Browsing by Author "Murthy, Srinivas"
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Item Open Access Early short course of neuromuscular blocking agents in patients with COVID-19 ARDS: a propensity score analysis(2022-05-17) Li Bassi, Gianluigi; Gibbons, Kristen; Suen, Jacky Y.; Dalton, Heidi J.; White, Nicole; Corley, Amanda; Shrapnel, Sally; Hinton, Samuel; Forsyth, Simon; Laffey, John G.; Fan, Eddy; Fanning, Jonathon P.; Panigada, Mauro; Bartlett, Robert; Brodie, Daniel; Burrell, Aidan; Chiumello, Davide; Elhazmi, Alyaa; Esperatti, Mariano; Grasselli, Giacomo; Hodgson, Carol; Ichiba, Shingo; Luna, Carlos; Marwali, Eva; Merson, Laura; Murthy, Srinivas; Nichol, Alistair; Ogino, Mark; Pelosi, Paolo; Torres, Antoni; Ng, Pauline Y.; Fraser, John F.Abstract Background The role of neuromuscular blocking agents (NMBAs) in coronavirus disease 2019 (COVID-19) acute respiratory distress syndrome (ARDS) is not fully elucidated. Therefore, we aimed to investigate in COVID-19 patients with moderate-to-severe ARDS the impact of early use of NMBAs on 90-day mortality, through propensity score (PS) matching analysis. Methods We analyzed a convenience sample of patients with COVID-19 and moderate-to-severe ARDS, admitted to 244 intensive care units within the COVID-19 Critical Care Consortium, from February 1, 2020, through October 31, 2021. Patients undergoing at least 2 days and up to 3 consecutive days of NMBAs (NMBA treatment), within 48 h from commencement of IMV were compared with subjects who did not receive NMBAs or only upon commencement of IMV (control). The primary objective in the PS-matched cohort was comparison between groups in 90-day in-hospital mortality, assessed through Cox proportional hazard modeling. Secondary objectives were comparisons in the numbers of ventilator-free days (VFD) between day 1 and day 28 and between day 1 and 90 through competing risk regression. Results Data from 1953 patients were included. After propensity score matching, 210 cases from each group were well matched. In the PS-matched cohort, mean (± SD) age was 60.3 ± 13.2 years and 296 (70.5%) were male and the most common comorbidities were hypertension (56.9%), obesity (41.1%), and diabetes (30.0%). The unadjusted hazard ratio (HR) for death at 90 days in the NMBA treatment vs control group was 1.12 (95% CI 0.79, 1.59, p = 0.534). After adjustment for smoking habit and critical therapeutic covariates, the HR was 1.07 (95% CI 0.72, 1.61, p = 0.729). At 28 days, VFD were 16 (IQR 0–25) and 25 (IQR 7–26) in the NMBA treatment and control groups, respectively (sub-hazard ratio 0.82, 95% CI 0.67, 1.00, p = 0.055). At 90 days, VFD were 77 (IQR 0–87) and 87 (IQR 0–88) (sub-hazard ratio 0.86 (95% CI 0.69, 1.07; p = 0.177). Conclusions In patients with COVID-19 and moderate-to-severe ARDS, short course of NMBA treatment, applied early, did not significantly improve 90-day mortality and VFD. In the absence of definitive data from clinical trials, NMBAs should be indicated cautiously in this setting.Item Open Access Perioperative antibiotics in pediatric cardiac surgery: protocol for a systematic review(2017-05-30) Anand, Vijay; Bates, Angela; Featherstone, Robin; Murthy, SrinivasAbstract Background Post-operative infections in pediatric cardiac surgery are an ongoing clinical challenge, with rates between 1 and 20%. Perioperative antibiotics remain the standard for prevention of surgical-site infections, but the type of antibiotic and duration of administration remain poorly defined. Current levels of practice variation through informal surveys are very high. Rates of antibiotic-resistant organisms are increasing steadily around the world. Methods/design We will identify all controlled observational studies and randomized controlled trials examining prophylactic antibiotic use in pediatric cardiac surgery. Data sources will include MEDLINE, EMBASE, CENTRAL, and proceedings from recent relevant scientific meetings. For each included study, we will conduct duplicate independent data extraction, risk of bias assessment, and evaluation of quality of evidence using the GRADE approach. Discussion We will report the results of this review in agreement with the PRISMA statement and disseminate our findings at relevant critical care and cardiology conferences and through publication in peer-reviewed journals. We will use this systematic review to inform clinical guidelines, which will be disseminated in a separate stand-alone publication. Study registration number PROSPERO CRD42016052978CItem Open Access Rapid normalization of vitamin D deficiency in PICU (VITdALIZE-KIDS): study protocol for a phase III, multicenter randomized controlled trial(2024-09-19) O’Hearn, Katie; Menon, Kusum; Albrecht, Lisa; Amrein, Karin; Britz-McKibbin, Philip; Cayouette, Florence; Choong, Karen; Foster, Jennifer R.; Fergusson, Dean A.; Floh, Alejandro; Fontela, Patricia; Geier, Pavel; Gilfoyle, Elaine; Guerra, Gonzalo G.; Gunz, Anna; Helmeczi, Erick; Khamessan, Ali; Joffe, Ari R.; Lee, Laurie; McIntyre, Lauralyn; Murthy, Srinivas; Parsons, Simon J.; Ramsay, Tim; Ryerson, Lindsay; Tucci, Marisa; McNally, DayreAbstract Background The rate of vitamin D deficiency (VDD) in critically ill children worldwide has been estimated at 50%. These children are at risk of multiple organ dysfunction, chronic morbidity, and decreased health related quality of life (HRQL). Pediatric and adult ICU clinical trials suggest that VDD is associated with worse clinical outcomes, although data from supplementation trials are limited and inconclusive. Our group’s phase II multicenter dose evaluation pilot study established the efficacy and safety of an enteral weight-based cholecalciferol loading dose to rapidly restore vitamin D levels in critically ill children. Methods Our aim is to evaluate the impact of this dosing regimen on clinical outcomes. VITdALIZE-KIDS is a pragmatic, phase III, multicenter, double-blind RCT aiming to randomize 766 critically ill children from Canadian PICUs. Participants are randomized using a 1:1 scheme to receive a single dose at enrollment of enteral cholecalciferol (10,000 IU/kg, max 400,000 IU) or placebo. Eligibility criteria include critically ill children aged newborn (> 37 weeks corrected gestational age) to < 18 years who have blood total 25-hydroxyvitamin D < 50 nmol/L. The primary objective is to determine if rapid normalization of vitamin D status improves HRQL at 28 days following enrollment. The secondary objective is to evaluate the impact of rapid normalization of vitamin D status on multiple organ dysfunction. The study includes additional tertiary outcomes including functional status, HRQL and mortality at hospital discharge and 90 days, PICU and hospital length of stay, and adverse events related to vitamin D toxicity. Additionally, we are performing comprehensive vitamin D speciation and non-targeted metabolite profiling as part of a sub-study for the first 100 participants from whom an enrollment and at least one post-intervention blood and urine sample were obtained. Discussion The VITdALIZE-KIDS trial is the first phase III, multicenter trial to evaluate whether rapid normalization of vitamin D status could represent a simple, inexpensive, and safe means of improving outcomes following pediatric critical illness. Recruitment was initiated in June 2019 and is expected to continue to March 2026. Trial registration Clinicaltrials.gov, NCT03742505. Study first submitted on November 12, 2018 https://clinicaltrials.gov/study/NCT03742505Item Open Access Restricted visitation policies in acute care settings during the COVID-19 pandemic: a scoping review(2021-09-25) Moss, Stephana J.; Krewulak, Karla D.; Stelfox, Henry T.; Ahmed, Sofia B.; Anglin, Melanie C.; Bagshaw, Sean M.; Burns, Karen E. A.; Cook, Deborah J.; Doig, Christopher J.; Fox-Robichaud, Alison; Fowler, Robert; Hernández, Laura; Kho, Michelle E.; Kredentser, Maia; Makuk, Kira; Murthy, Srinivas; Niven, Daniel J.; Olafson, Kendiss; Parhar, Ken K. S.; Patten, Scott B.; Rewa, Oleksa G.; Rochwerg, Bram; Sept, Bonnie; Soo, Andrea; Spence, Krista; Spence, Sean; Straus, Sharon; West, Andrew; Parsons Leigh, Jeanna; Fiest, Kirsten M.Abstract Background Restricted visitation policies in acute care settings because of the COVID-19 pandemic have negative consequences. The objective of this scoping review is to identify impacts of restricted visitation policies in acute care settings, and describe perspectives and mitigation approaches among patients, families, and healthcare professionals. Methods We searched Medline, Embase, PsycINFO, Healthstar, CINAHL, Cochrane Central Register of Controlled Trials on January 01/2021, unrestricted, for published primary research records reporting any study design. We included secondary (e.g., reviews) and non-research records (e.g., commentaries), and performed manual searches in web-based resources. We excluded records that did not report primary data. Two reviewers independently abstracted data in duplicate. Results Of 7810 citations, we included 155 records. Sixty-six records (43%) were primary research; 29 (44%) case reports or case series, and 26 (39%) cohort studies; 21 (14%) were literature reviews and 8 (5%) were expert recommendations; 54 (35%) were commentary, editorial, or opinion pieces. Restricted visitation policies impacted coping and daily function (n = 31, 20%) and mental health outcomes (n = 29, 19%) of patients, families, and healthcare professionals. Participants described a need for coping and support (n = 107, 69%), connection and communication (n = 107, 69%), and awareness of state of well-being (n = 101, 65%). Eighty-seven approaches to mitigate impact of restricted visitation were identified, targeting families (n = 61, 70%), patients (n = 51, 59%), and healthcare professionals (n = 40, 46%). Conclusions Patients, families, and healthcare professionals were impacted by restricted visitation polices in acute care settings during COVID-19. The consequences of this approach on patients and families are understudied and warrant evaluation of approaches to mitigate their impact. Future pandemic policy development should include the perspectives of patients, families, and healthcare professionals. Trial registration: The review was registered on PROSPERO (CRD42020221662) and a protocol peer-reviewed prior to data extraction.Item Open Access Using a targeted metabolomics approach to explore differences in ARDS associated with COVID-19 compared to ARDS caused by H1N1 influenza and bacterial pneumonia(2024-02-27) Lee, Chel H.; Banoei, Mohammad M.; Ansari, Mariam; Cheng, Matthew P.; Lamontagne, Francois; Griesdale, Donald; Lasry, David E.; Demir, Koray; Dhingra, Vinay; Tran, Karen C.; Lee, Terry; Burns, Kevin; Sweet, David; Marshall, John; Slutsky, Arthur; Murthy, Srinivas; Singer, Joel; Patrick, David M.; Lee, Todd C.; Boyd, John H.; Walley, Keith R.; Fowler, Robert; Haljan, Greg; Vinh, Donald C.; Mcgeer, Alison; Maslove, David; Mann, Puneet; Donohoe, Kathryn; Hernandez, Geraldine; Rocheleau, Genevieve; Trahtemberg, Uriel; Kumar, Anand; Lou, Ma; dos Santos, Claudia; Baker, Andrew; Russell, James A.; Winston, Brent W.Abstract Rationale Acute respiratory distress syndrome (ARDS) is a life-threatening critical care syndrome commonly associated with infections such as COVID-19, influenza, and bacterial pneumonia. Ongoing research aims to improve our understanding of ARDS, including its molecular mechanisms, individualized treatment options, and potential interventions to reduce inflammation and promote lung repair. Objective To map and compare metabolic phenotypes of different infectious causes of ARDS to better understand the metabolic pathways involved in the underlying pathogenesis. Methods We analyzed metabolic phenotypes of 3 ARDS cohorts caused by COVID-19, H1N1 influenza, and bacterial pneumonia compared to non-ARDS COVID-19-infected patients and ICU-ventilated controls. Targeted metabolomics was performed on plasma samples from a total of 150 patients using quantitative LC–MS/MS and DI-MS/MS analytical platforms. Results Distinct metabolic phenotypes were detected between different infectious causes of ARDS. There were metabolomics differences between ARDSs associated with COVID-19 and H1N1, which include metabolic pathways involving taurine and hypotaurine, pyruvate, TCA cycle metabolites, lysine, and glycerophospholipids. ARDSs associated with bacterial pneumonia and COVID-19 differed in the metabolism of D-glutamine and D-glutamate, arginine, proline, histidine, and pyruvate. The metabolic profile of COVID-19 ARDS (C19/A) patients admitted to the ICU differed from COVID-19 pneumonia (C19/P) patients who were not admitted to the ICU in metabolisms of phenylalanine, tryptophan, lysine, and tyrosine. Metabolomics analysis revealed significant differences between C19/A, H1N1/A, and PNA/A vs ICU-ventilated controls, reflecting potentially different disease mechanisms. Conclusion Different metabolic phenotypes characterize ARDS associated with different viral and bacterial infections.Item Open Access Using a targeted metabolomics approach to explore differences in ARDS associated with COVID-19 compared to ARDS caused by H1N1 influenza and bacterial pneumonia(2024-02-27) Lee, Chel H.; Banoei, Mohammad M.; Ansari, Mariam; Cheng, Matthew P.; Lamontagne, Francois; Griesdale, Donald; Lasry, David E.; Demir, Koray; Dhingra, Vinay; Tran, Karen C.; Lee, Terry; Burns, Kevin; Sweet, David; Marshall, John; Slutsky, Arthur; Murthy, Srinivas; Singer, Joel; Patrick, David M.; Lee, Todd C.; Boyd, John H.; Walley, Keith R.; Fowler, Robert; Haljan, Greg; Vinh, Donald C.; Mcgeer, Alison; Maslove, David; Mann, Puneet; Donohoe, Kathryn; Hernandez, Geraldine; Rocheleau, Genevieve; Trahtemberg, Uriel; Kumar, Anand; Lou, Ma; dos Santos, Claudia; Baker, Andrew; Russell, James A.; Winston, Brent W.Abstract Rationale Acute respiratory distress syndrome (ARDS) is a life-threatening critical care syndrome commonly associated with infections such as COVID-19, influenza, and bacterial pneumonia. Ongoing research aims to improve our understanding of ARDS, including its molecular mechanisms, individualized treatment options, and potential interventions to reduce inflammation and promote lung repair. Objective To map and compare metabolic phenotypes of different infectious causes of ARDS to better understand the metabolic pathways involved in the underlying pathogenesis. Methods We analyzed metabolic phenotypes of 3 ARDS cohorts caused by COVID-19, H1N1 influenza, and bacterial pneumonia compared to non-ARDS COVID-19-infected patients and ICU-ventilated controls. Targeted metabolomics was performed on plasma samples from a total of 150 patients using quantitative LC–MS/MS and DI-MS/MS analytical platforms. Results Distinct metabolic phenotypes were detected between different infectious causes of ARDS. There were metabolomics differences between ARDSs associated with COVID-19 and H1N1, which include metabolic pathways involving taurine and hypotaurine, pyruvate, TCA cycle metabolites, lysine, and glycerophospholipids. ARDSs associated with bacterial pneumonia and COVID-19 differed in the metabolism of D-glutamine and D-glutamate, arginine, proline, histidine, and pyruvate. The metabolic profile of COVID-19 ARDS (C19/A) patients admitted to the ICU differed from COVID-19 pneumonia (C19/P) patients who were not admitted to the ICU in metabolisms of phenylalanine, tryptophan, lysine, and tyrosine. Metabolomics analysis revealed significant differences between C19/A, H1N1/A, and PNA/A vs ICU-ventilated controls, reflecting potentially different disease mechanisms. Conclusion Different metabolic phenotypes characterize ARDS associated with different viral and bacterial infections.