Showing 541-558 of 558 for: Decision Support Tools Back
- Urinary incontinence diagnosis
LOE 1a
Decision Support Tools, 1-Aug-2006
Based on the results of Brown JS, Bradley CS, Subak LL, et al. The sensitivity and specificity of a simple test to distinguish between urge and stress urinary incontinence. Ann Intern Med 2006; 144: 715-23.
- UTI diagnosis
LOE 1a
Decision Support Tools, 1-Sep-1994
Based on the results of Wigton RS, Hoellerich VL, Ornato JP, Leu V, Mazzotta LA, Cheng IH. Use of clinical findings in the diagnosis of urinary tract infection in women. Arch Intern Med 1985; 145: 2222-27.
- UTI diagnosis (Leibovici)
LOE 1a
Decision Support Tools, 1-Aug-2002
Based on the results of Leibovici L, Arav-Boger R, Danon YL, Tiqva P. A clinical model for diagnosis of urinary tract infection in young women (letter). Arch Intern med 1993; 153: 1011-2.
- UTI diagnosis (McIsaac)
LOE 1a
Decision Support Tools, 1-Jun-2010
Based on the results of McIsaac WJ, Moineddin R, Ross S. Validation of a decision aid to assist physicians in reducing unnecessary antibiotic drug use for acute cystitis. Arch Intern Med 2007; 167(20): 2201-6.
- UTI diagnosis girls < 2 years
LOE 2a
Decision Support Tools, 1-Dec-2005
Based on the results of Gorelick MH, Shaw KN. Clinical decision rule to identify febrile young girls at risk for urinary tract infection. Arch Ped Adol Med 2000; 154: 386-90.
- UTI diagnosis in children < 5 years (DUTY)
LOE 1a
Decision Support Tools, 1-Jun-2017
Based on the results of Hay AD, Sterne JA, Hood K, et al. Improving the diagnosis and treatment of urinary tract infection in young children in primary care: results from the DUTY prospective diagnostic cohort study. Ann Fam Med 2016; 14: 325-36.
- Vascular surgery risk
LOE 1a
Decision Support Tools, 1-Sep-1994
Based on the results of L?Italien GJ, Paul SD, Hendel RC, et al. Development and validation of a Bayesian model for perioperative cardiac risk assessment in a cohort of 1,081 vascular surgical candidates. J Am Coll Cardiol 1996; 27: 779-86.
- Venous leg ulcer healing
LOE 1a
Decision Support Tools, 1-Jun-2002
Based on the results of Margolis DJ, Berlin JA, Strom BL. Which leg ulcers will heal with limb compression bandages? Am J Med 2000; 109: 15-19.
- Ventilation index
LOE 5
Decision Support Tools, 1-Sep-2003
Based on the results of Standard formula (http://www-users.med.cornell.edu/~spon/picu/calc/ventindx.htm)
- VTE risk after surgery
LOE 1a
Decision Support Tools, 2-Jul-2014
Based on the results of Pannucci CJ, Laird S, Dimick JB, et al. A validated risk model to predict 90 day VTE events in postsurgical patients. Chest 2014; 145: 567-73.
- VTE risk for cancer patients
LOE 1a
Decision Support Tools, 2-Jul-2013
Based on the results of Ay C, Dunkler D, Marosi C, et al. Prediction of venous thromboembolism in cancer patients. Blood 2010; 116: 5377-82.
- Warfarin dose (elderly)
LOE 1a
Decision Support Tools, 1-Aug-2005
Based on the results of Siguret V, Gouin I, Debray M, et al. Initiation of warfarin therapy in elderly medical inpatients: a safe and accurate regimen. Am J Med 2005; 118: 137-42.
- Warfarin dosing: adjustment
LOE 5
Decision Support Tools, 1-Sep-2003
Based on the results of University of Michigan Cardiovascular Anticoagulation Service. Http://ww.med.umich.edu/cvc/prof/anticoag/dose.htm
- Warfarin dosing: dose adjustment (COAG trial)
LOE 1a
Decision Support Tools, 2-Jul-2014
Based on the results of Kimmel SE, French B, Kasner SE, et al. A pharmacogenetic versus a clinical algorithm for warfarin dosing. N Engl J Med 2013; 369: 2283-93; Gage BF, Eby D, Johnson JA et al. Use of pharmacogenetics and clinical factors to predict the therapeutic dose of warfarin. Clin Pharmacol Ther 2008; 84: 326-31.
- Warfarin dosing: initial
LOE 2b
Decision Support Tools, 1-Jun-2002
Based on the results of Pengo V, Biasiolo A, Pegoraro C. A simple scheme to initiate oral anticoagulant treatment in outpatients with nonrheumatic atrial fibrillation. Am J Cardiol 2001; 88: 1214-6.
- Warfarin dosing: initial dose (COAG trial)
LOE 1a
Decision Support Tools, 2-Jul-2014
Based on the results of Kimmel SE, French B, Kasner SE, et al. A pharmacogenetic versus a clinical algorithm for warfarin dosing. N Engl J Med 2013; 369: 2283-93; Gage BF, Eby D, Johnson JA et al. Use of pharmacogenetics and clinical factors to predict the therapeutic dose of warfarin. Clin Pharmacol Ther 2008; 84: 326-31.
- Warfarin initial dose (10 mg protocol)
LOE 1a
Decision Support Tools, 1-Sep-2003
Based on the results of Kovacs MJ, Rodger M, Anderson DR, et al. Comparison of 10 mg and 5 mg warfarin initiation nomograms together with low-molecular weight heparin for outpatient treatment of acute venous thromboembolism. Ann Intern Med 2003; 138: 714-9.
- Which high hospital users are somatizers
LOE 2b
Decision Support Tools, 1-Aug-2002
Based on the results of Smith RC, Gardiner JC, Armatti S, et al. Screening for high utilizing somatizing patients using a prediction rule derived from the management of information system of an HMO. Med Care 2001; 39: 968-78.
