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Case–control study

December 15, 2023

A case–control study (also known as case–referent study) is a type of observational study in which two existing groups differing in outcome are identified and compared on the basis of some supposed causal attribute. Case–control studies are often used to identify factors that may contribute to a medical condition by comparing subjects who have that condition/disease (the "cases") with patients who do not have the condition/disease but are otherwise similar (the "controls").[1] They require fewer resources but provide less evidence for causal inference than a randomized controlled trial. A case–control study is often used to produce an odds ratio, which is an inferior measure of strength of association compared to relative risk, but new statistical methods make it possible to use a case-control study to estimate relative risk, risk differences, and other quantities.[2]

Case–control study versus cohort on a timeline. "OR" stands for "odds ratio" and "RR" stands for "relative risk".

Definition edit

The case–control is a type of epidemiological observational study. An observational study is a study in which subjects are not randomized to the exposed or unexposed groups, rather the subjects are observed in order to determine both their exposure and their outcome status and the exposure status is thus not determined by the researcher.[citation needed]

Porta's Dictionary of Epidemiology defines the case–control study as: an observational epidemiological study of persons with the disease (or another outcome variable) of interest and a suitable control group of persons without the disease (comparison group, reference group).[3] The potential relationship of a suspected risk factor or an attribute to the disease is examined by comparing the diseased and nondiseased subjects with regard to how frequently the factor or attribute is present (or, if quantitative, the levels of the attribute) in each of the groups (diseased and nondiseased)."[3]

For example, in a study trying to show that people who smoke (the attribute) are more likely to be diagnosed with lung cancer (the outcome), the cases would be persons with lung cancer, the controls would be persons without lung cancer (not necessarily healthy), and some of each group would be smokers. If a larger proportion of the cases smoke than the controls, that suggests, but does not conclusively show, that the hypothesis is valid.[citation needed]

The case–control study is frequently contrasted with cohort studies, wherein exposed and unexposed subjects are observed until they develop an outcome of interest.[3][4]

Control group selection edit

Controls need not be in good health; inclusion of sick people is sometimes appropriate, as the control group should represent those at risk of becoming a case.[5] Controls should come from the same population as the cases, and their selection should be independent of the exposures of interest.[6]

Controls can carry the same disease as the experimental group, but of another grade/severity, therefore being different from the outcome of interest. However, because the difference between the cases and the controls will be smaller, this results in a lower power to detect an exposure effect.[citation needed]

As with any epidemiological study, greater numbers in the study will increase the power of the study. Numbers of cases and controls do not have to be equal. In many situations, it is much easier to recruit controls than to find cases. Increasing the number of controls above the number of cases, up to a ratio of about 4 to 1, may be a cost-effective way to improve the study.[5]

Prospective vs. retrospective cohort studies edit

A prospective study watches for outcomes, such as the development of a disease, during the study period and relates this to other factors such as suspected risk or protection factor(s). The study usually involves taking a cohort of subjects and watching them over a long period. The outcome of interest should be common; otherwise, the number of outcomes observed will be too small to be statistically meaningful (indistinguishable from those that may have arisen by chance). All efforts should be made to avoid sources of bias such as the loss of individuals to follow up during the study. Prospective studies usually have fewer potential sources of bias and confounding than retrospective studies.[7]

A retrospective study, on the other hand, looks backwards and examines exposures to suspected risk or protection factors in relation to an outcome that is established at the start of the study. Many valuable case–control studies, such as Lane and Claypon's 1926 investigation of risk factors for breast cancer, were retrospective investigations. Most sources of error due to confounding and bias are more common in retrospective studies than in prospective studies. For this reason, retrospective investigations are often criticised. If the outcome of interest is uncommon, however, the size of prospective investigation required to estimate relative risk is often too large to be feasible. In retrospective studies the odds ratio provides an estimate of relative risk. One should take special care to avoid sources of bias and confounding in retrospective studies.[7]

Strengths and weaknesses edit

Case–control studies are a relatively inexpensive and frequently used type of epidemiological study that can be carried out by small teams or individual researchers in single facilities in a way that more structured experimental studies often cannot be. They have pointed the way to a number of important discoveries and advances. The case–control study design is often used in the study of rare diseases or as a preliminary study where little is known about the association between the risk factor and disease of interest.[8]

Compared to prospective cohort studies they tend to be less costly and shorter in duration. In several situations, they have greater statistical power than cohort studies, which must often wait for a 'sufficient' number of disease events to accrue.[citation needed]

Case–control studies are observational in nature and thus do not provide the same level of evidence as randomized controlled trials. The results may be confounded by other factors, to the extent of giving the opposite answer to better studies. A meta-analysis of what was considered 30 high-quality studies concluded that use of a product halved a risk, when in fact the risk was, if anything, increased.[9][10] It may also be more difficult to establish the timeline of exposure to disease outcome in the setting of a case–control study than within a prospective cohort study design where the exposure is ascertained prior to following the subjects over time in order to ascertain their outcome status. The most important drawback in case–control studies relates to the difficulty of obtaining reliable information about an individual's exposure status over time. Case–control studies are therefore placed low in the hierarchy of evidence.[citation needed]

Examples edit

One of the most significant triumphs of the case–control study was the demonstration of the link between tobacco smoking and lung cancer, by Richard Doll and Bradford Hill. They showed a statistically significant association in a large case–control study.[11] Opponents argued for many years that this type of study cannot prove causation, but the eventual results of cohort studies confirmed the causal link which the case–control studies suggested,[12][13] and it is now accepted that tobacco smoking is the cause of about 87% of all lung cancer mortality in the US.

Analysis edit

Case–control studies were initially analyzed by testing whether or not there were significant differences between the proportion of exposed subjects among cases and controls.[14] Subsequently, Cornfield[15] pointed out that, when the disease outcome of interest is rare, the odds ratio of exposure can be used to estimate the relative risk (see rare disease assumption). The validity of the odds ratio depends highly on the nature of the disease studied, on the sampling methodology and on the type of follow-up. Although in classical case–control studies, it remains true that the odds ratio can only approximate the relative risk in the case of rare diseases, there is a number of other types of studies (case–cohort, nested case–control, cohort studies) in which it was later shown that the odds ratio of exposure can be used to estimate the relative risk or the incidence rate ratio of exposure without the need for the rare disease assumption.[14][16][17]

When the logistic regression model is used to model the case–control data and the odds ratio is of interest, both the prospective and retrospective likelihood methods will lead to identical maximum likelihood estimations for covariate, except for the intercept.[18] The usual methods of estimating more interpretable parameters than odds ratios -- such as risk ratios, levels, and differences -- is biased if applied to case–control data, but special statistical procedures provide easy to use consistent estimators.[19]

Impact on longevity and public health edit

Tetlock and Gardner claimed that the contributions of medical science to increasing human longevity and public health were negligible, and too often negative, until Scottish physician Archie Cochrane was able to convince the medical establishment to adopt randomized control trials after World War II.[20]

See also edit

References edit

  1. ^ "8. Case–control and cross sectional studies" (PDF). Retrieved 5 March 2012.
  2. ^ King, Gary; Zeng, Langche (30 May 2002). "Estimating risk and rate levels, ratios and differences in case-control studies". Statistics in Medicine. 21 (10): 1409–1427. doi:10.1002/sim.1032. ISSN 0277-6715. PMID 12185893. S2CID 11387977.
  3. ^ a b c Porta, M., ed. (2008). A Dictionary of Epidemiology (5th ed.). New York: Oxford University Press. ISBN 978-0-19-531450-2.
  4. ^ Rothman, K. (2002). Epidemiology: An Introduction. Oxford, England: Oxford University Press. ISBN 978-0-19-513554-1.
  5. ^ a b Grimes DA, Schulz KF (2005). "Compared to what? Finding controls for case–control studies". Lancet. 365 (9468): 1429–33. doi:10.1016/S0140-6736(05)66379-9. PMID 15836892. S2CID 836985.
  6. ^ Schulz KF, Grimes DA (2002). "Case–control studies: research in reverse". Lancet. 359 (9304): 431–4. doi:10.1016/S0140-6736(02)07605-5. PMID 11844534. S2CID 10770936.
  7. ^ a b "Prospective, Retrospective, Case–control, Cohort Studies - StatsDirect". www.statsdirect.com. Retrieved 4 July 2019.
  8. ^ Levin KA (2005). "Study design I". Evidence-Based Dentistry. 6 (3): 78–79. doi:10.1038/sj.ebd.6400355. PMID 16184164.
  9. ^ Lawlor DA, Davey Smith G, Ebrahim S (2004). "Commentary: the hormone replacement-coronary heart disease conundrum: is this the death of observational epidemiology?". Int J Epidemiol. 33 (3): 464–7. doi:10.1093/ije/dyh124. PMID 15166201.
  10. ^ Ioannidis JP (2005). "Contradicted and initially stronger effects in highly cited clinical research". JAMA. 294 (2): 218–28. doi:10.1001/jama.294.2.218. PMID 16014596.
  11. ^ Doll R, Hill AB (1950). "Smoking and carcinoma of the lung; preliminary report". Br Med J. 2 (4682): 739–48. doi:10.1136/bmj.2.4682.739. PMC 2038856. PMID 14772469.
  12. ^ Doll R, Hill AB (1956). "Lung cancer and other causes of death in relation to smoking; a second report on the mortality of British doctors". Br Med J. 2 (5001): 1071–81. doi:10.1136/bmj.2.5001.1071. PMC 2035864. PMID 13364389.
  13. ^ Doll R, Peto R, Boreham J, Sutherland I (2004). "Mortality in relation to smoking: 50 years' observations on male British doctors". BMJ. 328 (7455): 1519. doi:10.1136/bmj.38142.554479.AE. PMC 437139. PMID 15213107.
  14. ^ a b Rodrigues, L.; Kirkwood, B. R. (1990). "Case–control designs in the study of common diseases: updates on the demise of the rare disease assumption and the choice of sampling scheme for controls". Int. J. Epidemiol. 19 (1): 205–13. doi:10.1093/ije/19.1.205. PMID 2190942.
  15. ^ Greenhouse SW (1982). "Jerome Cornfield's contributions to epidemiology". Biometrics. 38 Suppl: 33–45. doi:10.2307/2529852. JSTOR 2529852. PMID 7046823.
  16. ^ Miettinen, O. (1976). "Estimability and estimation in case–referent studies". Am. J. Epidemiol. 103 (2): 226–35. doi:10.1093/oxfordjournals.aje.a112220. PMID 1251836.
  17. ^ Rothman, K. J.; Greenland, S.; Lash, T. L. (2008). Modern Epidemiology (3rd ed.). Wolters Kluwer, Lippincott Williams & Wilkins. ISBN 978-0-7817-5564-1.
  18. ^ Prentice RL, Pyke R (1979). "Logistic disease incidence models and case–control studies". Biometrika. 66 (3): 403–411. doi:10.1093/biomet/66.3.403.
  19. ^ King, Gary; Zeng, Langche (30 May 2002). "Estimating risk and rate levels, ratios and differences in case–control studies". Statistics in Medicine. 21 (10): 1409–1427. doi:10.1002/sim.1032. ISSN 0277-6715. PMID 12185893. S2CID 11387977.
  20. ^ Philip E. Tetlock; Dan Gardner (2015), Superforecasting: The Art and Science of Prediction, Crown Publishing Group, OL 26682260M, Wikidata Q21203378, esp. ch. 2.

Further reading edit

  • Stolley, Paul D.; Schlesselman, James J. (1982). Case–control studies: design, conduct, analysis. Oxford [Oxfordshire]: Oxford University Press. ISBN 0-19-502933-X. (Still a very useful book, and a great place to start, but now a bit out of date.)

External links edit

  • Wellcome Trust Case Control Consortium

December 15, 2023
case, control, study, case, control, study, also, known, case, referent, study, type, observational, study, which, existing, groups, differing, outcome, identified, compared, basis, some, supposed, causal, attribute, case, control, studies, often, used, identi. A case control study also known as case referent study is a type of observational study in which two existing groups differing in outcome are identified and compared on the basis of some supposed causal attribute Case control studies are often used to identify factors that may contribute to a medical condition by comparing subjects who have that condition disease the cases with patients who do not have the condition disease but are otherwise similar the controls 1 They require fewer resources but provide less evidence for causal inference than a randomized controlled trial A case control study is often used to produce an odds ratio which is an inferior measure of strength of association compared to relative risk but new statistical methods make it possible to use a case control study to estimate relative risk risk differences and other quantities 2 Case control study versus cohort on a timeline OR stands for odds ratio and RR stands for relative risk Contents 1 Definition 1 1 Control group selection 1 2 Prospective vs retrospective cohort studies 2 Strengths and weaknesses 3 Examples 4 Analysis 5 Impact on longevity and public health 6 See also 7 References 8 Further reading 9 External linksDefinition editThe case control is a type of epidemiological observational study An observational study is a study in which subjects are not randomized to the exposed or unexposed groups rather the subjects are observed in order to determine both their exposure and their outcome status and the exposure status is thus not determined by the researcher citation needed Porta s Dictionary of Epidemiology defines the case control study as an observational epidemiological study of persons with the disease or another outcome variable of interest and a suitable control group of persons without the disease comparison group reference group 3 The potential relationship of a suspected risk factor or an attribute to the disease is examined by comparing the diseased and nondiseased subjects with regard to how frequently the factor or attribute is present or if quantitative the levels of the attribute in each of the groups diseased and nondiseased 3 For example in a study trying to show that people who smoke the attribute are more likely to be diagnosed with lung cancer the outcome the cases would be persons with lung cancer the controls would be persons without lung cancer not necessarily healthy and some of each group would be smokers If a larger proportion of the cases smoke than the controls that suggests but does not conclusively show that the hypothesis is valid citation needed The case control study is frequently contrasted with cohort studies wherein exposed and unexposed subjects are observed until they develop an outcome of interest 3 4 Control group selection edit Controls need not be in good health inclusion of sick people is sometimes appropriate as the control group should represent those at risk of becoming a case 5 Controls should come from the same population as the cases and their selection should be independent of the exposures of interest 6 Controls can carry the same disease as the experimental group but of another grade severity therefore being different from the outcome of interest However because the difference between the cases and the controls will be smaller this results in a lower power to detect an exposure effect citation needed As with any epidemiological study greater numbers in the study will increase the power of the study Numbers of cases and controls do not have to be equal In many situations it is much easier to recruit controls than to find cases Increasing the number of controls above the number of cases up to a ratio of about 4 to 1 may be a cost effective way to improve the study 5 Prospective vs retrospective cohort studies edit A prospective study watches for outcomes such as the development of a disease during the study period and relates this to other factors such as suspected risk or protection factor s The study usually involves taking a cohort of subjects and watching them over a long period The outcome of interest should be common otherwise the number of outcomes observed will be too small to be statistically meaningful indistinguishable from those that may have arisen by chance All efforts should be made to avoid sources of bias such as the loss of individuals to follow up during the study Prospective studies usually have fewer potential sources of bias and confounding than retrospective studies 7 A retrospective study on the other hand looks backwards and examines exposures to suspected risk or protection factors in relation to an outcome that is established at the start of the study Many valuable case control studies such as Lane and Claypon s 1926 investigation of risk factors for breast cancer were retrospective investigations Most sources of error due to confounding and bias are more common in retrospective studies than in prospective studies For this reason retrospective investigations are often criticised If the outcome of interest is uncommon however the size of prospective investigation required to estimate relative risk is often too large to be feasible In retrospective studies the odds ratio provides an estimate of relative risk One should take special care to avoid sources of bias and confounding in retrospective studies 7 Strengths and weaknesses editCase control studies are a relatively inexpensive and frequently used type of epidemiological study that can be carried out by small teams or individual researchers in single facilities in a way that more structured experimental studies often cannot be They have pointed the way to a number of important discoveries and advances The case control study design is often used in the study of rare diseases or as a preliminary study where little is known about the association between the risk factor and disease of interest 8 Compared to prospective cohort studies they tend to be less costly and shorter in duration In several situations they have greater statistical power than cohort studies which must often wait for a sufficient number of disease events to accrue citation needed Case control studies are observational in nature and thus do not provide the same level of evidence as randomized controlled trials The results may be confounded by other factors to the extent of giving the opposite answer to better studies A meta analysis of what was considered 30 high quality studies concluded that use of a product halved a risk when in fact the risk was if anything increased 9 10 It may also be more difficult to establish the timeline of exposure to disease outcome in the setting of a case control study than within a prospective cohort study design where the exposure is ascertained prior to following the subjects over time in order to ascertain their outcome status The most important drawback in case control studies relates to the difficulty of obtaining reliable information about an individual s exposure status over time Case control studies are therefore placed low in the hierarchy of evidence citation needed Examples editOne of the most significant triumphs of the case control study was the demonstration of the link between tobacco smoking and lung cancer by Richard Doll and Bradford Hill They showed a statistically significant association in a large case control study 11 Opponents argued for many years that this type of study cannot prove causation but the eventual results of cohort studies confirmed the causal link which the case control studies suggested 12 13 and it is now accepted that tobacco smoking is the cause of about 87 of all lung cancer mortality in the US Analysis editCase control studies were initially analyzed by testing whether or not there were significant differences between the proportion of exposed subjects among cases and controls 14 Subsequently Cornfield 15 pointed out that when the disease outcome of interest is rare the odds ratio of exposure can be used to estimate the relative risk see rare disease assumption The validity of the odds ratio depends highly on the nature of the disease studied on the sampling methodology and on the type of follow up Although in classical case control studies it remains true that the odds ratio can only approximate the relative risk in the case of rare diseases there is a number of other types of studies case cohort nested case control cohort studies in which it was later shown that the odds ratio of exposure can be used to estimate the relative risk or the incidence rate ratio of exposure without the need for the rare disease assumption 14 16 17 When the logistic regression model is used to model the case control data and the odds ratio is of interest both the prospective and retrospective likelihood methods will lead to identical maximum likelihood estimations for covariate except for the intercept 18 The usual methods of estimating more interpretable parameters than odds ratios such as risk ratios levels and differences is biased if applied to case control data but special statistical procedures provide easy to use consistent estimators 19 Impact on longevity and public health editTetlock and Gardner claimed that the contributions of medical science to increasing human longevity and public health were negligible and too often negative until Scottish physician Archie Cochrane was able to convince the medical establishment to adopt randomized control trials after World War II 20 See also editNested case control study Retrospective cohort study Prospective cohort study Randomized controlled trialReferences edit 8 Case control and cross sectional studies PDF Retrieved 5 March 2012 King Gary Zeng Langche 30 May 2002 Estimating risk and rate levels ratios and differences in case control studies Statistics in Medicine 21 10 1409 1427 doi 10 1002 sim 1032 ISSN 0277 6715 PMID 12185893 S2CID 11387977 a b c Porta M ed 2008 A Dictionary of Epidemiology 5th ed New York Oxford University Press ISBN 978 0 19 531450 2 Rothman K 2002 Epidemiology An Introduction Oxford England Oxford University Press ISBN 978 0 19 513554 1 a b Grimes DA Schulz KF 2005 Compared to what Finding controls for case control studies Lancet 365 9468 1429 33 doi 10 1016 S0140 6736 05 66379 9 PMID 15836892 S2CID 836985 Schulz KF Grimes DA 2002 Case control studies research in reverse Lancet 359 9304 431 4 doi 10 1016 S0140 6736 02 07605 5 PMID 11844534 S2CID 10770936 a b Prospective Retrospective Case control Cohort Studies StatsDirect www statsdirect com Retrieved 4 July 2019 Levin KA 2005 Study design I Evidence Based Dentistry 6 3 78 79 doi 10 1038 sj ebd 6400355 PMID 16184164 Lawlor DA Davey Smith G Ebrahim S 2004 Commentary the hormone replacement coronary heart disease conundrum is this the death of observational epidemiology Int J Epidemiol 33 3 464 7 doi 10 1093 ije dyh124 PMID 15166201 Ioannidis JP 2005 Contradicted and initially stronger effects in highly cited clinical research JAMA 294 2 218 28 doi 10 1001 jama 294 2 218 PMID 16014596 Doll R Hill AB 1950 Smoking and carcinoma of the lung preliminary report Br Med J 2 4682 739 48 doi 10 1136 bmj 2 4682 739 PMC 2038856 PMID 14772469 Doll R Hill AB 1956 Lung cancer and other causes of death in relation to smoking a second report on the mortality of British doctors Br Med J 2 5001 1071 81 doi 10 1136 bmj 2 5001 1071 PMC 2035864 PMID 13364389 Doll R Peto R Boreham J Sutherland I 2004 Mortality in relation to smoking 50 years observations on male British doctors BMJ 328 7455 1519 doi 10 1136 bmj 38142 554479 AE PMC 437139 PMID 15213107 a b Rodrigues L Kirkwood B R 1990 Case control designs in the study of common diseases updates on the demise of the rare disease assumption and the choice of sampling scheme for controls Int J Epidemiol 19 1 205 13 doi 10 1093 ije 19 1 205 PMID 2190942 Greenhouse SW 1982 Jerome Cornfield s contributions to epidemiology Biometrics 38 Suppl 33 45 doi 10 2307 2529852 JSTOR 2529852 PMID 7046823 Miettinen O 1976 Estimability and estimation in case referent studies Am J Epidemiol 103 2 226 35 doi 10 1093 oxfordjournals aje a112220 PMID 1251836 Rothman K J Greenland S Lash T L 2008 Modern Epidemiology 3rd ed Wolters Kluwer Lippincott Williams amp Wilkins ISBN 978 0 7817 5564 1 Prentice RL Pyke R 1979 Logistic disease incidence models and case control studies Biometrika 66 3 403 411 doi 10 1093 biomet 66 3 403 King Gary Zeng Langche 30 May 2002 Estimating risk and rate levels ratios and differences in case control studies Statistics in Medicine 21 10 1409 1427 doi 10 1002 sim 1032 ISSN 0277 6715 PMID 12185893 S2CID 11387977 Philip E Tetlock Dan Gardner 2015 Superforecasting The Art and Science of Prediction Crown Publishing Group OL 26682260M Wikidata Q21203378 esp ch 2 Further reading editStolley Paul D Schlesselman James J 1982 Case control studies design conduct analysis Oxford Oxfordshire Oxford University Press ISBN 0 19 502933 X Still a very useful book and a great place to start but now a bit out of date External links editWellcome Trust Case Control Consortium Retrieved from https en wikipedia org w index php title Case control study amp oldid 1188104006, wikipedia, wiki, book, books, library,

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