CI.RatioF: 1-2*alpha Fieller CI given point estimate, CV (, CVb) and n
In Detlew/PowerTOST: Power and Sample Size for (Bio)Equivalence Studies
CI.RatioF R Documentation
1–2*alpha Fieller CI given point estimate, CV (, CVb) and n
Description
Utility function to calculate the
1–2α
Fieller confidence interval given the point estimate,
CV (, CVb), and n for the parallel group and
2×2
crossover.
Usage
CI.RatioF(alpha = 0.025, pe, CV, CVb, n, design = c("2x2", "parallel"))
Arguments
alpha
Type I error probability, aka significance level.
Defaults here to 0.025 because this function is intended for studies
with clinical endpoints.
pe
Point estimate of T/R ratio.
CV
Coefficient of variation as ratio (not percent). In case of design="parallel"
this is the CV of the total variability, in case of design="2x2"
the intra-subject CV.
CVb
CV of the between-subject variability. Only necessary for
design="2x2".
n
Total number of subjects if a scalar is given.
Number of subjects in (sequence) groups if given as vector.
design
A character string describing the study design.
design="parallel" or design="2x2" allowed for a
parallel two-group design or a classical TR|RT crossover design.
Details
The CV(within) and CVb(etween) in case of design="2x2" are
obtainedvia an appropriate ANOVA from the error term and from the
difference (MS(subject within sequence)-MS(error))/2.
Value
Returns the
1–2α
confidence interval.
Note
The function assumes an evaluation using un-transformed data.
The function assumes equal variances in case of design="parallel".
The formula implemented covers balanced and unbalanced designs.
Note that when the mean of the denominator of the ratio is close to zero,
confidence intervals might be degenerated and are returned as NA. In such
a case a warning is issued.
Whether the function vectorizes properly is not thoroughly tested.
This function is intended for studies with clinical endpoints. In such
studies the 95% confidence intervals are usually used for equivalence
testing. Therefore, alpha defaults here to 0.025 (see EMA 2000).
Author(s)
D. Labes
References
Locke CS. An exact confidence interval from untransformed data for the ratio of
two formulation means. J Pharmacokin Biopharm. 1984;12(6):649–55. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1007/BF01059558")}
Hauschke D, Steinijans VW, Pigeot I. Bioequivalence Studies in Drug Development. Chichester: John Wiley; 2007. Chapter 10. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1002/9780470094778.fmatter")}
European Medicines Agency, Committee for Proprietary Medicinal Products. Points to consider on switching between superiority and non-inferiority. London, 27 July 2000. CPMP/EWP/482/99
See Also
CI.BE, power.RatioF
Examples
# 95% Fieller CI for the 2x2 crossover
CI.RatioF(pe = 0.95, CV = 0.3, CVb = 0.6, n = 32)
Detlew/PowerTOST documentation built on March 26, 2024, 12:18 a.m.
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| CI.RatioF | R Documentation |
1–2*alpha Fieller CI given point estimate, CV (, CVb) and n
Description
Utility function to calculate the 1–2α Fieller confidence interval given the point estimate, CV (, CVb), and n for the parallel group and 2×2 crossover.
Usage
CI.RatioF(alpha = 0.025, pe, CV, CVb, n, design = c("2x2", "parallel"))
Arguments
alpha |
Type I error probability, aka significance level. |
pe |
Point estimate of T/R ratio. |
CV |
Coefficient of variation as ratio (not percent). In case of |
CVb |
CV of the between-subject variability. Only necessary for
|
n |
Total number of subjects if a scalar is given. |
design |
A character string describing the study design. |
Details
The CV(within) and CVb(etween) in case of design="2x2" are
obtainedvia an appropriate ANOVA from the error term and from the
difference (MS(subject within sequence)-MS(error))/2.
Value
Returns the 1–2α confidence interval.
Note
The function assumes an evaluation using un-transformed data.
The function assumes equal variances in case of design="parallel".
The formula implemented covers balanced and unbalanced designs.
Note that when the mean of the denominator of the ratio is close to zero,
confidence intervals might be degenerated and are returned as NA. In such
a case a warning is issued.
Whether the function vectorizes properly is not thoroughly tested.
This function is intended for studies with clinical endpoints. In such
studies the 95% confidence intervals are usually used for equivalence
testing. Therefore, alpha defaults here to 0.025 (see EMA 2000).
Author(s)
D. Labes
References
Locke CS. An exact confidence interval from untransformed data for the ratio of two formulation means. J Pharmacokin Biopharm. 1984;12(6):649–55. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1007/BF01059558")}
Hauschke D, Steinijans VW, Pigeot I. Bioequivalence Studies in Drug Development. Chichester: John Wiley; 2007. Chapter 10. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1002/9780470094778.fmatter")}
European Medicines Agency, Committee for Proprietary Medicinal Products. Points to consider on switching between superiority and non-inferiority. London, 27 July 2000. CPMP/EWP/482/99
See Also
CI.BE, power.RatioF
Examples
# 95% Fieller CI for the 2x2 crossover
CI.RatioF(pe = 0.95, CV = 0.3, CVb = 0.6, n = 32)
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