Case-Control Studies (retrospective studies) Sue Lindsay, Ph.D., MSW, MPH Division of Epidemiology and Biostatistics Institute for Public Health San Diego.

Slides:



Advertisements
Similar presentations
Bias Lecture notes Sam Bracebridge.
Advertisements

1 Epidemiologic Measures of Association Saeed Akhtar, PhD Associate Professor, Epidemiology Division of Epidemiology and Biostatistics Aga Khan University,
Principles of Epidemiology Lecture 10 Dona Schneider, PhD, MPH, FACE
Cohort Studies.
Principles of case control studies Part I Nature of the design of case control studies Odds ratio as the measurement of association Piyanit Tharmaphornpilas.
SLIDE 1 Confounding and Bias Aya Goto Nguyen Quang Vinh.
Case-Control Studies (Retrospective Studies). What is a cohort?
KINE 4565: The epidemiology of injury prevention Case control and case crossover studies.
Chance, bias and confounding
What type of study is this?
Comunicación y Gerencia 1Case control studies15/12/2010.
Dr. Rufaidah Dabbagh Dr. Armen Torchyan MBBS, MPH MD, MPH CMED 304 Family and Community Medicine Department Family and Community Medicine Department.
Case-Control Studies. Feature of Case-control Studies 1. Directionality Outcome to exposure 2. Timing Retrospective for exposure, but case- ascertainment.
Manish Chaudhary BPH, MPH
Principles of Epidemiology Lecture 9 Dona Schneider, PhD, MPH, FACE
COHORT STUDY DR. A.A.TRIVEDI (M.D., D.I.H.) ASSISTANT PROFESSOR
CASE CONTROL STUDY 8/21/20152 Case-control study Exposure Disease (+) ? Exposure Disease (-) ?
Case Control Study Manish Chaudhary BPH, MPH
Case-Control Studies and Odds Ratio STAT 6395 Spring 2008 Filardo and Ng.
Multiple Choice Questions for discussion
Dr. Abdulaziz BinSaeed & Dr. Hayfaa A. Wahabi Department of Family & Community medicine  Case-Control Studies.
Case control study Moderator : Chetna Maliye Presenter Reshma Sougaijam.
1 Chapter 8 Case-Control Studies. 2 Chapter Outline 8.1 Introduction 8.2 Identification of cases and controls 8.3 Obtaining information on exposure 8.4.
Spurious Association Sometimes an observed association between a disease and suspected factor may not be real. e.g. A study was conducted between births.
CHP400: Community Health Program- lI Research Methodology STUDY DESIGNS Observational / Analytical Studies Case Control Studies Present: Disease Past:
Hypothesis Testing Field Epidemiology. Hypothesis Hypothesis testing is conducted in etiologic study designs such as the case-control or cohort as well.
Types of study designs Arash Najimi
Case Control and Cohort studies
BC Jung A Brief Introduction to Epidemiology - IX (Epidemiologic Research Designs: Case-Control Studies) Betty C. Jung, RN, MPH, CHES.
Measures of Association
Bias Defined as any systematic error in a study that results in an incorrect estimate of association between exposure and risk of disease. To err is human.
Prospective Studies (cohort, longitudinal, incidence studies) Sue Lindsay, Ph.D., MSW, MPH Division of Epidemiology and Biostatistics Institute for Public.
Mother and Child Health: Research Methods G.J.Ebrahim Editor Journal of Tropical Pediatrics, Oxford University Press.
Design and Analysis of Clinical Study 6. Case-control Study Dr. Tuan V. Nguyen Garvan Institute of Medical Research Sydney, Australia.
A short introduction to epidemiology Chapter 2b: Conducting a case- control study Neil Pearce Centre for Public Health Research Massey University Wellington,
SEARO – CSR Training on Outbreak Investigation Cohort and case-control studies Observational studies.
Measuring the Occurrence of Disease 1 Sue Lindsay, Ph.D., MSW, MPH Division of Epidemiology and Biostatistics Institute for Public Health San Diego State.
Case-control study Chihaya Koriyama August 17 (Lecture 1)
Daniel E. Ford, MD, MPH Vice Dean of Clinical Investigation Johns Hopkins School of Medicine Introduction to Clinical Research July 15, 2010 STUDY DESIGN.
Case Control Study Dr. Ashry Gad Mohamed MB, ChB, MPH, Dr.P.H. Prof. Of Epidemiology.
Basic concept of clinical study
Case-Control Study Duanping Liao, MD, Ph.D
Unit 10: Case-Control, Case-Crossover, and Cross-Sectional Studies.
Case-Control Studies Abdualziz BinSaeed. Case-Control Studies Type of analytic study Unit of observation and analysis: Individual (not group)
COHORT STUDY COHORT A group of people who share a common characteristic or experience within a defined period of time. e.g. age, occupation, exposure.
CHP400: Community Health Program - lI Research Methodology STUDY DESIGNS Observational / Analytical Studies Cohort Study Present: Disease Past: Exposure.
Case Control Study Dr Pravin Pisudde Moderator: Abhishek Raut.
Case Control Studies Dr Amna Rehana Siddiqui Department of Family and Community Medicine October 17, 2010.
CASE CONTROL STUDY. Learning Objectives Identify the principles of case control design State the advantages and limitations of case control study Calculate.
Matched Case-Control Study Duanping Liao, MD, Ph.D Phone:
Odds Ratio& Bias in case-control studies
Case-Control Studies Afshin Ostovar Bushehr University of Medical Sciences Bushehr, /14/20161.
Questions.
Case control & cohort studies
Case Control study. An investigation that compares a group of people with a disease to a group of people without the disease. Used to identify and assess.
Epidemiological Study Designs And Measures Of Risks (1)
Chapter 9: Case Control Studies Objectives: -List advantages and disadvantages of case-control studies -Identify how selection and information bias can.
Study Designs Group Work
Present: Disease Past: Exposure
Epidemiologic Measures of Association
CASE-CONTROL STUDIES Ass.Prof. Dr Faris Al-Lami MB,ChB MSc PhD FFPH
بسم الله الرحمن الرحيم COHORT STUDIES.
Measures of Association
Class session 13 Case-control studies
Case-Control Studies.
دانشگاه علوم پزشکی بوشهر دانشکده بهداشت
Evaluating the Role of Bias
Epidemiology MPH 531 Analytic Epidemiology Case control studies
Research Techniques Made Simple: Interpreting Measures of Association in Clinical Research Michelle Roberts PhD,1,2 Sepideh Ashrafzadeh,1,2 Maryam Asgari.
Presentation transcript:

Case-Control Studies (retrospective studies) Sue Lindsay, Ph.D., MSW, MPH Division of Epidemiology and Biostatistics Institute for Public Health San Diego State University

Case Control Study Design Exposed to risk factor Not exposed to risk factor Exposed to risk factor Not exposed to risk factor Cases: With Disease Controls: No Disease Source Population select

Case-Control Study Design The hallmark of the case-control study design is that it begins with cases and compares them with non-cases (controls). SELECT CASES AND CONTROLS ASSESS EXPOSURE SOMETIME IN THE PAST Start here

Design Considerations These investigations are initially oriented to disease status The objective is to compare the odds of exposure among persons with the disease to the odds of exposure among persons without the disease You need a well-defined source population How well can you identify individuals with the disease? Case identification should be as complete as possible within the source population. The sample of cases should be representative of all cases.

Design Considerations The sample of controls should be representative of the general population. Can you accurately detect exposures to your risk factor? When possible verify exposures by multiple methods: interview, medical record review, blood test etc. How should you select your cases? How should you select your controls? Selection of cases or controls should not be influenced by prior exposure to the risk factor.

Steps in Conducting Case-Control Studies 1. Select source population 2. Identify and select cases 3. Identify and select controls Match cases to controls Group matching or individual matching? 4. Measure exposure in cases and controls 5. Compare odds of exposure in diseased to odds of exposure in non-diseased persons.

Sources of Case Selection Population-based case-control studies Surveillance systems Patients identified by: Physician practices Clinics Registries Hospitals Hospital-based case-control studies Cases admitted to a hospital or hospitals

Issues in Case Selection Are the cases selected representative of all cases in the community? Are there institutional or hospital differences which may affect the study? Are there physician practice differences that may affect the study? Should you use incident cases or prevalent cases?

Incident or Prevalent Cases? Must be able to identify new cases Survivorship/risk bias less of a problem Early deaths will still be excluded More cases available May over-represent survivors Risk factors may be associated with survivorship Incident Cases Prevalent Cases

Characteristics of Controls Should be from source population Should be representative of general population, or at least the source population Should be comparable to cases except on risk factor Random selection when possible Selected independently of exposure Should be from same sampling time frame Should be “at risk” for being categorized as a case

Sources of Population-Based Controls Random sample of total population Random sample from source population Neighborhood controls (random households) Primary care clinics, private practice offices Other diseases – registries Friends

Hospital-Based Controls Captive population Poorly defined reference population Not comparable to general community Possibly older, sicker, risk factor differences Use a sample of all other patients admitted? Select specific diagnoses for control group? What diseases to include and exclude in the control group?

Selection Bias                                      Disease No Disease ExposedNot Exposed Selection bias stems from an absence of comparability between the two groups being studied (cases and controls).

Misclassification Bias                     Disease No Disease ExposedNot Exposed Incorrect determination of exposure or outcome or both. Non-differential misclassification bias Differential misclassification bias Diagnostic suspicion bias particularly challenging

Case-Control 2 X 2 Table a Cases Controls Exposed (+) Not Exposed (-) b cd a + cb + d First Select Then Classify Exposure

Case-Control Analysis In case-control studies we cannot calculate risk or incidence: therefore we cannot calculate relative risk as we can in cohort studies Instead, calculate the Odds Ratio (OR). Based on the concept of relative odds of disease

Case-Control Analysis Odds of case exposure Odds of control exposure Proportion cases exposed Proportion controls exposed Proportion cases not exposed Proportion controls not exposed

The Case-Control 2 X 2 Table a Cases Controls Exposed (+) Not Exposed (-) b d Proportions Exposed a/a+c b/(b+d) c Proportions Not Exposed c/a+c d/(b+d)

The Odds of Case Exposure The Odds of Control Exposure a Cases Controls Exposed (+) Not Exposed (-) b cd Odds of case exposure: a/(a+c)= a c/(a+c) c Odds of control exposure: b/(b+d) = b d/(b+d) d

The Odds Ratio in a Case Control Study Odds Ratio Odds of case exposure Odds of control exposure OR = a/c b/d = = ad bc a b c d = cross-product ratio

Case-Control Study of CHD and Smoking 112 CHD Cases Controls Smoking (+) No Smoking (-) OR = (112 x 224) = 1.62 (88 x 176) The odds that a patient with CHD was exposed to smoking is 1.62 times greater than a patient without CHD.

Interpretation of Odds Ratio Estimates If OR = 1: Risk in Exposed = Risk in Non-exposed (No Association) If OR > 1: Risk in Exposed > Risk in Non-exposed (Positive Association) If OR < 1: Risk in Exposed < Risk in Non-exposed (Protective Association)

Another way to look at the Odds Ratio Cases Controls Exposed (+) Not Exposed (-) c ba d The OR can be viewed as the ratio of the product of the 2 cells that support the hypothesis, cells a and d, (diseased people exposed and non-diseased people unexposed) to the product of the 2 Cells that negate the null hypothesis of association, cells b and c, (exposed non-diseased people and unexposed diseased people)

Case-Control Odds Ratio: An Estimation of Relative Risk Case- control Odds Ratios can be used to estimate Relative Risk if the following conditions are met: The controls are representative of the general population The cases are representative of all cases The frequency of the disease in the population is small a b c d RR= a/(a+b) c/(c+d) If a is small in relation to b If c is small in relation to d = a/b c/d = ad bc Exposed Not Exposed CasesControls

A Rare Disease 45 Cases Controls Exposed (+) Not Exposed (-) Relative Risk = (45/5000)/(29/5000) = Odds Ratio = (45 x 4971)/(29 x 4955) = 1.56

A Common Disease 4500 Cases Controls Exposed (+) Not Exposed (-) Relative Risk = (4500/5000)/(2900/5000) = Odds Ratio = (4500 x 2100)/(2900 x 500) = 6.52

Problems with Selections of Controls: An Example Using Coffee and Pancreatic Cancer MacMahan, 1981, case-control study of pancreatic cancer Cases drawn from 11 Boston and Rhode Island hospitals - histologically confirmed pancreatic cancer Controls selected from same hospitals, admitted by the same physician as each case The association between coffee drinking and pancreatic cancer was not the main hypothesis of the study

Odds Ratio in Men 207 Pancreatic Cancer Controls Coffee drinking No coffee Men OR = (207 x 32)/(275 x 9) = 2.68

Odds Ratio in Women 140 Pancreatic Cancer Controls Coffee drinking No coffee Women OR = (140 x 56)/(280 x 11) = 2.55

Biased Control Selection Controls were patients hospitalized at the same time by the same physician who hospitalized the cases Easier to obtain physician cooperation and control participation Most admitting physicians were gastroenterlogists Gastroenterologists were more likely to admit control patients with other GI disorders Patients with serious GI disorders were less likely to consume coffee

Odds Ratio in Women 140 Pancreatic Cancer Controls Coffee drinking No coffee Women 1. The percent of controls reporting coffee drinking was less than expected 3. Controls were not representative of the general population 2. The percent of controls reporting no coffee drinking was greater than expected

Recall Issues Can subjects remember exposure accurately? Recall Limitations Subject has incorrect information, forgets, does not have knowledge Recall Bias Selective recall by cases Differential recall between cases and controls

Matching in Case-Control Studies Purpose: To control for confounding Confounder: A known risk factor for your disease of interest Also associated with your risk factor Distorts the association between your risk factor and disease Matching: Selects controls so that they are similar to the cases on confounding variables: age, sex, ses, etc. Increases statistical precision of estimates allowing smaller sample size

Types of Matching in Case-Control Studies Group Matching Individual Matching Match by frequency or proportion of a selected characteristic Pair-wise matching, each case is paired with a similar control

Examples of Types of Matching Group Matching Individual Matching 25% of cases married, controls selected to be 25% married Case is a 45 year old Caucasian woman, control is selected who is also a 45 year old Caucasian woman

Problems With Matching in Case- Control Studies Practical Attempting to match on too many characteristics Time consuming Cases who are not successfully matched must be discarded from the analysis Analytical When controls are matched to cases on a given characteristic, that characteristic cannot be studied as an independent risk factor for the disease Do not match on a characteristic you are interested in studying!!

Practical Problems with Matching Match on age, sex, race, marital status, number of children, zip code Can you find a control who is a 35 year old Caucasian male, married, 4 children in zip code 92123?

General Guidelines for Matching in Case-Control Studies Only match on variables that are known risk factors for your disease of interest. Do not match on variables whose relationship with the disease needs to be studied Beware of unplanned matching and overmatching

Oral Contraceptives and Cancer: An Example of Unplanned Matching a Cancer Best-Friend Controls Contraceptive use No contraceptive use b cd The % of controls reporting OC use Is likely to be greater than expected Best friends share lifestyle characteristics with cases which will affect any association that is observed

Analysis of a Case-Control Study with Pair-wise Matching W Control Exposed Control Not Exposed Case exposed Case not exposed X YZ W and Z are concordant pairs, X and Y are discordant pairs OR = X Y

Example of a Case-Control Study with Pair-wise Matching Antunes, 1979, case-control study of endometrial cancer Baltimore hospitals: Research Question: Is there an association between estrogen use and endometrial cancer? Selected cases with Stage 1 tumors Pair-wise matched with controls by hospital, race, and age

Estrogen Use and Endometrial Cancer 17 Control Used Estrogen Control No estrogen Case: used estrogen Case: no estrogen OR = 76 =

Use of Multiple Controls Controls of the same type Controls of different types Multiple controls per case will increase the statistical power of your study Up to case-control ratios of approximately 1:4

When to Use Multiple Controls of Different Types? A single control group may be biased in some way A hospitalized control group is non-representative of the community Neighborhood or best-friend controls are overmatched Can learn more about the disease process

Multiple Controls of Different Types: Prenatal Radiation and Brain Tumors in Children Children with brain tumors Children with no cancer Children with other types of cancer Cases Normal ControlsCancer Controls

Radiation and Brain Tumors Prenatal radiation is a risk factor specifically for brain tumors (not all cancers) Is there recall bias?