the first wave of the COVID-19 pandemic, in spring and summer 2020, when Queens, New York—the location where he lives and works—was the “epicenter of the epicenter” of the novel coronavirus outbreak in the United States. The collaborative research project of which this diary is a part combines innovative methodological approaches to qualitative, ethnographic study during this era of social distancing with an attunement to the relationship between language, culture, and health care. Dr. Kunchog’s diary and our analysis of its contents illustrate the ways that Tibetan medicine and Tibetan cultural practices, including those emergent from Buddhism, have helped members of the Himalayan and Tibetan communities in New York City navigate this unprecedented moment with care and compassion. © Koninklijke Brill NV, Leiden, 2021.

Impaired ventilation is not independently associated with 28-day mortality in coronavirus disease 2019 (COVID19) acute respiratory distress syndrome (ARDS)

INTRODUCTION Surrogates for impaired ventilation such as estimated dead-space fractions and the ventilatory ratio are independently associated with an increased risk of mortality in the acute respiratory distress syndrome (ARDS) and small case series of COVID-19 related ARDS. METHODS This study aimed to quantify the dynamics and determine the prognostic value of surrogate markers of impaired ventilation in patients with COVID-19 related ARDS. The present study is a secondary analysis of the PRactice Of VENTilation in COVID-19 patients (PROVENT-COVID) in 22 intensive care unit hospitals in the Netherlands. Surrogates of impaired ventilation such as the estimated dead space fraction (by Harris-Benedict-VD/VT HB and direct method-VD/VT DIR), ventilatory ratio (VR), and end-tidal-to-arterial PCO2 ratio (PETCO2/PaCO2) were used. RESULTS 927 consecutive patients admitted with COVID-19 related ARDS were included in this study. Surrogates of impaired ventilation were significantly higher in non-survivors than survivors at baseline and during the following days of mechanical ventilation (p <0.001). As ARDS severity increased, mortality increased with successive tertiles for VD/VT HB and VD/VT DIR, and VR, and decreased with successive tertiles for PETCO2/PaCO2. Mortality over the first 28 days was higher in patients in the high group of dead space fraction by VD/VT HB (16.4% vs. 12.3%;p = 0.003), but similar in the groups considering the dead space fraction by VD/VT DIR (15.4% vs. 13.3%;p = 0.100), and VR (15.5% vs. 13.2%;p = 0.080) (Figure 2). After adjustment for a base risk model that included chronic comorbidities, ventilation and oxygenation parameters, none of the surrogates of impaired ventilation measured at the start of ventilation or the following days were significantly associated with 28-day mortality. CONCLUSION Surrogate markers for impaired ventilation are abnormal at the start of invasive ventilation in patients with COVID-19 related ARDS and worsen during consequent days. Ventilation impairment seems to be more extensive in non-survivors than in survivors, but they do not yield prognostic information when added to a baseline risk model. In the absence of bedside capnography, surrogates of impaired ventilation may serve as an important tool to assess the severity of COVID-19 related ARDS along with other variables such as oxygenation abnormalities and respiratory mechanics.

Cyanoacrylate embolization following egd resulting in fulminant hepatic failure in a patient with cirrhosis

INTRODUCTION: Esophagogastric varices are a common complication of portal hypertension and can present with life-threatening bleeding. Definitive endoscopic therapy is via band ligation or sclerotherapy. The former is preferred for esophageal varices, but efficacy is lower in gastric varices (GV). Sclerotherapy with cyanoacrylate (CA) has shown better efficacy and is now recommended as first line therapy for bleeding GV. Studies on long-term efficacy and complications remain limited. CASE DESCRIPTION/METHODS: A 62-year-old woman with NASH cirrhosis (MELD 11) presented with hematemesis. She denied any history of SBP, varices, or encephalopathy. She endorsed a previous history of COVID-19 and had reactive IgG but PCR probe for SARS-CoV-2 was negative. She underwent EGD and was found to have oozing GV along the lesser curvature, which were treated with 4cc of CA achieving hemostasis. The following night she had altered mentation and the blood lactate was increased to 7.2 mmol/L. AST and ALT were also increased. She received broad spectrum antibiotics, and a CT angiogram showed evidence of embolization of CA into the left lobe of the liver. On day 3 her level of consciousness declined and she was intubated for airway compromise. An MRCP confirmed the presence of CA within the left hepatic lobe with associated ischemia. The lactate increased to 20 mmol/L and the blood ammonia level to 700 mcg/dL, with MELD 45. Continuous hemodialysis was started for anuric renal failure. She underwent evaluation for liver transplantation, but cerebral edema and multiorgan failure with refractory acidosis occurred and she died on day 7. DISCUSSION: We present a case of GV treated with CA and the subsequent embolization of CA into the left lobe of the liver. This precipitated acute on chronic liver failure with features of fulminant hepatic failure (FHF) complicated by severe hyperammonemia, cerebral edema, multiorgan failure, and death. Although she had a recent diagnosis of COVID-19, the time course, relatively normal initial inflammatory markers, and imaging suggest that CA embolization was likely the injury that led to fulminant hepatic failure. Given the lack of case reports of CA embolization to the liver causing infarction and few cases to the brain or distant vessels, further research on its long-term safety is warranted. Another novel aspect to this case is the development of FHF in a patient with known cirrhosis.