Experimental Research Methods

Question 0

grouped frequencies?

Answer 0

every value between and including first and last value

eg. 0-9, 10-19, 20-29

Question 1

stratified random:

Answer 1

groups first formed to ensure even representation of groups

M&F/race

Question 2

relative frequency?

Answer 2

percentage of all elements that fall within each class interval

  frequency / sample size

Question 3

cumulative frequency?

Answer 3

percentage of distribution that lies in or below that particular group

Question 4

mode:

Answer 4

most frequent observation

Question 5

median:

Answer 5

mid point of the distribution (50th percentile)

Question 6

mean

Answer 6

arithmetic average

Question 7

what is a deviation score?

Answer 7

element - mean

Question 8

how do you calculate variance?

Answer 8

mean of the SQUARE of all deviation scores

variance = sum (X - mean)^2 / number of elements in population

Question 9

what is different about sample variance?

Answer 9

divide by sample size - 1

instead of just normal sample size

Question 10

what is the standard deviation?

Answer 10

the square root of the variance

Question 11

what % of distribution falls within 1 standard deviation?

Answer 11

68%

Question 12

what % of distribution falls within 2 standard deviations?

Answer 12

95%

Question 13

what % of distribution falls within 3 standard deviations?

Answer 13

99.7%

Question 14

what % of distribution falls ABOVE or BELOW 2 standard deviations?

Answer 14

95% within 2 standard deviations
therefore 5% above and below
or 2.5% below, and 2.5% above

Question 15

what % of distribution falls below 1 standard deviation?

Answer 15

well 68% within 1 standard deviation
and 16% below -1 standard deviation
68+16 = 84

Question 16

what is the standard deviation a measure of?

Answer 16

measure of variability

Question 17

how do you calculate SEM - Standard Error of the Mean

Answer 17

standard deviation / square root of n

Question 18

what is the null hypothesis?

Answer 18

this hypothesis you assume to be true

Ho = whatever you’re researching has NO effect -> no difference in mean

Question 19

what is the alternate hypothesis?

Answer 19

Ha or H1 = whatever you’re researching does have an effect -> difference in mean

Question 20

at what value do you reject the null?

Answer 20

if you get a p value of < 0.05

Question 21

What is the P-value?

Answer 21

• “probability” value
• % under the curve converted to decimal
  eg. 0.3% under curve(p-value), 0.002 probability value

Question 22

what is a type 1 error?

Answer 22

error of rejecting the null hypothesis even through it is true

Question 23

what is a type 2 error?

Answer 23

failing to reject the null hypothesis, when the alternate hypothesis is actually true

Question 24

what is degrees of freedom and how is it calculated?

Answer 24

expression of sample size

df = n - 1

Question 25

how do you calculate chi-square?

Answer 25

sum of (observed - expected)^2 / expected

Question 26

aims of medical research?

Answer 26

• cure disease
• prevent
• improve productive lifespan
• save $$ from health cost

Question 27

what are the governing principles for the Australian code for the care and use of animals for scientific purpose?

Answer 27

3 R’s
Replacement
Reduction
Refinement

Question 28

describe “replacement” principle:

• ethical animal conduct

Answer 28

Replacement = methods that permit a given purpose of an activity or project to be achieved without the use of animals
eg. use of human instead - they can give consent for the most part

Question 29

describe “reduction” principle:

• ethical animal conduct

Answer 29

methods for obtaining comparable levels of info from the use of fewer animals in scientific procedures or for obtaining more into from the same number of animals
eg. use pre-existing data

Question 30

describe “refinement” principle:

• ethical animal conduct

Answer 30

methods that alleviate or minimise potential pain and distress, and enhance animal wellbeing
eg. allow animals to “acclimatise” to new environment and equiptment

Question 31

levels of randomised control bias:

Answer 31

1 - systematic reviews of RCTs
2 - one RCT
3 - pseudo-randomised controlled trial
3.2 - comparative study with concurrent controls
3.3 - comparative study without concurrent controls
4 - case-series

Question 32

describe the structure of a scientific study write up?

Answer 32

abstract
intro
methods
results 
discussion
references

Question 33

describe prediction by interpolation:

Answer 33

when dosage lies within tested range

Question 34

describe prediction by extrapolation:

Answer 34

new dosage outside original range

Question 35

steps in experimental process?

Answer 35

1) research question
2) hypothesis
3) data analysis
4) conclusion

Question 36

how can we typically calculate the 95% Confidence Interval?

Answer 36

SEM x z-score

z-score for 95% confidence = 1.96

Question 37

what can be assumed about the 95% Confidence Interval if the P<0.05?

Answer 37

the 95% confidence interval will not contain a zero

Question 38

what does the P-value allow you to answer?

Answer 38

if there is no correlation between the 2 variables, what is the chance of observing a correlation as far from zero as we have observed, by chance(random sampling) alone?

Question 39

what does placebo stop people from doing?

Answer 39

stops them hunting around for another treatment because many may believe they have the treatment

Question 40

pseudo-random

Answer 40

kinda random but not, you can figure out the pattern

like dates of birth, days of the week

Question 41

what is the null hypothesis:

Answer 41

whatever you’re researching has NO effect

-> no diff. in mean

Question 42

steps of hypothesis testing?

Answer 42

1) state the Ho and Ha
2) select decision criteria (P<0.05)
3) establish critical values (direction & df)
4) draw random sample, calculate mean
5) calculate S & SEM
6) calculate t-statistic for sample mean
7) compare t with critical values -> reject or retain the null hypothesis

Question 43

what could increase the power of an experiment?

Answer 43

• eliminating inter-subject variation (eg. age)
• increased sample size
• minimising instrument errors

Question 44

define knowledge translation

Answer 44

the synthesis, exchange & ethically sound application of knowledge by relevant stakeholders to accelerate the benefits of global and local innovation in strengthening health systems and advancing peoples health

Question 45

what is knowledge creation?

Answer 45

primary research

Question 46

what is knowledge distillation?

Answer 46

creation of systematic reviews/guidelines

Question 47

what is knowledge dissemination?

Answer 47

appearances in journals and presentations

Question 48

what people are involved in knowledge translation?

Answer 48

health care professionals/providers(clinicians)
patients
managers
policy makers

Question 49

identify and briefly discuss 4 factors that are known to influence how easily research evidence is translated into policy or practice:

Answer 49

1) what: is being implemented, characteristics of implementation
2) who: characteristics of target groups,
3) where: features of the context in which you are attempting to implement
4) how: process used to facilitate implementation
eg. generally need tailored interactive and multi-faceted approach

Question 50

what 3 assumptions underpin the knowledge translation metaphor?

Answer 50

1st: ‘knowledge’ equates with objective, impersonal research findings
2nd: it is useful to conceptualise a ‘know-do’ gap between scientific facts and practice
3rd: practice consists of a series of rational decisions on which scientific research findings can be brought to bear

Question 51

why does the ‘know-do’ gap exist?

Answer 51

1) lack of standardised and up to date practice guidance

2) need for a better design and more effective use of electronic information system

Question 52

in terms of qualitative studies what could be some patient level factors?

Answer 52

• perceived benefits and drawbacks
• ability to self-manage(if applicable)
• acceptability of equipment used,
• desire/demand for extra support/technology/

Question 53

in terms of qualitative studies what could be some clinical level factors?

Answer 53

• personal experience
• politics and personalities
• trust in evidence base

Question 54

in terms of qualitative studies what could be some organisation level factors?

Answer 54

• service investment requirements

- impact on non-pump population

Question 55

in terms of qualitative studies what could be some system level factors?

Answer 55

• commissioning pump services

- who pays ad how

Question 56

language and terminology likely to be used to describe the process of moving research into policy and practice:

Answer 56

knowledge translation, mobilisation, utilisation, exchange, transfer
implementation science, translational science, research utilisation

Question 57

define efficacy:

Answer 57

ability of an intervention to produce results under ideal conditions
eg. RCT with well staffed & motivated patients

Question 58

define effectiveness:

Answer 58

ability of intervention to produce results in general use

Question 59

define mobilisation:

Answer 59

moving available knowledge into active use

Question 60

define utilisation:

Answer 60

extent to which potential access is converted into realised access

Question 61

what is implementation science?

Answer 61

study of methods to promote the integration of research findings and evidence into healthcare policy and practice

Question 62

how can qualitative research help with decision making?

Answer 62

1) directing and informing policy and program development
2) assisting in program design
3) considering individual health decisions, actions, impacts
4) directing and informing policy and program evaluation

Question 63

3 considerations - in place of experiments in the universe of health research:

Answer 63

1) efficacy and effectiveness
2) questions of meaning
3) public health approaches

Question 64

what is PICO?

Answer 64

a framework for evidence-based decision process - study design

helps you answer clinical questions using research data

Question 65

what does PICO stand for?

Answer 65

P = patient/populaiton
I = intervention
C = comparison/control
O = outcomes

Question 66

define a systematic review:

Answer 66

a review in which there is..

• comprehensive search for relevant studies on a specific topic
• studies identified are then appraised
• and synthesised according to a pre-determined and explicit method

Question 67

meta-analysis:

Answer 67

• quantitative analysis of results
• putting available studies together increases statistical power
  => decreases likelihood of type 1&2 errors
• generalisability of results improved by combing studies

Question 68

when do you use a one sample z-test?

Answer 68

when there is just 1 mean and you know the standard deviation

Question 69

when do you use a one sample t-test?

Answer 69

when there is just one mean but you DO NOT know the standard deviation

Question 70

when do you use a 2 sample t-test?

Answer 70

when there are 2 means

Question 71

matched/paired/pooled t-test?

Answer 71

used when 2 measurements on each subject

Question 72

when do you use chi-square test?

Answer 72

OBSERVED

EXPECTED values

Question 73

what is regression/correlation useful/often used for?

Answer 73

to predict the value of one variable based on another variable

Question 74

what is the equation of a line

Answer 74

y = mx + b

Y = b0 + b1*X

b0 = intercept
b1 = slope

Question 75

how do you calculate slope?

Answer 75

y = y2 - y1 / x2 - x1

Question 76

requirements of a well designed study

Answer 76

1) absence of bias
2) sufficient power
3) exploration of range of applicability
4) keep it simple: minimise chance of making mistake
5) amenable to statistical analysis

Question 77

why do experiments with/in humans?

Answer 77

• results applicable “human are humans”
• can directly study the actual disease/problem(model not the same)
• subjects can describe how they’re feeling
• humans can consent to participate
• test real life situations
• can be cheaper

Question 78

why do animal experiments?

Answer 78

• test causality or establish mechanisms
• eliminate variation(genetic, environmental), confunding
• some experiments are impossible in humanseg.killing to collect tissue
• establishing safety before human
• no problems with adherence to protocol
• get enough subject

Question 79

what different categories of people does an animal ethics committee consist of?

Answer 79

A: vet
B: recent/current experience in use of animals for scientific purposes
C: RSPCA/animal welfare
D: random person, generally older person
E: person looking after animals within institution

Question 80

when using animals you need to consider?

Answer 80

3 R’s
Replacement: achieved without use of animals
Refinement: minimise pain, enhance wellbeing
Reduction: fewer animals, or same info from same amount of animals

Question 81

what are the NHMRC levels of evidence for interventions?

Answer 81

I: systematic review trial
II: one RCT
III: pseudo-RCT
III-2: comparative study with concurrent controls
III-3: comparative study withOUT concurrent controls
IV: case-series

Question 82

what is randomisation?

Answer 82

allocation of treatment to trial participants based on chance

Question 83

what is selection bias?

Answer 83

good generation of random sequence that cannot be determined by anyone(concealment of allocation)
*before trial starts

Question 84

what is performance bias?

Answer 84

blinding of participants and personnel

*once trial has started

Question 85

what is attrition bias?

Answer 85

maintaining blinding of participants especially

*avoid placebo group sourcing treatments else where

Question 86

what is detection bias?

Answer 86

blinding of outcome assessors especially

• avoid favouring of certain participants

Question 87

what is reporting bias?

Answer 87

select the good results to report, or conflict of interest

Question 88

what are the 4 pillars of ethical research?

Answer 88

1) merit & integrity
2) justice
3) beneficience
4) respect to persons

Question 89

describe pillar 1: merit and integrity of ethical research:

Answer 89

• honesty in research

- ensuring legitimate search of knowledge

Question 90

describe pillar 2: justice of ethical research:

Answer 90

• do not “lie”
• selection, recruitment, exclusion and inclusion of research participants must be reasonable
• fair distribution of benefits and burdens

Question 91

describe pillar 3: beneficence of ethical research:

Answer 91

• minimise risk of harm to participants

- offers benefits to society

Question 92

describe pillar 4: respect to persons of ethical research:

Answer 92

recognition of their intrinsic value, respect privacy, confidentiality

Question 93

what is the most important pillar of ethical research?

Answer 93

respect to persons!

Question 94

describe informed consent:

Answer 94

voluntary, based on sufficient info, adequate understanding of research and implications of participation

*basically no coerce - cannot black mail/pressure/manipulate people to do shit

Question 95

what does it mean if the confidence interval line on a forest plot crosses the mid line?

Answer 95

if the confidence interval line of a study crosses the mid line the results of the study are NOT statistically significant

Question 96

in a forest plot what does the size of each diamond show?

Answer 96

the size of each data point or diamond shows sample size of each study

Question 97

when studies are put into funnel plot what does it show?

Answer 97

it shows presence of performance bias within the study

Question 98

in a funnel plot what is along the x axis?

Answer 98

favours treatment —————————— favors control

Question 99

in a funnel plot how would you identify the presence of bias?

Answer 99

when there is a big gap

• has been in right bottom in all diagrams i’ve seen

Question 100

name the major types of variables and their sub-topics:

Answer 100

categorical= regular(M/F, nationality) & ordinal(categories ascending & descending)   
numerical= continuous -> interval, ratio & discrete -> counts(# of kids)

Question 101

example of catagorical regular data:

Answer 101

M/F
marital status
nationality

Question 102

example of categorical ordinal:

Answer 102

things that can be placed in ascending or descending order

Question 103

what type of data would age be?

Answer 103

numerical continuous ratio

Question 104

what type data is size?

Answer 104

categorical ordinal

Question 105

what type of data is sex?

Answer 105

categorical regular

Question 106

what type of data would the number of kids be?

Answer 106

numerical discrete

Question 107

what hypothesis do you assume to be true?

Answer 107

null

Question 108

2 possible consequences for not blinding?

Answer 108

1) performance bias - blinding of patients & personnel

2) attribution bias - maintaining patient blinding to prevent drop out and seeking treatment else where

Question 109

if by chance the control group of a study contained bias eg. more horrible children or older average age how would this influence interpretation of results?

..what statistical test could analysis this accurately?

Answer 109

control would have higher or lower dependent variable at baseline

repeated measures analysis
-> looks at change from baseline in each group

Question 110

in a question where 2 measures are taken from the same subject what statistical test is likely to be used?

Answer 110

paired t-test

Question 111

in a question where there are 2 means what statistical test is likely to be used ?

Answer 111

2 sample t test

Question 112

in a question where there are 2 cohorts with no association to each other in a study what statistically test is likely to be used?

Answer 112

chi-squared

Question 113

what is a major purpose of random assignment in a clinical trial?

Answer 113

to help ensure that study subjects are representative of the general population

Question 114

how do you find the mean if the study is paired?

Answer 114

paired means 2 measures are taken on the same subjects

therefore you must find the mean difference for each participant
eg. post-treatment x - pre-treatment x
then sum the differences and divide by sample size = sample mean

Question 115

what is the difference between df with 2 means?

Answer 115

(n treatment + n control) - 2

Question 116

if people are recruited from different places how does this effect the results of the trial?

Answer 116

it shouldn’t effect the results of the trial as long as participants are properly randomly allocated
(random allocation prevents selection bias)

Question 117

what kind of bias is it when people seek other treatment?

Answer 117

performance bias

Question 118

what kind of bias is it when participants have a lack of interest?

Answer 118

attribution bias

Question 119

how would you go about answering this question?

“Is attrition bias likely to be a problem in this study?”

Answer 119

think of all the reasons why participants could become demotivated and drop out of the study