No interaction:
RORE*vs.E**¼exp [(E*E**)b]
If (E*E**)¼1, then ROR
¼exp(b)
e.g.,E*¼1 vs.E**¼ 0
orE*¼2 vs.E**¼ 1
Note that if SSU*equals 4 and SSU**equals 2,
then the odds ratio expression becomes 2bplus
2 times the sum of thedjtimesWj, which is the
same expression as obtained when SSU*equals 3
and SSU**equals 1. This occurs because the
odds ratio depends on the difference between
E*andE**, which in this case is 2, regardless of
the specific values ofE*andE**.
As another illustration, supposeEis the inter-
val variable systolic blood pressure denoted
by SBP. Again, to obtain an odds ratio, we
must specify two values of E to compare.
For instance, if SBP*equals 160 and SBP**
equals 120, then the odds ratio expression
becomes ROR equals e to the quantity
(160120) timesb plus (160120) times
the sum of thedjtimesWj, which simplifies
to 40 timesbplus 40 times the sum of thedj
timesWj.
Or if SBP*equals 200 and SBP**equals 120,
then the odds ratio expression becomes ROR
equals e to the 80 timesbplus 80 times the sum
of thegjtimesWj.
Note that in the no interaction case, the odds
ratio formula for a general exposure variableE
reduces to e to the quantity (E*E**) timesb.
This is not equal to e to thebunless the differ-
ence (E*E**) equals 1, as, for example, ifE*
equals 1 andE**equals 0, orE*equals 2 andE**
equals 1.
Thus, ifEdenotes SBP, then the quantity e tob
gives the odds ratio for comparing any two
groups that differ by one unit of SBP. A one
unit difference in SBP is not typically of inter-
est, however. Rather, a typical choice of SBP
values to be compared represent clinically
meaningful categories of blood pressure, as
previously illustrated, for example, by SBP*
equals 160 and SBP**equals 120.
One possible strategy for choosing values of
SBP*and SBP** is to categorize the distri-
bution of SBP values in our data into clinically
meaningful categories, say, quintiles. Then,
using the mean or median SBP in each quin-
tile, we can compute odds ratios comparing all
possible pairs of mean or median SBP values.
EXAMPLE
E¼SBP¼systolic blood pressure
(interval)
(A) SBP*¼160 vs. SBP**¼ 120
ROR 160 ; 120 ¼exp
h
ðSBP*SBP**Þb
þðSBP*SBP**Þ~djWj
i
¼exp
h
ð 160 120 Þb
þð 160 120 Þ~djWj
i
¼exp
40 bþ 40 ~djWj
(B) SBP*¼200 vs. SBP**= 120
ROR 200 ; 120 ¼exp
h
ð 200 120 Þbþð 200 120 Þ~djWj
i
¼exp
80 bþ 80 ~djWj
EXAMPLE (continued)
(C) SSU*¼4 vs. SSU**¼ 2
ROR 4 ; 2 ¼expðÞ 4 2 bþðÞ 4 2 ~djWj
¼exp 2 bþ 2 ~djWj
Note. ROR depends on the difference
(E*E**), e.g., (31) = (42) = 2
EXAMPLE
E¼SBP
ROR¼exp(b))(SBP*SBP**)¼ 1
not interesting"
Choice of SBP:
Clinically meaningful categories,
e.g., SBP*¼160, SBP*¼ 120
Strategy: Use quintiles of SBP
Quintile # 12345
Mean or
median
120 140 160 180 200