Research Design PDF

Summary

This document details different research study designs, including cross-sectional, case-control, and cohort studies. It describes the characteristics, strengths, weaknesses, and typical uses of each type. The document also includes examples and key points, useful for understanding research methodologies.

Full Transcript

Feature Cross-Sectional Case-Control Study Cohort Study
Study

Study Observational, data Observational, compares Observational, follows a
Design collected at a single cases and controls group over time
point in time (retrospective) (prospective or
retrospective)

Data Data collected once at Data collected by looking Data collected over a
Collection a single time point back at past period of time from an
exposures/events exposed group

Purpose To determine To identify risk factors or To determine the effect
prevalence or what is causes by comparing of exposures on
happening at the exposure in cases vs. outcomes over time
moment controls

Time Frame Single point in time Retrospective (looking Prospective (future) or
(snapshot) back at past data) retrospective (past data)

Example What is the What factors contributed to What is the long-term
Question prevalence of diabetes the development of lung effect of smoking on
in a population? cancer in smokers? lung cancer risk?

Type of Data Descriptive Analytic (comparing Analytic (tracking
(prevalence, exposures between cases changes over time
characteristics) and controls) between exposed and
non-exposed)

Strengths Fast, cost-effective, Efficient for studying rare Good for understanding
provides a snapshot of diseases or outcomes, causality, can assess
the population good for hypothesis multiple outcomes
generation

Weaknesses Cannot determine Cannot establish causality, Time-consuming,
causality, no temporal subject to recall and expensive, potential loss
data selection bias to follow-up

Establish No, only associations No, only associations Yes (prospective), can
Causality? suggest causal
relationships
 Data Descriptive statistics Comparison of exposure Comparison of
Analysis (e.g., prevalence rates between cases and outcomes in exposed
rates) controls vs. non-exposed groups
over time

Typical Use Population health Studying rare diseases, Studying long-term
surveys, prevalence identifying risk factors health outcomes, risk
studies factors, cohort
comparisons

Example Scenarios:

Cross-Sectional Study: A survey in a city to determine how many people currently have
hypertension and identify demographic trends (e.g., age, sex, lifestyle).
Case-Control Study: A study comparing lung cancer patients (cases) with healthy
individuals (controls) to identify risk factors like smoking history, air pollution exposure, or
genetics.
Cohort Study: A study following two groups of individuals, smokers and non-smokers,
over 10 years to assess the development of lung cancer.

This table organizes the core aspects of each study design, helping to differentiate their
purpose, data collection methods, and strengths/weaknesses.

This handwritten note provides a summary of observational study designs and breaks them
down into three types:

1. Cross-Sectional Study

Characteristics:
○ Involves a survey or a snapshot of a specific population at one point in time.
○ Suitable for large groups and provides quick results.
○ Data collection: Observes, measures, and collects data once.
Uses:
○ Used in epidemiological studies and for prevalence studies.
○ Helps determine current state (e.g., "What is happening right now?").

2. Case-Control Study

Characteristics:
○ Retrospective design (looks back in time).
○ Focuses on people who have a disease or outcome and compares them with
those who do not.
○ Used especially for studying rare diseases.
Purpose:
 ○ To identify exposure factors related to the disease.
○ Uses Odds Ratio (OR) to measure association.
OR < 1: Protective effect against the disease.
OR > 1: Increased risk.
OR = 0: No effect.
Process:
○ Analyzes history or previous events through medical records or interviews.

3. Cohort Study

Characteristics:
○ Observes people exposed to a risk factor (RF) (e.g., smoking) over time.
Types:
○ Prospective Cohort:
Tracks exposed individuals into the future to observe outcomes (e.g.,
lung cancer).
○ Retrospective Cohort:
Starts with existing data from the past and follows outcomes (e.g., past
insulin use and current health outcomes).
Measures:
○ Both Relative Risk (RR) and Odds Ratio (OR) can be calculated.

These notes provide a concise comparison of each study design's purpose, characteristics, and
typical uses in research.

Study Designs with Full Details on Advantages and Disadvantages

1. Case-Control (Retrospective) Studies

Description: A study that compares patients who have a disease or outcome of interest
(cases) with patients who do not have the disease or outcome (controls).
History/previous events of both cases and controls are analyzed by looking back in time
(retrospectively) through examination of medical records, interviews to identify a
characteristic/risk factor to determine the relationship between the risk factor and the
disease.
Advantages:
○ Appropriate for examining conditions that develop over a long time.
 ○ Useful for investigation of a preliminary hypothesis.
○ Fast and least expensive.
Disadvantages:
○ Have the greatest number of possible biases/errors.
○ Depend on high-quality existing records.
○ Challenge in the selection of appropriate control group.
Example: There is a suspicion that zinc oxide, the white non-absorbent sunscreen
traditionally worn by lifeguards, is more effective at preventing sunburns that lead to skin
cancer than absorbent sunscreen lotions. A case-control study was conducted to
investigate if exposure to zinc oxide is a more effective skin cancer prevention measure.
The study involved comparing a group of former lifeguards that had developed cancer
on their cheeks and noses (cases) to a group of lifeguards without this type of cancer
(controls) and assess their prior exposure to zinc oxide or absorbent sunscreen lotions.
This study would be retrospective in that the former lifeguards would be asked to recall
which type of sunscreen they used on their face and approximately how often. This could
be either a matched or unmatched study, but efforts would need to be made to ensure
that the former lifeguards are of the same average age, and lifeguarded for a similar
number of seasons and amount of time per season.

2. Cross-Sectional Studies

Description: Data are observed, measured, and collected at one point in time. Also
labeled as survey, epidemiological, or prevalence studies. Determine “What is
happening?” at that moment.
Advantages:
○ Best for determining the status quo of a disease/condition.
○ Quick and relatively inexpensive.
Disadvantages:
○ Only provides a snapshot in time which may result in misleading information.
○ Difficult to get a large sample, and the sample may not be representative of the
entire population.
Example: A medical study investigates the prevalence of breast cancer in a population.
The researcher can look at a wide range of ages, ethnicities, and social backgrounds. If
a significant number of women from a certain social background are found to have the
disease, then the researcher can investigate further.

3. Cohort Studies (Prospective and Retrospective)

Description: A cohort refers to a group of people who share something in common and
remain part of a group over an extended time. In a cohort study, a particular group with a
 certain characteristic is observed over a certain period of time. Addresses “What will
happen?” (prospective) or “What had contributed to the problem?” (retrospective).
Advantages:
○ Appropriate for studying the causes of a condition, the course of a disease, or
risk factors.
○ Possesses the correct time sequence to provide strong evidence for possible
causes/effects.
Disadvantages:
○ Extended study period results in large costs.
○ Other events occurring during the study period may have affected outcomes.
○ Susceptible to problems in patient follow-up and dropout.

4. Experimental Studies

Description: Experimental studies that involve humans are known as clinical trials.
Controlled clinical trials are studies whereby an experimental drug or procedure is
compared with another drug/procedure. In randomized clinical trials, subjects are
randomized to treatment options providing the best assurance that the result was due to
intervention or most rigorous evidence of causality.
Advantages:
○ Gold standard against which other studies are judged.
○ Provides the greatest justification for concluding causality and is subject to the
least biases.
Disadvantages:
○ Costly and time-consuming.
○ Evidence from a clinical trial may not be 100% applicable to current practice as
certain factors may have been excluded.
Certainly! Here’s a table comparing the different study designs along with their respective
descriptions, advantages, disadvantages, and examples:

Study Design Description Advantages Disadvantage Example
s

Case-Control Compares patients - Suitable for - High potential A study
(Retrospective with a conditions for comparing
) disease/outcome developing over biases/errors former
(cases) to those a long time lifeguards with
without it (controls). - Depends on cancer on their
Analyzes - Useful for high-quality cheeks and
history/previous investigating existing noses (cases) to
events by looking preliminary records lifeguards
back in time, often hypotheses without cancer
using medical - Difficulty (controls),
records or - Fast and least selecting assessing prior
interviews to expensive controls use of zinc
identify risk factors oxide sunscreen
and determine vs. absorbent
relationships. sunscreen.
Former
lifeguards are
asked to recall
their sunscreen
type and usage
frequency, with
efforts made to
match age and
years of
lifeguarding.
Cross-Section Observes, - Quick and - Only provides A medical study
al measures, and relatively a snapshot, investigating the
collects data at one inexpensive potentially prevalence of
point in time. Often misleading breast cancer
used in surveys or - Best for across various
prevalence studies determining the - Difficult to ages,
to assess the status quo of a obtain a ethnicities, and
current status of a disease/conditio representative social
disease/condition. n large sample backgrounds. If
a pattern is
identified (e.g.,
a specific social
background with
higher
prevalence),
further
investigation
can be pursued.

Cohort Follows a group of - Ideal for - Extended Observing a
(Prospective people with a studying causes duration leads group with a
and common of a condition, to higher costs certain risk
Retrospective) characteristic over disease factor (e.g.,
time. Observes this progression, or - External smoking) over
group for an risk factors events during time to study the
extended period to the study may development of
examine risk factors - Strong affect a related
or the progression time-sequence outcomes disease (e.g.,
of a condition. for cause/effect lung cancer).
Prospective studies - Risk of Prospective
ask "What will dropout studies look
happen?" while forward, while
retrospective retrospective
studies explore studies examine
"What contributed past exposures
to the issue?" by reviewing
medical records.
Experimental Involves human - Gold standard - Expensive A randomized
(Clinical participants, in study designs and clinical trial
Trials) commonly as time-consumin comparing a
clinical trials. - Provides g new drug with a
Controlled trials strongest standard
compare an evidence for - Results may treatment to
experimental drug causality with not fully apply assess
or procedure to minimal biases to real-world effectiveness,
another, while practice due to ensuring that
randomized trials exclusions the observed
allocate subjects effects are due
randomly to to the
treatment options, intervention and
minimizing biases not external
and increasing factors.
causal evidence.
Key Points:

1. Case-Control Study:
○ Involves selecting participants based on the presence or absence of a disease
and looking backward to see if they had been exposed to a risk factor.
○ Odds Ratio (OR) is used as the measure of association. Relative Risk (RR)
cannot be used because the prevalence is set by the researcher.
○ Often used for rare diseases as it approximates the OR for such cases.
2. Prospective Cohort Study:
○ Participants are initially exposure-defined (exposed vs. unexposed) and
followed forward in time to observe the development of the disease.
○ Both Relative Risk (RR) and Odds Ratio (OR) can be calculated in prospective
cohort studies.
○ Useful for testing the effect of a new intervention or treatment.
3. Retrospective Cohort Study:
○ Starts with participants based on past exposure data and follows them through
historical records to see if they developed the disease.
○ Both RR and OR are relevant measures for retrospective cohort studies.
Symbols:

Present and Absent symbols represent exposure and disease status.
The question mark signifies the information researchers aim to discover, such as the
association between exposure and disease.
Investigator presence shows when the researcher begins the study (e.g., at the time of
exposure in prospective studies, after disease development in case-control studies).

This comparison highlights how each study design handles timing, data collection, and the
calculation of risk measures.

Here is a table based on the image you provided, which compares Non-Experimental,
Quasi-Experimental, and Experimental (Randomized Control Trial - RCT) study designs in
terms of features and rigor:

Study Design Description Comparison Group Rigor

Non-Experimental Measures outcomes before and No comparison Low rigor
after a program for participants group
only.

Quasi-Experiment Measures outcomes for program Has a comparison Moderate
al participants and non-participants, group rigor
but without random assignment.
Attempts to "control" for bias.

Experimental/RCT Randomly assigns participants to Explicit comparison Highest
either a treatment or control group. group with rigor
Measures outcomes for both randomization
groups.

Additional Notes

Increasing Rigor: Experimental/RCT designs are the most rigorous, followed by
quasi-experimental, then non-experimental.
Suitability: While RCTs are highly rigorous, they may not always be feasible due to
constraints such as cost, ethics, or practical limitations. Quasi-experimental designs
provide an alternative when randomization is not possible, although they are less robust
in controlling for biases. Non-experimental designs are the least rigorous and typically
used when only observational data is available or for preliminary investigations.

This table summarizes different types of research study designs. Here’s a quick overview of
each:

1. Experiment
 ○ Class: Experimental
○ Type: Longitudinal
○ Protocol: Select a sample, measure baseline parameters, apply intervention,
measure outcome over time.
○ Examples: Clinical trials, laboratory experiments (e.g., pesticide testing).
2. Cohort
○ Class: Observational
○ Type: Longitudinal
○ Protocol: Define a cohort, assess outcomes based on exposure or risk factors.
○ Examples: Studying disease progression, evaluating how factors affect health
over time.
3. Case-control
○ Class: Observational
○ Type: Longitudinal
○ Protocol: Define cases (people with an outcome) and controls, look for previous
exposure.
○ Examples: Studying cancer risk factors, identifying potential risks of certain
behaviors.
4. Cross-sectional
○ Class: Observational
○ Type: Cross-sectional
○ Protocol: Define a sample, collect information about the parameter of interest.
○ Examples: Health surveys assessing how common certain conditions are.
5. Repeated cross-sectional
○ Class: Observational
○ Type: Cross-sectional
○ Protocol: Collect information about parameters in different samples over time.
○ Examples: Studying population-level changes like smoking trends.

Let me know if you need any additional details or a more detailed analysis of any section!

Study Notes
Research Design

Research involves asking questions and finding answers, like which herbal remedies can
be used alongside cancer treatment.
Research studies must be conducted ethically to protect participants.
Proposals for research studies need to be submitted to an ethical committee.

Types of Studies
 Quantitative studies focus on the numbers of data (e.g., how many people).
Observational studies only observe data without interfering (e.g., observing
participants only).
Interventional studies involve intervening in the study (e.g., clinical trials).
Qualitative studies focus on the best quality data through interviews to get a deeper
understanding (e.g., asking open-ended questions about how participants feel).
Interviews are used to provide detailed insight.
Surveys gather information from a large group, quickly (e.g. snapshot data).

Observational Studies

Survey: Quick snapshot of data, easy to administer, but can be biased if time frame is too
long
Case control: Focuses on a specific disease (such as skin cancer), looking back at
factors that may have contributed to the disease (retrospective)
Cohort: Tracking individuals over time to identify potential causes of disease
(prospective). Measures exposures and looks at resulting outcomes.

Interventional Studies

Clinical trials (RCT/RCCT): Controlled studies comparing different treatments using a
sample group receiving one treatment or placebo (another treatment).
Participants are randomly assigned to groups (e.g., odd patients get one treatment, even
patients get another).
Monitors the effect between groups or in a single group over time.

Case Control Studies

Focus on a specific disease (like Hashimoto's disease) and looking at factors that
contribute to it.
Evaluates what factors might be connected to, or protect from, the disease.

Cross-Sectional Studies

Collects data at one specific time point to study the prevalence or distribution of a
disease, or other characteristic.
 Useful for identifying the presence of a disease in a population at that particular time.

Cohort Studies

Tracks a group over time (prospective or retrospective) collecting data on exposures and
outcomes.
Focuses on investigating the causes of a particular condition, or course of a disease.
Looks at possible causes of health conditions, or how they cause problems over time
with a group of people.

Experimental Studies

Studies that investigate the impact of a new drug, or procedure.
Subjects are randomly assigned to different groups (treatment, control).
Tracks the effectiveness of a new treatment or procedure by carefully selecting
participants (randomization) and placing them into different treatment and control
groups.

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