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OddsRatio: Odds Ratio Estimation and Confidence Intervals

Description

Calculates odds ratio by unconditional maximum likelihood estimation (wald), conditional maximum likelihood estimation (mle) or median-unbiased estimation (midp). Confidence intervals are calculated using normal approximation (wald) and exact methods (midp, mle).

Usage

OddsRatio(x, conf.level = NULL, ...)

# S3 method for glm OddsRatio(x, conf.level = NULL, digits = 3, use.profile = TRUE, ...)

# S3 method for multinom OddsRatio(x, conf.level = NULL, digits = 3, ...)

# S3 method for zeroinfl OddsRatio(x, conf.level = NULL, digits = 3, ...)

# S3 method for default OddsRatio(x, conf.level = NULL, y = NULL, method = c("wald", "mle", "midp"), interval = c(0, 1000), ...)

Arguments

x

a vector or a \(2 \times 2\) numeric matrix, resp. table.

y

NULL (default) or a vector with compatible dimensions to x. If y is provided, table(x, y, …) will be calculated.

digits

the number of fixed digits to be used for printing the odds ratios.

method

method for calculating odds ratio and confidence intervals. Can be one out of "wald", "mle", "midp". Default is "wald" (not because it is the best, but because it is the most commonly used.)

conf.level

confidence level. Default is NA for tables and numeric vectors, meaning no confidence intervals will be reported. 0.95 is used as default for models.

interval

interval for the function uniroot that finds the odds ratio median-unbiased estimate and midp exact confidence interval.

use.profile

logical. Defines if profile approach should be used, which normally is a good choice. Calculating profile can however take ages for large datasets and not be necessary there. So we can fallback to normal confidence intervals.

further arguments are passed to the function table, allowing i.e. to set useNA. This refers only to the vector interface.

Value

a single numeric value if conf.level is set to NA a numeric vector with 3 elements for estimate, lower and upper confidence interval if conf.level is provided

Details

If a \(2 \times 2\) table is provided the following table structure is preferred:

                    disease=0   disease=1
    exposed=0 (ref)    n00         n01
    exposed=1          n10         n11
  

however, for odds ratios the following table is equivalent:

                    disease=1   disease=0
    exposed=1          n11         n10
    exposed=0          n01         n00
  

If the table to be provided to this function is not in the preferred form, the function Rev() can be used to "reverse" the table rows, resp. -columns. Reversing columns or rows (but not both) will lead to the inverse of the odds ratio.

In case of zero entries, 0.5 will be added to the table.

References

Kenneth J. Rothman and Sander Greenland (1998): Modern Epidemiology, Lippincott-Raven Publishers

Kenneth J. Rothman (2002): Epidemiology: An Introduction, Oxford University Press

Nicolas P. Jewell (2004): Statistics for Epidemiology, 1st Edition, 2004, Chapman & Hall, pp. 73-81

Agresti, Alan (2013) Categorical Data Analysis. NY: John Wiley and Sons, Chapt. 3.1.1

See Also

RelRisk

Examples

Run this code
# NOT RUN {
# Case-control study assessing whether exposure to tap water
#   is associated with cryptosporidiosis among AIDS patients

tab <- matrix(c(2, 29, 35, 64, 12, 6), 3, 2, byrow=TRUE)
dimnames(tab) <- list("Tap water exposure" = c("Lowest", "Intermediate", "Highest"),
                      "Outcome" = c("Case", "Control"))
tab <- Rev(tab, margin=2)

OddsRatio(tab[1:2,])
OddsRatio(tab[c(1,3),])

OddsRatio(tab[1:2,], method="mle")
OddsRatio(tab[1:2,], method="midp")
OddsRatio(tab[1:2,], method="wald", conf.level=0.95)

# in case of zeros consider using glm for calculating OR
dp <- data.frame (a=c(20, 7, 0, 0), b=c(0, 0, 0, 12), t=c(1, 0, 1, 0))
fit <- glm(cbind(a, b) ~ t, data=dp, family=binomial)

exp(coef(fit))

# calculation of log oddsratios in a 2x2xk table
migraine <- xtabs(freq ~ .,
                  cbind(expand.grid(treatment=c("active","placebo"),
                                    response=c("better","same"),
                                    gender=c("female","male")),
                        freq=c(16,5,11,20,12,7,16,19))
)

log(apply(migraine, 3, OddsRatio))

# OddsRatio table for logistic regression models
r.glm <- glm(type ~ ., data=MASS::Pima.tr2, family=binomial)
OddsRatio(r.glm)

plot(OddsRatio(r.glm), xlim=c(0.5, 2), main="OddsRatio - glm", pch=NA,
     lblcolor=hred, args.errbars=list(col=horange, pch=21, col.pch=hblue,
     bg.pch=hyellow, cex.pch=1.5))
# }

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