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Item

Count

PDF

991

WORD

310

HTML

5275

Figures (1-6)

313

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224

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1031

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1384

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Feb 4, 2015 (publication date) through Nov 25, 2024

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Times Cited (21)

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World Journal of Critical Care Medicine

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2220-3141

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Baishideng Publishing Group Inc, 7041 Koll Center Parkway, Suite 160, Pleasanton, CA 94566, USA

Cited by in CrossRef

For:	Masevicius FD, Dubin A. Has Stewart approach improved our ability to diagnose acid-base disorders in critically ill patients? World J Crit Care Med 2015; 4(1): 62-70 [PMID: 25685724 DOI: 10.5492/wjccm.v4.i1.62]
URL:	https://www.wjgnet.com/2220-3141/full/v4/i1/62.htm

Number	Citing Articles
1	Carmen Andrea Pfortmueller, Dominik Uehlinger, Stephan von Haehling, Joerg Christian Schefold. Serum chloride levels in critical illness—the hidden story. Intensive Care Medicine Experimental 2018; 6(1) doi: 10.1186/s40635-018-0174-5
2	Tomomichi Kasagi, Hirokazu Imai, Naoto Miura, Keisuke Suzuki, Masabumi Yoshino, Hironobu Nobata, Takuhito Nagai, Shogo Banno. Acid–base disturbances in nephrotic syndrome: analysis using the CO2/HCO3 method (traditional Boston model) and the physicochemical method (Stewart model). Clinical and Experimental Nephrology 2017; 21(5): 866 doi: 10.1007/s10157-017-1387-8
3	Fabio Daniel Masevicius, Arnaldo Dubin. The High-risk Surgical Patient. 2023; : 77 doi: 10.1007/978-3-031-17273-1_6
4	Justin Aryabhat Gopaldas. Revisiting Stewart's Approach toward Assessment of Unidentified or Complex Acid–Base Disorders. Indian Journal of Critical Care Medicine 2022; 26(1): 5 doi: 10.5005/jp-journals-10071-24099
5	Horacio J. Adrogué, Bryan M. Tucker, Nicolaos E. Madias. Clinical Approach to Assessing Acid-Base Status: Physiological vs Stewart. Advances in Chronic Kidney Disease 2022; 29(4): 343 doi: 10.1053/j.ackd.2022.04.008
6	Niels Van Regenmortel, Walter Verbrugghe, Tim Van den Wyngaert, Philippe G. Jorens. Impact of chloride and strong ion difference on ICU and hospital mortality in a mixed intensive care population. Annals of Intensive Care 2016; 6(1) doi: 10.1186/s13613-016-0193-x
7	Alluru S. Reddi. Acid-Base Disorders. 2020; : 21 doi: 10.1007/978-3-030-28895-2_3
8	Jeffrey F. Barletta, Justin Muir, Judah Brown, Amy Dzierba. A Systematic Approach to Understanding Acid-Base Disorders in the Critically Ill. Annals of Pharmacotherapy 2024; 58(1): 65 doi: 10.1177/10600280231165787
9	W. Muir. Effect of Intravenously Administered Crystalloid Solutions on Acid‐Base Balance in Domestic Animals. Journal of Veterinary Internal Medicine 2017; 31(5): 1371 doi: 10.1111/jvim.14803
10	John G. Toffaletti, Craig R. Rackley. Blood Gases and Critical Care Testing. 2022; : 1 doi: 10.1016/B978-0-323-89971-0.00002-1
11	Tomonori Yamashita, Akinori Uchiyama, Yukiko Koyama, Takeshi Yoshida, Aiko Tanaka, Yuji Fujino. Effects of alkaline agents on respiratory characteristics in rabbit models of respiratory failure. Respiratory Physiology & Neurobiology 2020; 280: 103485 doi: 10.1016/j.resp.2020.103485
12	Tobias Zingg, Bishwajit Bhattacharya, Linda L. Maerz. Metabolic acidosis and the role of unmeasured anions in critical illness and injury. Journal of Surgical Research 2018; 224: 5 doi: 10.1016/j.jss.2017.11.013
13	Anand Achanti, Harold M. Szerlip. Acid-Base Disorders in the Critically Ill Patient. Clinical Journal of the American Society of Nephrology 2023; 18(1): 102 doi: 10.2215/CJN.04500422
14	Sergio Pinto de Souza, Juliana R Caldas, Marcelo Barreto Lopes, Marcelo Augusto Duarte Silveira, Fernanda Oliveira Coelho, Igor Oliveira Queiroz, Pedro Domingues Cury, Rogério da Hora Passos. Physico-chemical characterization of acid base disorders in patients with COVID-19: A cohort study. World Journal of Nephrology 2024; 13(2): 92498 doi: 10.5527/wjn.v13.i2.92498 Abstract(220) \| Core Tip(231) \| Full Article(HTML)(1222) \| Full Article with Cover (PDF)-569K(122) \| Audio-812K(8) \| Peer-Review Report-216K(16) \| Answering Reviewers-61K(21) \| Full Article (PDF)-410K(57) \| Full Article (XML)-71K(23) \| Times Cited (0) \| Total Visits (2763) \| Open
15	Carsten Hafer. Säure-Basen-Störungen. Intensivmedizin up2date 2021; 17(01): 83 doi: 10.1055/a-1202-9010
16	Alluru S. Reddi. Fluid, Electrolyte and Acid-Base Disorders. 2023; : 403 doi: 10.1007/978-3-031-25810-7_28
17	Frank Walther. Säuren-Basen-Haushalt. 2021; : 255 doi: 10.1007/978-3-662-63876-7_17
18	Michalis Agrafiotis, Maria Papathanassiou, Christos Karachristos, Eleni Kerezidou, Stavros Tryfon, Evangelia Serasli, Diamantis Chloros. A simplified quantitative acid–base approach for patients with acute respiratory diseases. Journal of Clinical Monitoring and Computing 2020; 34(1): 21 doi: 10.1007/s10877-019-00302-2
19	Jesús Salvador Sánchez Díaz, Karla Gabriela Peniche Moguel, Enrique Antonio Martínez Rodríguez, Jorge Samuel Cortés Román, Gerardo Rivera Solís, Susana Patricia Díaz Gutiérrez, Eusebio Pin Gutiérrez, José Antonio Asiain Velázquez, Óscar Rodrigo Jiménez Flores, Orlando Pérez Nieto, Luis del Carpio Orantes, Enrique Monares Zepeda. Falsas creencias de los trastornos ácido-base. Acta Colombiana de Cuidado Intensivo 2018; 18(4): 243 doi: 10.1016/j.acci.2018.06.006
20	John Toffaletti. Contemporary Practice in Clinical Chemistry. 2020; : 629 doi: 10.1016/B978-0-12-815499-1.00036-3
21	Eduardo Márquez Rosales, Jesús Salvador Sánchez Díaz, Karla Gabriela Peniche Moguel, Enrique Antonio Martínez Rodríguez, Josué Eli Villegas Domínguez, María Verónica Calyeca Sánchez. Origen de la acidosis metabólica según los determinantes del déficit de base en pacientes con choque séptico como factor de riesgo para mortalidad. Medicina Crítica 2019; 33(4): 182 doi: 10.35366/89126