Template:SensSpecPPVNPV: Difference between revisions
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* [[Prevalence threshold]] = <math>PT=\frac{\sqrt{TPR(-TNR+1)}+TNR-1}{(TPR+TNR-1)} </math> = 0.19 => 19.1% |
* [[Prevalence threshold]] = <math>PT=\frac{\sqrt{TPR(-TNR+1)}+TNR-1}{(TPR+TNR-1)} </math> = 0.19 => 19.1% |
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This hypothetical screening test (fecal occult blood test) correctly identified two-thirds (66.7%) of patients with colorectal cancer.{{efn|There are advantages and disadvantages for all medical screening tests. [[Medical guidelines|Clinical practice guidelines]], such as those for colorectal cancer screening, describe these risks and benefits.<ref>{{Cite journal|last=Lin|first=Jennifer S.|last2=Piper|first2=Margaret A.|last3=Perdue|first3=Leslie A.|last4=Rutter|first4=Carolyn M.|last5=Webber|first5=Elizabeth M.|last6=O’Connor|first6=Elizabeth|last7=Smith|first7=Ning|last8=Whitlock|first8=Evelyn P.|date=21 June 2016|title=Screening for Colorectal Cancer|url=https://doi.org/10.1001/jama.2016.3332|journal=JAMA|language=en|volume=315|issue=23|pages=2576–2594|doi=10.1001/jama.2016.3332|issn=0098-7484}}</ref><ref>{{Cite journal|last=Bénard|first=Florence|last2=Barkun|first2=Alan N.|last3=Martel|first3=Myriam|last4=Renteln|first4=Daniel von|date=7 January 2018|title=Systematic review of colorectal cancer screening guidelines for average-risk adults: Summarizing the current global recommendations|url=https://www.wjgnet.com/1007-9327/full/v24/i1/124.htm|journal=World Journal of Gastroenterology|language=en|volume=24|issue=1|pages=124–138|doi=10.3748/wjg.v24.i1.124|pmc=PMC5757117|pmid=29358889}}</ref>}} Unfortunately, factoring in prevalence rates reveals that this hypothetical test has a high false positive rate, and it does not reliably identify colorectal cancer in the overall population of asymptomatic people (PPV = 10%). |
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Hence with large numbers of false positives and few false negatives, a positive screen test is in itself poor at confirming the disorder (PPV = 10%) and further investigations must be undertaken; it did, however, correctly identify 66.7% of all cases (the sensitivity). However as a screening test, a negative result is very good at reassuring that a patient does not have the disorder (NPV = 99.5%) and at this initial screen correctly identifies 91% of those who do not have cancer (the specificity). Likewise, below a disease prevalence of 19.1%, the PPV for a screening test with these sensitivities and specificities drops significantly and is therefore more unreliable. <noinclude> |
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On the other hand, this hypothetical test demonstrates very accurate detection of cancer-free individuals (NPV = 99.5%). Therefore, when used for routine colorectal cancer screening with asymptomatic adults, a negative result supplies important data for the patient and doctor, such as ruling out cancer as the cause of gastrointestinal symptoms or reassuring patients worried about developing colorectal cancer.<noinclude> |
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===Note=== |
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===References=== |
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{{reflist}} |
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'''Note:''' This template is used as a portion of the articles on sensitivity, specificity, likelihood ratios in diagnostic testing, etc. See those articles for additional citations. |
'''Note:''' This template is used as a portion of the articles on sensitivity, specificity, likelihood ratios in diagnostic testing, etc. See those articles for additional citations. |
Revision as of 13:34, 11 October 2020
- A worked example
- A diagnostic test with sensitivity 67% and specificity 91% is applied to 2030 people to look for a disorder with a population prevalence of 1.48%
This Wikipedia page has been superseded by template:diagnostic_testing_example and is retained primarily for historical reference. |
Patients with bowel cancer (as confirmed on endoscopy) | ||||||
Total population (pop.) = 2030 |
Condition positive | Condition negative | Prevalence = (TP + FN) / pop.
= (20 + 10) / 2030 ≈ 1.48% |
Accuracy (ACC) = (TP + TN) / pop.
= (20 + 1820) / 2030 ≈ 90.64% | ||
Fecal occult blood screen test outcome |
Test outcome positive |
True positive (TP) = 20 (2030 × 1.48% × 67%) |
False positive (FP) = 180 (2030 × (100% − 1.48%) × (100% − 91%)) |
Positive predictive value (PPV), precision = TP / (TP + FP)
= 20 / (20 + 180) = 10% |
False discovery rate (FDR) = FP / (TP + FP)
= 180 / (20 + 180) = 90.0% | |
Test outcome negative |
False negative (FN) = 10 (2030 × 1.48% × (100% − 67%)) |
True negative (TN) = 1820 (2030 × (100% − 1.48%) × 91%) |
False omission rate (FOR) = FN / (FN + TN)
= 10 / (10 + 1820) ≈ 0.55% |
Negative predictive value (NPV) = TN / (FN + TN)
= 1820 / (10 + 1820) ≈ 99.45% | ||
True positive rate (TPR), recall, sensitivity = TP / (TP + FN)
= 20 / (20 + 10) ≈ 66.7% |
False positive rate (FPR), fall-out, probability of false alarm = FP / (FP + TN)
= 180 / (180 + 1820) = 9.0% |
Positive likelihood ratio (LR+) = TPR/FPR
= (20 / 30) / (180 / 2000) ≈ 7.41 |
Diagnostic odds ratio (DOR) = LR+/LR−
≈ 20.2 |
F1 score = 2 × precision × recall/precision + recall
≈ 0.174 | ||
False negative rate (FNR), miss rate = FN / (TP + FN)
= 10 / (20 + 10) ≈ 33.3% |
Specificity, selectivity, true negative rate (TNR) = TN / (FP + TN)
= 1820 / (180 + 1820) = 91% |
Negative likelihood ratio (LR−) = FNR/TNR
= (10 / 30) / (1820 / 2000) ≈ 0.366 |
Related calculations
- False positive rate (α) = type I error = 1 − specificity = FP / (FP + TN) = 180 / (180 + 1820) = 9%
- False negative rate (β) = type II error = 1 − sensitivity = FN / (TP + FN) = 10 / (20 + 10) = 33%
- Power = sensitivity = 1 − β
- Likelihood ratio positive = sensitivity / (1 − specificity) = 0.67 / (1 − 0.91) = 7.4
- Likelihood ratio negative = (1 − sensitivity) / specificity = (1 − 0.67) / 0.91 = 0.37
- Prevalence threshold = = 0.19 => 19.1%
This hypothetical screening test (fecal occult blood test) correctly identified two-thirds (66.7%) of patients with colorectal cancer.[a] Unfortunately, factoring in prevalence rates reveals that this hypothetical test has a high false positive rate, and it does not reliably identify colorectal cancer in the overall population of asymptomatic people (PPV = 10%).
On the other hand, this hypothetical test demonstrates very accurate detection of cancer-free individuals (NPV = 99.5%). Therefore, when used for routine colorectal cancer screening with asymptomatic adults, a negative result supplies important data for the patient and doctor, such as ruling out cancer as the cause of gastrointestinal symptoms or reassuring patients worried about developing colorectal cancer.
Note
- ^ There are advantages and disadvantages for all medical screening tests. Clinical practice guidelines, such as those for colorectal cancer screening, describe these risks and benefits.[1][2]
References
- ^ Lin, Jennifer S.; Piper, Margaret A.; Perdue, Leslie A.; Rutter, Carolyn M.; Webber, Elizabeth M.; O’Connor, Elizabeth; Smith, Ning; Whitlock, Evelyn P. (21 June 2016). "Screening for Colorectal Cancer". JAMA. 315 (23): 2576–2594. doi:10.1001/jama.2016.3332. ISSN 0098-7484.
- ^ Bénard, Florence; Barkun, Alan N.; Martel, Myriam; Renteln, Daniel von (7 January 2018). "Systematic review of colorectal cancer screening guidelines for average-risk adults: Summarizing the current global recommendations". World Journal of Gastroenterology. 24 (1): 124–138. doi:10.3748/wjg.v24.i1.124. PMC 5757117. PMID 29358889.
{{cite journal}}
: CS1 maint: PMC format (link) CS1 maint: unflagged free DOI (link)
Note: This template is used as a portion of the articles on sensitivity, specificity, likelihood ratios in diagnostic testing, etc. See those articles for additional citations.