| es_from_mean_change_ci {metaConvert} | R Documentation |
Convert mean changes and standard deviations of two independent groups into standard effect size measures
Description
Convert mean changes and standard deviations of two independent groups into standard effect size measures
Usage
es_from_mean_change_ci(
mean_change_exp,
mean_change_ci_lo_exp,
mean_change_ci_up_exp,
mean_change_nexp,
mean_change_ci_lo_nexp,
mean_change_ci_up_nexp,
r_pre_post_exp,
r_pre_post_nexp,
n_exp,
n_nexp,
smd_to_cor = "viechtbauer",
reverse_mean_change
)
Arguments
mean_change_exp |
mean change of participants in the experimental/exposed group. |
mean_change_ci_lo_exp |
lower bound of the 95% CI around the mean change of the experimental/exposed group. |
mean_change_ci_up_exp |
upper bound of the 95% CI around the mean change of the experimental/exposed group. |
mean_change_nexp |
mean change of participants in the non-experimental/non-exposed group. |
mean_change_ci_lo_nexp |
lower bound of the 95% CI around the mean change of the non-experimental/non-exposed group. |
mean_change_ci_up_nexp |
upper bound of the 95% CI around the mean change of the non-experimental/non-exposed group. |
r_pre_post_exp |
pre-post correlation in the experimental/exposed group |
r_pre_post_nexp |
pre-post correlation in the non-experimental/non-exposed group |
n_exp |
number of participants in the experimental/exposed group. |
n_nexp |
number of participants in the non-experimental/non-exposed group. |
smd_to_cor |
formula used to convert the |
reverse_mean_change |
a logical value indicating whether the direction of generated effect sizes should be flipped. |
Details
This function converts the mean change and 95% CI of two independent groups into a Cohen's d. The Cohen's d is then converted to other effect size measures.
This function simply internally calls the es_from_means_ci_pre_post function but setting:
mean\_pre\_exp = mean\_change\_exp
mean\_pre\_ci\_lo\_exp = mean\_change\_ci\_lo\_exp
mean\_pre\_ci\_up\_exp = mean\_change\_ci\_up\_exp
mean\_exp = 0
mean\_ci\_lo\_exp = 0
mean\_ci\_up\_exp = 0
mean\_pre\_nexp = mean\_change\_nexp
mean\_pre\_ci\_lo\_nexp = mean\_change\_ci\_lo\_nexp
mean\_pre\_ci\_up\_nexp = mean\_change\_ci\_up\_nexp
mean\_nexp = 0
mean\_ci\_lo\_nexp = 0
mean\_ci\_up\_nexp = 0
To know more about the calculations, see es_from_means_sd_pre_post function.
Value
This function estimates and converts between several effect size measures.
natural effect size measure | MD + D + G |
converted effect size measure | OR + R + Z |
required input data | See 'Section 14. Paired: mean change, and dispersion' |
| https://metaconvert.org/html/input.html | |
References
Bonett, S. B. (2008). Estimating effect sizes from pretest-posttest-control group designs. Organizational Research Methods, 11(2), 364–386. https://doi.org/10.1177/1094428106291059
Cooper, H., Hedges, L.V., & Valentine, J.C. (Eds.). (2019). The handbook of research synthesis and meta-analysis. Russell Sage Foundation.
Examples
es_from_mean_change_ci(
n_exp = 36, n_nexp = 35,
mean_change_exp = 8.4,
mean_change_ci_lo_exp = 6.4, mean_change_ci_up_exp = 10.4,
mean_change_nexp = 2.43,
mean_change_ci_lo_nexp = 1.43, mean_change_ci_up_nexp = 3.43,
r_pre_post_exp = 0.2, r_pre_post_nexp = 0.2
)