case1601: Sites of Short- and Long-Term Memory

In Sleuth3: Data Sets from Ramsey and Schafer's "Statistical Sleuth (3rd Ed)"

Sites of Short- and Long-Term Memory

Description

Researchers taught 18 monkeys to distinguish each of 100 pairs of objects, 20 pairs each at 16, 12, 8, 4, and 2 weeks prior to a treatment. After this training, they blocked access to the hippocampal formation in 11 of the monkeys. All monkeys were then tested on their ability to distinguish the objects. The five-dimensional response for each monkey is the number of correct objects distinguished among those taught at 16, 12, 8, 4, and 2 weeks prior to treatment.

Usage

case1601

Format

A data frame with 18 observations on the following 7 variables.

Monkey

Monkey name

Treatment

a treatment factor with levels "Control" and "Treated"

Week2

percentage of 20 objects taught 2 weeks prior to treatment that were correctly distinguished in the test

Week4

percentage of 20 objects taught 4 weeks prior to treatment that were correctly distinguished in the test

Week8

percentage of 20 objects taught 8 weeks prior to treatment that were correctly distinguished in the test

Week12

percentage of 20 objects taught 12 weeks prior to treatment that were correctly distinguished in the test

Week16

percentage of 20 objects taught 16 weeks prior to treatment that were correctly distinguished in the test

Source

Ramsey, F.L. and Schafer, D.W. (2013). The Statistical Sleuth: A Course in Methods of Data Analysis (3rd ed), Cengage Learning.

References

Sola-Morgan, S. M. and Squire, L. R. (1990). The Primate Hippocampal Formation: Evidence for a Time-limited Role in Memory Storage, Science 250: 288–290.

Examples

str(case1601)
attach(case1601)

## EXPLORATION 
short <- (Week2 + Week4)/2
long  <- (Week8 + Week12 + Week16)/3
myPointCode <- ifelse(Treatment=="Control",15,16)
myPointColor <- ifelse(Treatment=="Control","orange","green")
plot(long ~ short, pch=myPointCode, col=myPointColor, cex=2)
abline(h=mean(long),lty=2)
abline(v=mean(short),lty=2)
identify(short,long,labels=Monkey)   # Identify outliers; press Esc when done

## INFERENCE USING HOTELLING's T-SQUARED TEST
myLm1     <- lm(cbind(short,long) ~ Treatment)  # Full model
myLm2     <- lm(cbind(short,long) ~ 1) # Reduced model, with only intercept
anova(myLm2, myLm1, test="Hotelling") # p-value for Treatment effect
# confidence intervals
n1  <- sum(Treatment=="Control")  # 7 control monkeys
n2  <- sum(Treatment=="Treated")  # 11 treated monkeys
multiplier    <- sqrt(2*((n1+n2-2)/(n1+n2-3))*qf(.95,2,n1+n2-3)) # Sleuth p. 492
summary(myLm1)
shortEffect   <- myLm1$coef[2,1] # Difference in sample averages; Short
seShortEffect <- 3.352   # Read this from summary(myLm1)
halfWidth <- multiplier*seShortEffect  # Half width of 95% confidence interval
shortEffect + c(-1,1)*halfWidth #95% CI for effect of treatment on Short
 longEffect    <- myLm1$coef[2,2] # Difference in sample averages; Long
seLongEffect  <- 3.2215  # Read this from summary(myLm1)
halfWidth     <- multiplier*seLongEffect # Half width of 95% confidence interval  
longEffect + c(-1,1)*halfWidth  #95% CI for effect of treatment on Long


## GRAPHICAL DISPLAY FOR PRESENTATION
myPointCode   <- ifelse(Treatment=="Control",21,22)
myPointColor  <- ifelse(Treatment=="Control","green","orange")
plot(long ~ jitter(short),
  xlab="Short-Term Memory Score (Percent Correct)",
  ylab="Long-Term Memory Score (Percent Correct)",
  main="Memory Scores for 11 Hippocampus-Blocked and 7 Control Monkeys",
  pch=myPointCode, bg=myPointColor, cex=2.5, lwd=3)
identify(short,long,labels=Monkey)  #  Label the outliers; press Esc when done
legend(52,54,legend=c("Control","Hippocampus Blocked"), pch=c(21,22), 
  pt.bg=c("green","orange"), pt.cex=c(2.5,2.5), pt.lwd=c(3,3), cex=1.5)

  
## ADVANCED: RANDOMIZATION TEST FOR EQUALITY OF BIVARIATE RESPONSES  
myAnova <- anova(myLm2, myLm1, test="Hotelling") #Hotelling Test for Treatment 
myAnova$approx[2]        #[1] 12.32109:  F-statistic 
numRep <- 50 # Number of random regroupings (change to 50,000)
FStats <- rep(0,numRep)  # Initialize a variable for storing the F-statistics
myLmReduced <- lm(cbind(short,long) ~ 1)# Fit the reduced model once
for (rep in 1:numRep) {  # Do the following commands in parenthese num.rep times
  randomGroup <- rep("Group1",18) # Set randomGroup initially to all "Group1" 
  randomGroup[sample(1:18,7)]  <- "Group2" # Change 7 at random to "Group2"
  randomGroup <- factor(randomGroup)  # Make the character variable a factor
  myLmFull <- lm(cbind(short,long) ~ randomGroup)  # Fit full model
  myAnova2  <- anova(myLmReduced, myLmFull, test="Hotelling") # Hotelling's test 
  FStats[rep] <- myAnova2$approx[2]   # Store the F-statistic 
}  # If numRep = 50,000, go get a cup of coffee while you wait for this.
hist(FStats, main="Approx. Randomizatin Dist of F-stat if No Treatment Effect")  
abline(v=12.32109)    # Show actually observed Hotelling F-statistic
pValue <- sum(FStats >= 12.32109)/numRep
pValue  # Approximate randomization test p-value (no distributional assumptions)

detach(case1601)

Sleuth3 documentation built on Jan. 25, 2024, 3:01 p.m.