Impact of perioperative administration of 6 % hydroxyethyl starch 130/0.4 on serum cystatin C-derived renal function after radical prostatectomy: a single-centre retrospective study

[1]  J. Park Postoperative acute kidney injury , 2017, Korean journal of anesthesiology.

[2]  R. Hahn,et al.  Colloid osmotic pressure and extravasation of plasma proteins following infusion of Ringer's acetate and hydroxyethyl starch 130/0.4 , 2015, Acta anaesthesiologica Scandinavica.

[3]  E. Pedersen,et al.  The Effect of 6% Hydroxyethyl Starch 130/0.4 on Renal Function, Arterial Blood Pressure, and Vasoactive Hormones During Radical Prostatectomy: A Randomized Controlled Trial , 2015, Anesthesia and analgesia.

[4]  A. Chernyavskiy,et al.  Infusion of 7.2% NaCl/6% Hydroxyethyl Starch 200/0.5 in On-Pump Coronary Artery Bypass Surgery Patients: A Randomized, Single-Blind Pilot Study , 2014, Shock.

[5]  R. Bellomo,et al.  Hydroxyethyl starch: putting patient safety first , 2014, Intensive Care Medicine.

[6]  N. Selby,et al.  Acute Kidney Injury in Urology Patients: Incidence, Causes and Outcomes , 2013, Nephro-urology monthly.

[7]  W. van Biesen,et al.  Urinary and serum biomarkers for the diagnosis of acute kidney injury: an in-depth review of the literature. , 2013, Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association.

[8]  R. Bellomo,et al.  Hydroxyethyl starch or saline for fluid resuscitation in intensive care. , 2012, The New England journal of medicine.

[9]  J. Tenhunen,et al.  Hydroxyethyl starch 130/0.42 versus Ringer's acetate in severe sepsis. , 2012, The New England journal of medicine.

[10]  Glenn M. Chertow,et al.  Acute Kidney Injury and Mortality in Hospitalized Patients , 2012, American Journal of Nephrology.

[11]  A. Ferguson,et al.  Perioperative acute kidney injury: risk factors, recognition, management, and outcomes , 2010, BMJ : British Medical Journal.

[12]  R. Suojaranta-Ylinen,et al.  Serum cystatin C in elderly cardiac surgery patients. , 2010, The Annals of thoracic surgery.

[13]  A. Mukhtar,et al.  The Safety of Modern Hydroxyethyl Starch in Living Donor Liver Transplantation: A Comparison with Human Albumin , 2009, Anesthesia and analgesia.

[14]  P. Coriat,et al.  Safety of HES 130/0.4 (Voluven®) in patients with preoperative renal dysfunction undergoing abdominal aortic surgery: a prospective, randomized, controlled, parallel‐group multicentre trial , 2008, European journal of anaesthesiology.

[15]  Rolf Rossaint,et al.  Intensive insulin therapy and pentastarch resuscitation in severe sepsis. , 2008, The New England journal of medicine.

[16]  A. Peters,et al.  Association between glomerular filtration rate and extracellular fluid volume in normal subjects and patients with renal impairment , 2008, Scandinavian journal of clinical and laboratory investigation.

[17]  P. Gosling,et al.  Randomized clinical trial comparing the effects on renal function of hydroxyethyl starch or gelatine during aortic aneurysm surgery , 2007, The British journal of surgery.

[18]  S. Herget-Rosenthal,et al.  How to estimate GFR-serum creatinine, serum cystatin C or equations? , 2007, Clinical biochemistry.

[19]  C. Becker,et al.  Baseline renal function screening. , 2006, The American journal of cardiology.

[20]  Christine A. White,et al.  Estimating glomerular filtration rate in kidney transplantation: a comparison between serum creatinine and cystatin C-based methods. , 2005, Journal of the American Society of Nephrology : JASN.

[21]  S. Herget-Rosenthal Can serial measurements of cystatin C accurately detect early renal function decline? , 2005, Nature Clinical Practice Nephrology.

[22]  A. Kribben,et al.  Serum cystatin C--a superior marker of rapidly reduced glomerular filtration after uninephrectomy in kidney donors compared to creatinine. , 2005, Clinical nephrology.

[23]  R. Bellomo,et al.  Acute renal failure – definition, outcome measures, animal models, fluid therapy and information technology needs: the Second International Consensus Conference of the Acute Dialysis Quality Initiative (ADQI) Group , 2004, Critical care.

[24]  J. Avorn,et al.  Hydroxyethyl starch and change in renal function in patients undergoing coronary artery bypass graft surgery. , 2003, Kidney international.

[25]  F. Bepperling,et al.  The Pharmacokinetics and Tolerability of an Intravenous Infusion of the New Hydroxyethyl Starch 130/0.4 (6%, 500 mL) in Mild-to-Severe Renal Impairment , 2002, Anesthesia and analgesia.

[26]  E. Thervet,et al.  Plasma cystatin C is superior to 24-h creatinine clearance and plasma creatinine for estimation of glomerular filtration rate 3 months after kidney transplantation. , 2000, Clinical chemistry.

[27]  R. Pearse,et al.  Incidence of postoperative death and acute kidney injury associated with i.v. 6% hydroxyethyl starch use: systematic review and meta-analysis. , 2014, British journal of anaesthesia.

[28]  C. McArdle,et al.  Effect of intraoperative fluid optimisation on renal function in patients undergoing emergency abdominal surgery: a randomised controlled pilot study (ISRCTN 11799696). , 2008, International journal of surgery.

[29]  Lynn McAlpine,et al.  Title: The What and Why of Faculty Development in Higher Education: An In-depth Review of the Literature , 2005 .

[30]  C. Price,et al.  Serum cystatin C measured by automated immunoassay: a more sensitive marker of changes in GFR than serum creatinine. , 1995, Kidney international.