Exam 2 Principles of Quantitative Research

Question 1

Design

Answer 1

Found in the methods section

Question 2

Sampling plan

Answer 2

Found in the methods section

Question 3

Data collection procedure

Answer 3

Found in the methods section

Question 4

implementation strategies

Answer 4

Found in the methods section

Question 5

data analysis plan

Answer 5

Found in the methods section

Question 6

What is a design?

Answer 6

Specific features need to be addressed, need to be structured. Step by step
approach. Different kinds of sampling, different kinds of data collection.
Blueprint
says what to collect, how to collect it, and what you’re going to do with it

Question 7

What is a good design

Answer 7

Appropriate to the purpose
-subjects, setting, protocol and comparisons
-most importantly, must be able to answer the question
Appropriate comparisons
-Also needs to be feasible given realistic constraints
-availability of data…need to be able to find the setting and subjects

Question 8

Design must also

Answer 8

be effective in reducing threats to design validity

guard against negative influences that may negatively impact data

Question 9

Major categories of design

Experimental

Answer 9

Most “scientific” gives best information, best evidence
Contains hypothesis. Manipulating variables. cause and effect situation
Make comparisons between real people/real groups that have a real situation occuring

Question 10

Major categories of design

quasi-experimental

Answer 10

something is preventing it from being a true experiment. ethical considerations. So simulate the “experiement

Question 11

Major categories of design

Nonexperimental

Answer 11

Not meant to test a hypothesis. meant to describe by collecting numbers, exploring phenomena by collecting. situations in natural habitat. can’t provide hard data…assumptions made

Question 12

Causality

Answer 12

Basis of cause and effect.
There must be a strong correlation or relationship between I.V. and D.V.
Cause must precede effect
Must be necessary and sufficient (must always be present and requires no other factors)
Must be no alternative explanations

Very hard to prove

Question 13

Multi-causality

Answer 13

few events of interest to nursing have a single cause

These other multiple, interrelated causes need to be controlled.

Question 14

Probability

Answer 14

Research on living beings tends ot be multicausal

• Impossible to determine true cause and effect
• probability is best guess given the current information
• addresses relative rather than absolute causality
• a probable explanation is more in keeping with multicausality

Question 15

control

Answer 15

-to control means to have the power to direct, regulate, manipulate, or statistically adjust factors to achieve a desired outcome on the D.V.

Question 16

Ways to achieve control

Answer 16

• Control the environment
• Control equivalence of subjects and groups
• Use control or comparison groups
• Control the treatment
• Control the measurement
• control extraneous variables

Question 17

Manipulation

Answer 17

Important principle of control (alter the I.V. by increasing, decreasing, withholding, adding, etc the I.V.)

• True experiments must be able to control the intervention or treatment being tested.
• Intervention group vs. control group

Question 18

Bias

Answer 18

is anything that causes a deviation from the truth or that distorts findings. (The results are slanted in some fashion)
-Can be caused by extraneous variables (control variables/confounding variable)

Question 19

Randomization

Answer 19

A method to diminish bias (gives a more realistic picture of the population)

• Distributes confounding factors across the whole group as they naturally occur by chance rather than clumping those factors in any one part of the group because of errors in the design (site selection/subject selection/group assignment)
• differences between groups causes a need for statistical adjustment

Question 20

Group comparisons

Between groups

Answer 20

Compare two or more whole groups (ex: men and women)

Question 21

Group comparisons

Within groups

Answer 21

Compare members of one group (ex. just look at males or females. May also look at ONE person pre and post intervention)

Question 22

Validity of the study design

Answer 22

Truth or accuracy of the results
Meaning, are the results:
Logical, reasonable, justifiable
-must refer back to theoretical basis and propositions

Question 23

Types of validity

Answer 23

Internal, external, statistical conclusion, and construct

Question 24

Internal Validity

Answer 24

Does the manipulation of the I.V. REALLY make a significant difference in the D.V.

Or, is a rival hypothesis correct?

Question 25

Threats to internal validity

Answer 25

Selection bias
history
maturation
testing
instrumentation
mortality
statistical conclusion validity

Question 26

Threats to internal validity

Selection bias

Answer 26

Characteristics of the subjects are not evenly distributed across the whole group (subjects are too different…some subjects have certain characteristics that are not normal in the group

• this makes it hard to make generalizations
• to prevent use randomization or homogeneous groups if non-random, matching subjects, or statistical control

Question 27

Threats to internal validity

History

Answer 27

• Something happens during the course of the study that impacts the results
• Can use a control or comparison group to help identify this

Question 28

Threats to internal validity

Maturation

Answer 28

• subjects naturally change over a period of time
• changes are developmental and not due to the study I.V.
• use a control group to detect this

Question 29

Threats to internal validity

Testing

Answer 29

• Comes into question with pre-test/post-test designs
• People may remember the questions from the re to the post test
• Pretest may cue subjects into what to focus on
• Control by extending the time between the pre-test or post-test

Question 30

Threats to internal validity

Instrumentation

Answer 30

Tools/instruments/questionnaires must be accurate

tests based on observer input need to have observations recorded in the same manner (interrater reliability)

Question 31

Threats to internal validity

Mortality

Answer 31

Loss of subjects (attrition)

• Who were they?
• Were the different than the ones you retained?
• Why did they leave/die?
• Should be reported in the results.

Question 32

How to control mortality?

Answer 32

Have shorter studies or taking good notes on who left and why

Question 33

Statistical Conclusion Validity

Answer 33

Based on our statistics

• Concerned with whether the conclusions about relationships or differences drawn from statistical analysis are an accurate reflection of the real world.
• Are we confident that we are correct in our findings?
  
  • Look at reported confidence intervals
  • Concerned with power, test assumptions, error, reliability of measures, treatment implementation and random differences in subjects.

Question 34

Power

Answer 34

The ability of a design to detect true relationships among variables

• Needs a sufficiently large sample for the statistical tests being run
• with randomization, maximum differences in groups on the I.V. (treatment) will result in maximum effects on the D. V.

Question 35

Measurement errors

Type I

Answer 35

I.V. and D.V. in our study are related, but not related in the real world

Question 36

Measurement Errors

Type II

Answer 36

I.V. and D.V. in our study are not related, but ARE related in the real world

Question 37

Construct validity

Answer 37

is there a good fit between the conceptual definitions and the operational definitions of the variables?

• Check the theory for the conceptual definitions
• Check the description of the concept given by the developers of the measurement tool
• does the measurement tool actually measure the concept as proposed in the theory
• do multiple tools used to measure the concept all get the same results?

Question 38

External validity of the design

Answer 38

Can you validly apply these findings to people who were not in the study?
-can you replicate the results?

Question 39

Threats to external validity

Population Validity

Answer 39

Interaction of treatment and subjects
subjects can sometimes be influenced by participating in the study
-changes noted in D.V. are due to artificial subject reactions rather than the I.V. (Hawthorne Effect)
-sample may not be representative of the larger population
-researcher may “stack the deck” as subjects are selected
-sample selection may pick from too narrow a group

Question 40

Threats to external validity

Ecological validity

Answer 40

Interaction of treatment and setting
setting issues
-may not be a “normal” setting
-data collected at different settings may be very different (distractions may influence attention/cultural differences)
-time and day data is collected (fatigued subjects)

Question 41

Threats to external validity of the design

Answer 41

pretest sensitization
-interaction of treatment and history (change in D.V. is due to confounding by an event in the past rather than the I.V…..remembering pre-test question)

Question 42

Time related design categories

Answer 42

Retrospective
Cross-sectional
longitudinal

Question 43

Time related design categories

Retrospective

Answer 43

• research is conducted after the fact (ex post facto)
• I.V. occurred in the past
• D.V. is being measured now
• Tries to find cause of current situation
• May look at subjects where D.V. is present and compared to subjects where D.V. is not present

Question 44

Time related design categories

Cross-sectional

Answer 44

-Gather all data about I.V. and D.V. at one time or in a short time span (several hours)
-May pick subjects with a wide range of the concept of interest right now (ex. recruit 100 people with diabetes…then divide into newly dx, dx 5 yrs, dx 10 yrs, dx 15 yrs. Pretned that we are looking at ONE group of people over time)
May deliberately pick several groups to compare

Question 45

Time related design categories

Longitudinal

Answer 45

Prospective in nature (looks at chronological change)
I.V. is introduced then D.V. is measured at a later date
May follow same subjects into the future (high school GPA and college GPA)
May follow different groups over time (hospital fall rates)

Question 46

Ethics

Answer 46

Focus on control, manipulation and prevention of bias

• Selection of subjects
• Assignment of subjects
• Selection of treatment
• Assignment of treatment

Time and money
Retrospective, current, prospective