Difference between revisions of "SMHS MethodsHeterogeneity"

From SOCR
Jump to: navigation, search
(Methods and Approaches for HTE Analytics)
 
Line 21: Line 21:
 
|}
 
|}
 
</center>
 
</center>
 +
 +
Adopted from: http://dx.doi.org/10.1186/1471-2288-12-185
  
 
* *CART: Classification and regression tree (CART) analysis
 
* *CART: Classification and regression tree (CART) analysis

Latest revision as of 13:06, 23 May 2016

Scientific Methods for Health Sciences - Methods for Studying Heterogeneity of Treatment Effects, Case-Studies of Comparative Effectiveness Research

Methods and Approaches for HTE Analytics

Methods and Approaches for HTE Analytics ****
Meta-analysis CART* N of 1 trials LGM/GMM** QTE*** Nonparametric Predictive risk models
Intent of the Analysis Exploratory and confirmatory Exploratory Exploratory and initial testing "Exploratory, initial testing, and confirmatory" "Exploratory, initial testing, & confirmatory" Exploratory and confirmatory Initial testing and confirmatory
Data Structure "Trial summary results, possibly with subgroup results" Panel or cross-section Repeated measures for a single patient: time series Time series and panel Panel and cross-sectional "Panel, time series, and cross-sectional" Panel or cross-sectional
Data Size Consideration Advantage of combining small sample sizes Large sample sizes Small sample sizes LGM: small to large sample sizes; GMM: Large sample sizes Moderate to large sample sizes Large sample sizes Sample sizes depends on specific risk function
Key Strength(s) Increase statistical power by pooling of results Does not require assumptions around normality of distribution Can utilize different types of response variables; Possible to identify HTE across trials Possibility to measure and explain covariate's effect on treatment effect Patient is own control; Estimates patient-specific effects Accounting for unobserved characteristics Heterogeneous response across time Robust to outcome outliers Heterogeneous response across quantiles No functional form assumptions Flexible regressions Multivariate approach to identifying risk factors or HTE

Estimates patient-specific effects

Key Limitation(s) Included studies need to be similar enough to be meaningful Assumed distribution; Selection bias Fairly sensitive to changes in underlying data May not fully identify additive impacts of multiple variables Requires de novo study Not applicable to all conditions or treatments Criteria for optimization solutions not clear "Treatment effect designed for a quantile, not a specific patient" Computationally demanding Smoothing parameters required for kernel methods May be more or less interpretable or useful clinically

Adopted from: http://dx.doi.org/10.1186/1471-2288-12-185

  • *CART: Classification and regression tree (CART) analysis
  • LGM/GMM: Latent growth modeling/Growth mixture modeling.
  • QTE: Quantile Treatment Effect.
  • Standard meta-analysis like fixed and random effect models, and tests of heterogeneity, together with various plots and summaries, can be found in the R-package rmeta. Non-parametric R approaches are included in the np package.

Additional details are provided in a paper entitled From concepts, theory, and evidence of heterogeneity of treatment effects to methodological approaches: a primer.

HTE Analytics, Latent growth and growth mixture modeling (LGM/GMM)

Meta-analysis

Comparative Effectiveness Research (CER)




Translate this page:

(default)
Uk flag.gif

Deutsch
De flag.gif

Español
Es flag.gif

Français
Fr flag.gif

Italiano
It flag.gif

Português
Pt flag.gif

日本語
Jp flag.gif

България
Bg flag.gif

الامارات العربية المتحدة
Ae flag.gif

Suomi
Fi flag.gif

इस भाषा में
In flag.gif

Norge
No flag.png

한국어
Kr flag.gif

中文
Cn flag.gif

繁体中文
Cn flag.gif

Русский
Ru flag.gif

Nederlands
Nl flag.gif

Ελληνικά
Gr flag.gif

Hrvatska
Hr flag.gif

Česká republika
Cz flag.gif

Danmark
Dk flag.gif

Polska
Pl flag.png

România
Ro flag.png

Sverige
Se flag.gif