Renal - Acid Base
- Relationship between acid-base status and inflammation in the critically ill.
- Zampieri FG, Kellum JA, Park M, Ranzani OT, Barbeiro HV, de Souza HP, da Cruz Neto LM, da Silva FP.
- Crit Care. 2014 Jul 17;18(4):R154.
Rationale for inclusion: AB imbalances associated with immunologic activation
Citations - 13 (as of July 2017)
- Agreement between central venous and arterial blood gas measurements in the intensive care unit.
- Treger R, Pirouz S, Kamangar N, Corry D.
- Clin J Am Soc Nephrol. 2010 Mar;5(3):390-4.
Rationale for inclusion: Comparison between venous and arterial ABG measurements and develoment of equations to predict arterial ABG from venous ABG.
Citations - 57 (as of July 20017)
- A physicochemical approach to acid-base balance in critically ill trauma patients minimizes errors and reduces inappropriate plasma volume expansion.
- Kaplan LJ, Cheung NH, Maerz L, Lui F, Schuster K, Luckianow G, Davis K.
- J Trauma. 2009 Apr;66(4):1045-51.
Rationale for inclusion: Convential and physiochemical approach to acid base balance assessment in critically ill trauma patients.
Citations - 21 (as of July 2017)
- Acid-base disturbances in critically ill patients with cirrhosis.
- Funk GC, Doberer D, Kneidinger N, Lindner G, Holzinger U, Schneeweiss B.
- Liver Int. 2007 Sep;27(7):901-9.
Rationale for inclusion: Patients with cirrhosis have an AB equillibrium which is lost in critical illness - the resulting acidosis disturbance is associated with increased mortality.
Citations - 46 (as of July 2017)
- The effects of saline or albumin resuscitation on acid-base status and serum electrolytes.
- Bellomo R, Morimatsu H, French C, Cole L, Story D, Uchino S, Naka T; SAFE Study Investigators.
- Crit Care Med. 2006 Dec;34(12):2891-7.
Rationale for inclusion: Ad hoc analysis of the SAFE trial - effect of type and volume of resuscitation fluid on acid base and electrolytes.
Citations - 32 (as of July 2017)
- Diagnosis of acid-base derangements and mortality prediction in the trauma intensive care unit: the physiochemical approach.
- Martin M, Murray J, Berne T, Demetriades D, Belzberg H.
- J Trauma. 2005 Feb;58(2):238-43.
Rationale for inclusion: Using the physiochemical approach to predict mortality in trauma ICU patients based on AB disturbances.
Citations - 92 (as of July 2017)
- Acid-base status of critically ill patients with acute renal failure: analysis based on Stewart-Figge methodology.
- Rocktaeschel J, Morimatsu H, Uchino S, Goldsmith D, Poustie S, Story D, Gutteridge G, Bellomo R.
- Crit Care. 2003 Aug;7(4):R60.
Rationale for inclusion: Acidosis in critically ill patients with acute renal failure. Half of these patients have normal ABG and acidosis was detected only by the Stewart method.
Citations - 111 (as of July 2017)
- A physical chemical approach to the analysis of acid-base balance in the clinical setting.
- Gilfix BM, Bique M, Magder S.
- J Crit Care. 1993 Dec;8(4):187-97.
Rationale for inclusion: Stewart method
Citations - 186 (as of July 2017)