TY - JOUR
T1 - Comparison of the Harms, Advantages, and Costs Associated with Alternative Guidelines for the Evaluation of Hematuria
AU - Georgieva, Mihaela V.
AU - Wheeler, Stephanie B.
AU - Erim, Daniel
AU - Smith-Bindman, Rebecca
AU - Loo, Ronald
AU - Ng, Casey
AU - Garg, Tullika
AU - Raynor, Mathew
AU - Nielsen, Matthew E.
N1 - Publisher Copyright:
© 2019 American Medical Association. All rights reserved.
PY - 2019/10
Y1 - 2019/10
N2 - Importance: Existing recommendations for the diagnostic testing of hematuria range from uniform evaluation of varying intensity to patient-level risk stratification. Concerns have been raised about not only the costs and advantages of computed tomography (CT) scans but also the potential harms of CT radiation exposure. Objective: To compare the advantages, harms, and costs associated with 5 guidelines for hematuria evaluation. Design, Setting, and Participants: A microsimulation model was developed to assess each of the following guidelines (listed in order of increasing intensity) for initial evaluation of hematuria: Dutch, Canadian Urological Association (CUA), Kaiser Permanente (KP), Hematuria Risk Index (HRI), and American Urological Association (AUA). Participants comprised a hypothetical cohort of patients (n = 100000) with hematuria aged 35 years or older. This study was conducted from August 2017 through November 2018. Exposures: Under the Dutch and CUA guidelines, patients received cystoscopy and ultrasonography if they were 50 years or older (Dutch) or 40 years or older (CUA). Under the KP and HRI guidelines, patients received different combinations of cystoscopy, ultrasonography, and CT urography or no evaluation on the basis of risk factors. Under the AUA guidelines, all patients 35 years or older received cystoscopy and CT urography. Main Outcomes and Measures: Urinary tract cancer detection rates, radiation-induced secondary cancers (from CT radiation exposure), procedural complications, false-positive rates per 100000 patients, and incremental cost per additional urinary tract cancer detected. Results: The simulated cohort included 100000 patients with hematuria, aged 35 years or older. A total of 3514 patients had urinary tract cancers (estimated prevalence, 3.5%; 95% CI, 3.0%-4.0%). The AUA guidelines missed detection for the fewest number of cancers (82 [2.3%]) compared with the detection rate of the HRI (116 [3.3%]) and KP (130 [3.7%]) guidelines. However, the simulation model projected 108 (95% CI, 34-201) radiation-induced cancers under the KP guidelines, 136 (95% CI, 62-229) under the HRI guidelines, and 575 (95% CI, 184-1069) under the AUA guidelines per 100000 patients. The CUA and Dutch guidelines missed detection for a larger number of cancers (172 [4.9%] and 251 [7.1%]) but had 0 radiation-induced secondary cancers. The AUA guidelines cost approximately double the other 4 guidelines ($939/person vs $443/person for Dutch guidelines), with an incremental cost of $1034374 per urinary tract cancer detected compared with that of the HRI guidelines. Conclusions and Relevance: In this simulation study, uniform CT imaging for patients with hematuria was associated with increased costs and harms of secondary cancers, procedural complications, and false positives, with only a marginal increase in cancer detection. Risk stratification may optimize the balance of advantages, harms, and costs of CT.
AB - Importance: Existing recommendations for the diagnostic testing of hematuria range from uniform evaluation of varying intensity to patient-level risk stratification. Concerns have been raised about not only the costs and advantages of computed tomography (CT) scans but also the potential harms of CT radiation exposure. Objective: To compare the advantages, harms, and costs associated with 5 guidelines for hematuria evaluation. Design, Setting, and Participants: A microsimulation model was developed to assess each of the following guidelines (listed in order of increasing intensity) for initial evaluation of hematuria: Dutch, Canadian Urological Association (CUA), Kaiser Permanente (KP), Hematuria Risk Index (HRI), and American Urological Association (AUA). Participants comprised a hypothetical cohort of patients (n = 100000) with hematuria aged 35 years or older. This study was conducted from August 2017 through November 2018. Exposures: Under the Dutch and CUA guidelines, patients received cystoscopy and ultrasonography if they were 50 years or older (Dutch) or 40 years or older (CUA). Under the KP and HRI guidelines, patients received different combinations of cystoscopy, ultrasonography, and CT urography or no evaluation on the basis of risk factors. Under the AUA guidelines, all patients 35 years or older received cystoscopy and CT urography. Main Outcomes and Measures: Urinary tract cancer detection rates, radiation-induced secondary cancers (from CT radiation exposure), procedural complications, false-positive rates per 100000 patients, and incremental cost per additional urinary tract cancer detected. Results: The simulated cohort included 100000 patients with hematuria, aged 35 years or older. A total of 3514 patients had urinary tract cancers (estimated prevalence, 3.5%; 95% CI, 3.0%-4.0%). The AUA guidelines missed detection for the fewest number of cancers (82 [2.3%]) compared with the detection rate of the HRI (116 [3.3%]) and KP (130 [3.7%]) guidelines. However, the simulation model projected 108 (95% CI, 34-201) radiation-induced cancers under the KP guidelines, 136 (95% CI, 62-229) under the HRI guidelines, and 575 (95% CI, 184-1069) under the AUA guidelines per 100000 patients. The CUA and Dutch guidelines missed detection for a larger number of cancers (172 [4.9%] and 251 [7.1%]) but had 0 radiation-induced secondary cancers. The AUA guidelines cost approximately double the other 4 guidelines ($939/person vs $443/person for Dutch guidelines), with an incremental cost of $1034374 per urinary tract cancer detected compared with that of the HRI guidelines. Conclusions and Relevance: In this simulation study, uniform CT imaging for patients with hematuria was associated with increased costs and harms of secondary cancers, procedural complications, and false positives, with only a marginal increase in cancer detection. Risk stratification may optimize the balance of advantages, harms, and costs of CT.
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U2 - 10.1001/jamainternmed.2019.2280
DO - 10.1001/jamainternmed.2019.2280
M3 - Article
C2 - 31355874
AN - SCOPUS:85069906778
SN - 2168-6106
VL - 179
SP - 1352
EP - 1362
JO - JAMA Internal Medicine
JF - JAMA Internal Medicine
IS - 10
ER -