Hernior {heplots} | R Documentation |
Recovery from Elective Herniorrhaphy
Description
A data set on measures of post-operative recovery of 32 patients undergoing an elective herniorrhaphy operation, in relation to pre-operative measures.
Format
A data frame with 32 observations on the following 9 variables.
age
patient age
sex
patient sex, a factor with levels
f
m
pstat
physical status (ignoring that associated with the operation). A 1-5 scale, with 1=perfect health, 5=very poor health.
build
body build, a 1-5 scale, with 1=emaciated, 2=thin, 3=average, 4=fat, 5=obese.
cardiac
preoperative complications with heart, 1-4 scale, with 1=none, 2=mild, 3=moderate, 4=severe.
resp
preoperative complications with respiration, 1-4 scale, with 1=none, 2=mild, 3=moderate, 4=severe.
leave
condition upon leaving the recovery room, a 1-4 scale, with 1=routine recovery, 2=intensive care for observation overnight, 3=intensive care, with moderate care required, 4=intensive care, with moderate care required.
los
length of stay in hospital after operation (days)
nurse
level of nursing required one week after operation, a 1-5 scale, with 1=intense, 2=heavy, 3=moderate, 4=light, 5=none (?); see Details
Details
leave
, nurse
and los
are outcome measures; the
remaining variables are potential predictors of recovery status.
The variable nurse
is recorded as 1-4, with remaining (20) entries
entered as "-" in both sources. It is not clear whether this means "none"
or NA. The former interpretation was used in constructing the R data frame,
so nurse==5
for these observations. Using
Hernior$nurse[Hernior$nurse==5] <- NA
would change to the other
interpretation, but render nurse
useless in a multivariate analysis.
The ordinal predictors could instead be treated as factors, and there are also potential interactions to be explored.
Source
Mosteller, F. and Tukey, J. W. (1977), Data analysis and regression, Reading, MA: Addison-Wesley. Data Exhibit 8, 567-568. Their source: A study by B. McPeek and J. P. Gilbert of the Harvard Anesthesia Center.
References
Hand, D. J., Daly, F., Lunn, A. D., McConway, K. J. and Ostrowski, E. (1994), A Handbook of Small Data Sets, Number 484, 390-391.
Examples
library(car)
data(Hernior)
str(Hernior)
Hern.mod <- lm(cbind(leave, nurse, los) ~
age + sex + pstat + build + cardiac + resp, data=Hernior)
car::Anova(Hern.mod, test="Roy") # actually, all tests are identical
# test overall regression
print(linearHypothesis(Hern.mod, c("age", "sexm", "pstat", "build", "cardiac", "resp")), SSP=FALSE)
# joint test of age, sex & caridac
print(linearHypothesis(Hern.mod, c("age", "sexm", "cardiac")), SSP=FALSE)
# HE plots
clr <- c("red", "darkgray", "blue", "darkgreen", "magenta", "brown", "black")
heplot(Hern.mod, col=clr)
pairs(Hern.mod, col=clr)
## Enhancing the pairs plot ...
# create better variable labels
vlab <- c("LeaveCondition\n(leave)",
"NursingCare\n(nurse)",
"LengthOfStay\n(los)")
# Add ellipse to test all 5 regressors simultaneously
hyp <- list("Regr" = c("age", "sexm", "pstat", "build", "cardiac", "resp"))
pairs(Hern.mod, hypotheses=hyp, col=clr, var.labels=vlab)
## Views in canonical space for the various predictors
if (require(candisc)) {
Hern.canL <- candiscList(Hern.mod)
plot(Hern.canL, term="age")
plot(Hern.canL, term="sex")
plot(Hern.canL, term="pstat") # physical status
}