introduction to sample size and power calculations
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Introduction to sample size and power calculations. How much chance do we have to reject the null hypothesis when the alternative is in fact true? (what’s the probability of detecting a real effect?). Can we quantify how much power we have for given sample sizes?. - PowerPoint PPT PresentationTRANSCRIPT
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Introduction to sample size and power calculations
How much chance do we have to reject the null hypothesis when the alternative is in fact true?(what’s the probability of detecting a real effect?)
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Can we quantify how much power we have for given sample sizes?
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Null Distribution: difference=0.
Clinically relevant alternative: difference=10%.
Rejection region. Any value >= 6.5 (0+3.3*1.96)
study 1: 263 cases, 1241 controls
For 5% significance level, one-tail area=2.5%(Z/2 = 1.96)
Power= chance of being in the rejection region if the alternative is true=area to the right of this line (in yellow)
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Rejection region. Any value >= 6.5 (0+3.3*1.96)
Power= chance of being in the rejection region if the alternative is true=area to the right of this line (in yellow)
study 1: 263 cases, 1241 controls
Power here:
%85=)06.1>Z(P
=)3.3105.6
>Z(P
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Critical value= 0+10*1.96=20
Power closer to 15% now.
2.5% areaZ/2=1.96
study 1: 50 cases, 50 controls
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Critical value= 0+0.52*1.96 = 1
Power is nearly 100%!
Study 2: 18 treated, 72 controls, STD DEV = 2
Clinically relevant alternative: difference=4 points
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Critical value= 0+2.58*1.96 = 5
Power is about 40%
Study 2: 18 treated, 72 controls, STD DEV=10
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Critical value= 0+0.52*1.96 = 1
Power is about 50%
Study 2: 18 treated, 72 controls, effect size=1.0
Clinically relevant alternative: difference=1 point
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Factors Affecting Power1. Size of the effect2. Standard deviation of the
characteristic3. Bigger sample size 4. Significance level desired
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average weight from samples of 100
Null
Clinically relevant alternative
1. Bigger difference from the null mean
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average weight from samples of 100
2. Bigger standard deviation
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average weight from samples of 100
3. Bigger Sample Size
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average weight from samples of 100
4. Higher significance level
Rejection region.
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Sample size calculations Based on these elements, you can
write a formal mathematical equation that relates power, sample size, effect size, standard deviation, and significance level…
**WE WILL DERIVE THESE FORMULAS FORMALLY SHORTLY**
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Simple formula for difference in means
Sample size in each group (assumes equal sized groups)
Represents the desired power (typically .84 for 80% power).
Represents the desired level of statistical significance (typically 1.96).
Standard deviation of the outcome variable
Effect Size (the difference in means)
2
2/2
2
difference)Z(2
Z
n
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Simple formula for difference in proportions
221
2/2
)(p)Z)(1)((2
pZpp
n
Sample size in each group (assumes equal sized groups)
Represents the desired power (typically .84 for 80% power).
Represents the desired level of statistical significance (typically 1.96).
A measure of variability (similar to standard deviation)
Effect Size (the difference in proportions)
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Derivation of sample size formula….
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Critical value= 0+.52*1.96=1
Power close to 50%
Study 2: 18 treated, 72 controls, effect size=1.0
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SAMPLE SIZE AND POWER FORMULAS
Critical value=
0+standard error (difference)*Z/2
Power= area to right of Z=
(diff)error standard1)(here difference ealternativ - valuecritical
Z
%50power;(diff)error standard
0:here ..
Zge
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ZZ
ZZ
Z
Z
Z
power
power
ofright the toarea the ofleft the toarea the
Z)error(diff standard
difference)error(diff standard
differenceZ
)error(diff standard difference -(diff)error standard*Z
/2
/2
/2
Power= area to right of Z=
(diff)error standard difference ealternativ - valuecritical
Z
Power is the area to the right of Z. OR power is the area to the left of - Z.Since normal charts give us the area to the left by convention, we need to use - Z to get the correct value. Most textbooks just call this “Z”; I’ll use the term Zpower to avoid confusion.
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2/erence)error(diff standard difference
ZZ power
All-purpose power formula…
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2
2
1
2
).(.nn
diffes
1
2
1
2
).(. :1 group to2 group ofr ratio ifrnn
diffes
Derivation of a sample size formula…
Sample size is embedded in the standard error….
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2
1
2
2/2
/2
1
2
/2
1
2
1
2
))1(
difference()Z(
Z)1(
difference
Z difference
rnr
Z
rnr
Z
rnn
Z
power
power
power
Algebra…
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2
2/2
2
1
2/2
221
21
2/2
2
difference
)Z()1(
)Z()1(difference
difference)Z()1(
r
Zrn
Zrrn
rnZr
power
power
power
2
2/2
2
1 difference
)Z(2 then groups), (equal 1r If
powerZn
2
2/2
2
1 difference
)Z()1( powerZ
rrn
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Sample size formula for difference in means
2
2/2
2
1 difference
)Z()1( powerZ
rrn
.05)for (1.96 level cesignifican tailed- two toscorrespondZ
power) 80%(.84power toscorrespondZoutcome theof meansin difference meaningful clinicallyediffferenc
sticcharacteri theofdeviation standardgroupsmaller togrouplarger of ratio r
groupsmaller of size n:where
2/
1
power
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Examples Example 1: You want to calculate how much
power you will have to see a difference of 3.0 IQ points between two groups: 30 male doctors and 30 female doctors. If you expect the standard deviation to be about 10 on an IQ test for both groups, then the standard error for the difference will be about:
= 2.57 3010
3010 22
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Power formula…
2/2/22/ 2*
2
**)(*
ZndZ
n
dZddZ power
P(Z≤ -.79) =.21; only 21% power to see a difference of 3 IQ points.
79.96.12
30103
2*or 79.96.1
57.23
*)(*
2/2/ ZndZZ
ddZpowerZ powerZ
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Example 2: How many people would you need to sample in each group to achieve power of 80% (corresponds to Z=.84)
174)3(
)96.184)(.2(100*)(
)(22
2
2
22/
2
d
ZZn
174/group; 348 altogether
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Sample Size needed for comparing two proportions:
Example: I am going to run a case-control study to determine if pancreatic cancer is linked to drinking coffee. If I want 80% power to detect a 10% difference in the proportion of coffee drinkers among cases vs. controls (if coffee drinking and pancreatic cancer are linked, we would expect that a higher proportion of cases would be coffee drinkers than controls), how many cases and controls should I sample? About half the population drinks coffee.
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Derivation of a sample size formula:
The standard error of the difference of two proportions is:
21
)1()1(npp
npp
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nnn
/5.)5.1(5.)5.1(5.
Here, if we assume equal sample size and that, under the null hypothesis proportions of coffee drinkers is .5 in both cases and controls, then
s.e.(diff)=
Derivation of a sample size formula:
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2/)statistis.e.(test statistitest
ZccZ power
96.1n/5.
10.=powerZ
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For 80% power…
39210.
)96.184(.5.5.
10.)96.184(.
/5.10.96.184.
96.1/5.
10.84.
2
2
22
n
nn
n
There is 80% area to the left of a Z-score of .84 on a standard normal curve; therefore, there is 80% area to the right of -.84.
Would take 392 cases and 392 controls to have 80% power! Total=784
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Question 2:How many total cases and controls would I
have to sample to get 80% power for the same study, if I sample 2 controls for every case?
Ask yourself, what changes here?
nnnnnnnpp
npp
275.
275.
25.
225.25.
225.)1(
2)1(
2/)statistis.e.(test statistitest
ZccZ power
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Different size groups…
29410).2(
)96.184(.75.75.
2)10(.)96.184(.
2/75.10.96.184.
96.12/75.
10.84.
2
2
22
n
nn
n
Need: 294 cases and 2x294=588 controls. 882 total.
Note: you get the best power for the lowest sample size if you keep both groups equal (882 > 784). You would only want to make groups unequal if there was an obvious difference in the cost or ease of collecting data on one group. E.g., cases of pancreatic cancer are rare and take time to find.
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General sample size formula
rnppr
rnppr
rnpp
npp
rnpp
diffes)1()1()1()1()1()1(
).(.
221
22/
)(
))(1(1pp
ZZpprrn power
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General sample size needs when outcome is binary:
2
22/
2
)(
)(2
diff
ZZn power
.05)for (1.96 level cesignifican tailed- two toscorrespondZ
power) 80%(.84power toscorrespondZoutcome theof sproportionin difference meaningful clinicallyp
groupsmaller togrouplarger of ratio rgroupsmaller of size n
:where
2/
21
p
221
22/
)())(1(1
ppZZpp
rrn
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Compare with when outcome is continuous:
2
2/2
2
1 difference)Z()1(
Z
rrn
.05)for (1.96 level cesignifican tailed- two toscorrespondZ
power) 80%(.84power toscorrespondZoutcome theof meansin difference meaningful clinicallyediffferenc
sticcharacteri theofdeviation standardgroupsmaller togrouplarger of ratio r
groupsmaller of size n:where
2/
1
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Question How many subjects would we need to
sample to have 80% power to detect an average increase in MCAT biology score of 1 point, if the average change without instruction (just due to chance) is plus or minus 3 points (=standard deviation of change)?
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Standard error here=
nnchange 3
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2/)statistis.e.(test statistitest
ZccZ power
2
22/
2
2
22
2/
2/
)(
)(
DZZ
n
DnZZ
Z
n
DZ
powerD
Dpower
Dpower
Therefore, need: (9)(1.96+.84)2/1 = 70 people total
Where D=change from test 1 to test 2. (difference)
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Sample size for paired data:
2
2/2
2
difference)Z(
Z
n d
.05)for (1.96 level cesignifican tailed- two toscorrespondZ
power) 80%(.84power toscorrespondZ difference meaningful clinicallyediffferenc
differencepair - within theofdeviation standardsize sample n
:where
2/
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Paired data difference in proportion: sample size:
2
22/
2
)(
)(2
diff
ZZn power
.05)for (1.96 level cesignifican tailed- two toscorrespondZ
power) 80%(.84power toscorrespondZ sproportiondependent in difference meaningful clinicallyp
group 1for size sample n :where
2/
21
p
221
22/
)())(1(
ppZZpp
n