TY - JOUR
T1 - Kidney Recovery and Death in Critically Ill Patients With COVID-19–Associated Acute Kidney Injury Treated With Dialysis
T2 - The STOP-COVID Cohort Study
AU - STOP-COVID Investigators
AU - Hsu, Caroline M.
AU - Gupta, Shruti
AU - Tighiouart, Hocine
AU - Goyal, Nitender
AU - Faugno, Anthony J.
AU - Tariq, Asma
AU - Raichoudhury, Ritesh
AU - Sharma, Jill H.
AU - Meyer, Leah
AU - Kshirsagar, Ravi K.
AU - Jose, Aju
AU - Leaf, David E.
AU - Weiner, Daniel E.
AU - Gupta, Hsu
AU - Faugno, Goyal
AU - Raichoudhury, Tariq
AU - Meyer, Sharma
AU - Leaf, Kshirsagar
AU - Walther, Carl P.
AU - Anumudu, Samaya J.
AU - Arunthamakun, Justin
AU - Kopecky, Kathleen F.
AU - Milligan, Gregory P.
AU - McCullough, Peter A.
AU - Nguyen, Thuy Duyen
AU - Shaefi, Shahzad
AU - Krajewski, Megan L.
AU - Shankar, Sidharth
AU - Pannu, Ameeka
AU - Valencia, Juan D.
AU - Bauer, Kenneth A.
AU - Waikar, Sushrut S.
AU - Kibbelaar, Zoe A.
AU - Athavale, Ambarish M.
AU - Hart, Peter
AU - Upadhyay, Shristi
AU - Vohra, Ishaan
AU - Oyintayo, Ajiboye
AU - Green, Adam
AU - Rachoin, Jean Sebastien
AU - Schorr, Christa A.
AU - Shea, Lisa
AU - Edmonston, Daniel L.
AU - Mosher, Christopher L.
AU - Shehata, Alexandre M.
AU - Cohen, Zaza
AU - Allusson, Valerie
AU - Bambrick-Santoyo, Gabriela
AU - Bhatti, Noor ul aain
AU - Mehta, Bijal
AU - WilliamsSamantha K. Brenner, Aquino
AU - Walters, Patricia
AU - Go, Ronaldo C.
AU - Rose, Keith M.
AU - Hernán, Miguel A.
AU - Zhou, Amy M.
AU - Kim, Ethan C.
AU - Lisk, Rebecca
AU - Chan, Lili
AU - Mathews, Kusum S.
AU - Coca, Steven G.
AU - Altman, Deena R.
AU - Saha, Aparna
AU - Soh, Howard
AU - Wen, Huei Hsun
AU - Bose, Sonali
AU - Leven, Emily A.
AU - Wang, Jing G.
AU - Mosoyan, Gohar
AU - Pattharanitima, Pattharawin
AU - Gallagher, Emily J.
AU - Friedman, Allon N.
AU - Guirguis, John
AU - Kapoor, Rajat
AU - Meshberger, Christopher
AU - Kelly, Katherine J.
AU - Parikh, Chirag R.
AU - Garibaldi, Brian T.
AU - Corona-Villalobos, Celia P.
AU - Wen, Yumeng
AU - Menez, Steven
AU - Malik, Rubab F.
AU - Cervantes, Carmen Elena
AU - Gautam, Samir C.
AU - Mallappallil, Mary C.
AU - Ouyang, Jie
AU - John, Sabu
AU - Yap, Ernie
AU - Melaku, Yohannes
AU - Mohamed, Ibrahim
AU - Bajracharya, Siddhartha
AU - Puri, Isha
AU - Thaxton, Mariah
AU - Bhattacharya, Jyotsna
AU - Wagner, John
AU - Boudourakis, Leon
AU - Nguyen, H. Bryant
AU - Ahoubim, Afshin
AU - Thomas, Leslie F.
AU - Sirganagari, Dheeraj Reddy
AU - Guru, Pramod K.
AU - Kashani, Kianoush
AU - Tehranian, Shahrzad
AU - Zhou, Yan
AU - Bergl, Paul A.
AU - Rodriguez, Jesus
AU - Shah, Jatan A.
AU - Gupta, Mrigank S.
AU - Kumar, Princy N.
AU - Lazarous, Deepa G.
AU - Kassaye, Seble G.
AU - Melamed, Michal L.
AU - Tanya, Tanya S.
AU - Prudhvi, Kalyan
AU - Zhu, Denzel
AU - Levy, Rebecca V.
AU - Azzi, Yorg
AU - Fisher, Molly
AU - Yunes, Milagros
AU - Sedaliu, Kaltrina
AU - Golestaneh, Ladan
AU - Brogan, Maureen
AU - Thakkar, Jyotsana
AU - Kumar, Neelja
AU - Ross, Michael J.
AU - Chang, Michael
AU - Athreya, Akshay
AU - Farag, Mohamed
AU - Schenck, Edward J.
AU - Cho, Soo Jung
AU - Plataki, Maria
AU - Alvarez-Mulett, Sergio L.
AU - Gomez-Escobar, Luis G.
AU - Pan, Di
AU - Lee, Stefi
AU - Krishnan, Jamuna
AU - Whalen, William
AU - Charytan, David
AU - Macina, Ashley
AU - Srivastava, Anand
AU - Leidner, Alexander S.
AU - Martinez, Carlos
AU - Kruser, Jacqueline M.
AU - Wunderink, Richard G.
AU - Hodakowski, Alexander J.
AU - Velez, Juan Carlos Q.
AU - Price-Haywood, Eboni G.
AU - Matute-Trochez, Luis A.
AU - Hasty, Anna E.
AU - Mohamed, Muner M.B.
AU - Avasare, Rupali S.
AU - Zonies, David
AU - Al-Samkari, Hanny
AU - Leaf, Rebecca Karp
AU - Rosovsky, Rachel
AU - Sise, Meghan E.
AU - Newman, Erik T.
AU - Omar, Samah Abu
AU - Pokharel, Kapil K.
AU - Sharma, Shreyak
AU - Singh, Harkarandeep
AU - Correa, Simon
AU - Shaukat, Tanveer
AU - Kamal, Omer
AU - Wang, Wei
AU - Lee, Meghan
AU - Strohbehn, Ian A.
AU - Li, Jiahua
AU - Mueller, Ariel L.
AU - Redfern, Roberta E.
AU - Cairl, Nicholas S.
AU - Naimy, Gabriel
AU - Abu-Saif, Abeer
AU - Hall, Danyell
AU - Bickley, Laura
AU - Rowan, Chris
AU - Madhani-Lovely, Farah
AU - Peev, Vasil
AU - Reiser, Jochen
AU - Byun, John J.
AU - Vissing, Andrew
AU - Kapania, Esha M.
AU - Post, Zoe
AU - Patel, Nilam P.
AU - Hermes, Joy Marie
AU - Sutherland, Anne K.
AU - Patrawalla, Amee
AU - Finkel, Diana G.
AU - Danek, Barbara A.
AU - Arikapudi, Sowminya
AU - Paer, Jeffrey M.
AU - Cangialosi, Peter
AU - Liotta, Mark
AU - Radbel, Jared
AU - Puri, Sonika
AU - Sunderram, Jag
AU - Scharf, Matthew T.
AU - Vijayan, Anitha
AU - Goldberg, Seth
AU - Kao, Patricia F.
N1 - Publisher Copyright:
© 2021 National Kidney Foundation, Inc.
PY - 2022/3
Y1 - 2022/3
N2 - Rationale & Objective: Acute kidney injury treated with kidney replacement therapy (AKI-KRT) occurs frequently in critically ill patients with coronavirus disease 2019 (COVID-19). We examined the clinical factors that determine kidney recovery in this population. Study Design: Multicenter cohort study. Setting & Participants: 4,221 adults not receiving KRT who were admitted to intensive care units at 68 US hospitals with COVID-19 from March 1 to June 22, 2020 (the “ICU cohort”). Among these, 876 developed AKI-KRT after admission to the ICU (the “AKI-KRT subcohort”). Exposure: The ICU cohort was analyzed using AKI severity as the exposure. For the AKI-KRT subcohort, exposures included demographics, comorbidities, initial mode of KRT, and markers of illness severity at the time of KRT initiation. Outcome: The outcome for the ICU cohort was estimated glomerular filtration rate (eGFR) at hospital discharge. A 3-level outcome (death, kidney nonrecovery, and kidney recovery at discharge) was analyzed for the AKI-KRT subcohort. Analytical Approach: The ICU cohort was characterized using descriptive analyses. The AKI-KRT subcohort was characterized with both descriptive analyses and multinomial logistic regression to assess factors associated with kidney nonrecovery while accounting for death. Results: Among a total of 4,221 patients in the ICU cohort, 2,361 (56%) developed AKI, including 876 (21%) who received KRT. More severe AKI was associated with higher mortality. Among survivors, more severe AKI was associated with an increased rate of kidney nonrecovery and lower kidney function at discharge. Among the 876 patients with AKI-KRT, 588 (67%) died, 95 (11%) had kidney nonrecovery, and 193 (22%) had kidney recovery by the time of discharge. The odds of kidney nonrecovery was greater for lower baseline eGFR, with ORs of 2.09 (95% CI, 1.09-4.04), 4.27 (95% CI, 1.99-9.17), and 8.69 (95% CI, 3.07-24.55) for baseline eGFR 31-60, 16-30, ≤15 mL/min/1.73 m2, respectively, compared with eGFR > 60 mL/min/1.73 m2. Oliguria at the time of KRT initiation was also associated with nonrecovery (ORs of 2.10 [95% CI, 1.14-3.88] and 4.02 [95% CI, 1.72-9.39] for patients with 50-499 and <50 mL/d of urine, respectively, compared to ≥500 mL/d of urine). Limitations: Later recovery events may not have been captured due to lack of postdischarge follow-up. Conclusions: Lower baseline eGFR and reduced urine output at the time of KRT initiation are each strongly and independently associated with kidney nonrecovery among critically ill patients with COVID-19.
AB - Rationale & Objective: Acute kidney injury treated with kidney replacement therapy (AKI-KRT) occurs frequently in critically ill patients with coronavirus disease 2019 (COVID-19). We examined the clinical factors that determine kidney recovery in this population. Study Design: Multicenter cohort study. Setting & Participants: 4,221 adults not receiving KRT who were admitted to intensive care units at 68 US hospitals with COVID-19 from March 1 to June 22, 2020 (the “ICU cohort”). Among these, 876 developed AKI-KRT after admission to the ICU (the “AKI-KRT subcohort”). Exposure: The ICU cohort was analyzed using AKI severity as the exposure. For the AKI-KRT subcohort, exposures included demographics, comorbidities, initial mode of KRT, and markers of illness severity at the time of KRT initiation. Outcome: The outcome for the ICU cohort was estimated glomerular filtration rate (eGFR) at hospital discharge. A 3-level outcome (death, kidney nonrecovery, and kidney recovery at discharge) was analyzed for the AKI-KRT subcohort. Analytical Approach: The ICU cohort was characterized using descriptive analyses. The AKI-KRT subcohort was characterized with both descriptive analyses and multinomial logistic regression to assess factors associated with kidney nonrecovery while accounting for death. Results: Among a total of 4,221 patients in the ICU cohort, 2,361 (56%) developed AKI, including 876 (21%) who received KRT. More severe AKI was associated with higher mortality. Among survivors, more severe AKI was associated with an increased rate of kidney nonrecovery and lower kidney function at discharge. Among the 876 patients with AKI-KRT, 588 (67%) died, 95 (11%) had kidney nonrecovery, and 193 (22%) had kidney recovery by the time of discharge. The odds of kidney nonrecovery was greater for lower baseline eGFR, with ORs of 2.09 (95% CI, 1.09-4.04), 4.27 (95% CI, 1.99-9.17), and 8.69 (95% CI, 3.07-24.55) for baseline eGFR 31-60, 16-30, ≤15 mL/min/1.73 m2, respectively, compared with eGFR > 60 mL/min/1.73 m2. Oliguria at the time of KRT initiation was also associated with nonrecovery (ORs of 2.10 [95% CI, 1.14-3.88] and 4.02 [95% CI, 1.72-9.39] for patients with 50-499 and <50 mL/d of urine, respectively, compared to ≥500 mL/d of urine). Limitations: Later recovery events may not have been captured due to lack of postdischarge follow-up. Conclusions: Lower baseline eGFR and reduced urine output at the time of KRT initiation are each strongly and independently associated with kidney nonrecovery among critically ill patients with COVID-19.
KW - Acute kidney injury (AKI)
KW - chronic kidney disease (CKD)
KW - coronavirus disease 2019 (COVID-19)
KW - critical care
KW - dialysis
KW - estimated glomerular filtration rate (eGFR)
KW - oligoanuria
KW - prognostication
KW - renal function
KW - renal recovery
KW - urine output
UR - http://www.scopus.com/inward/record.url?scp=85123105137&partnerID=8YFLogxK
U2 - 10.1053/j.ajkd.2021.11.004
DO - 10.1053/j.ajkd.2021.11.004
M3 - Article
C2 - 34871701
AN - SCOPUS:85123105137
SN - 0272-6386
VL - 79
SP - 404-416.e1
JO - American Journal of Kidney Diseases
JF - American Journal of Kidney Diseases
IS - 3
ER -