Kaufman, J. S., & Kaufman, S. (2001). Assessment of Structured Socioeconomic Effects on Health. Epidemiology, 12(2), 157-167. doi:10.2307/3703617
Thursday, April 21, 2016
nested_CF-s
Here is the worked example from the article below; they showed how to 'process' such data, in the classical manner (standard adjustment), and in the causal modeling way (structured adjustment). Very simple side-by-side application.
Kaufman, J. S., & Kaufman, S. (2001). Assessment of Structured Socioeconomic Effects on Health. Epidemiology, 12(2), 157-167. doi:10.2307/3703617
Kaufman, J. S., & Kaufman, S. (2001). Assessment of Structured Socioeconomic Effects on Health. Epidemiology, 12(2), 157-167. doi:10.2307/3703617
Saturday, March 19, 2016
Change patterns
Notice anything interesting in this?
There are some interesting cyclical patterns here... For context related to SEMNET, see below.
Monday, December 14, 2015
Changes-leading-to-changes
A quick illustration of how talking about changes in a variable X leading to changes in another variable Y can be simplified.
The problem comes when talking about what a model 'change-in-X->change-in-Y' tells us; here, you run into the problem of having cases that belong to 4 different quadrants of a scatter plot change-in-Y(change-in-X), see figure above: those increasing in both (Q2), those decreasing in both (Q4), and those increasing in 1: Y/X and decreasing in the other one: X/Y (Q1 / Q3, respectively).
You can still talk about all of these, with some help from peeking at where the averages for change-in-X & change-in-Y are (see the big green dot), whether they are positive or negative.
A simple way of describing these graphs where the changesX->changesY slope is >0 , is to say that if one increases in X, then we expect their Y to also increase, even though the 2 graphs show that the Y actual mean shows an average Y increase, then an average Y decrease: the only difference is that the slope was 'pushed down' by the 2 means, as the slope naturally crosses the (MeanX, MeanY) dot.
Changes-leading-to-changes makes language difficult,
because we are used to talk about ‘imaginary changes in X leading to imaginary
changes in Y’ to describe Y(X) relations from cross-sectional/timeless regressions X->Y, whereas in reality
there are no actual changes to talk about in the same-time Y-on-X regression, only potential ones.
You can still talk about all of these, with some help from peeking at where the averages for change-in-X & change-in-Y are (see the big green dot), whether they are positive or negative.
A simple way of describing these graphs where the changesX->changesY slope is >0 , is to say that if one increases in X, then we expect their Y to also increase, even though the 2 graphs show that the Y actual mean shows an average Y increase, then an average Y decrease: the only difference is that the slope was 'pushed down' by the 2 means, as the slope naturally crosses the (MeanX, MeanY) dot.
Wednesday, September 30, 2015
PatientDoctor
Here's an adaptation of Dave Kenny's social relations approach to patient-doctor relations, some of these may be forced... I add his original look for proper context
Kenny, D. A. (1994). Interpersonal perception: A social relations analysis: Guilford Press.
Thursday, April 30, 2015
Changes and their causes
Here are two specifications of change scores, as latent variables however, that can be used in subsequent analyses of changes. Note that the causal assumptions behind them differs slightly, and I prefer the causal logic of the 1st: the final values depend on initial values and on some mechanism of change, i.e. the causal mechanism 'precedes' the final observed values, not the other way around.
.%2BLord's%2BParadox%2BRevisited%2B(Oh%2BLord!%2BKumbaya!).jpg)
One can defend the view that 'changes are a result of both initial and final values', but with less grounding I'd say. This is supposed to help with the posting SEMNET: (does it?)
This 2-wave simplified example of course would not be enough to model a pattern like the one below, which, however, LCS can fit pretty well with attention to nuance and detail... J.J. McArdle's work has lots of dynamic applications like this. Some issues are: what window of time to model, and how to 'initialize' the process.
.%2BLord%27s%2BParadox%2BRevisited%2B(Oh%2BLord!%2BKumbaya!).jpg)
This 2-wave simplified example of course would not be enough to model a pattern like the one below, which, however, LCS can fit pretty well with attention to nuance and detail... J.J. McArdle's work has lots of dynamic applications like this. Some issues are: what window of time to model, and how to 'initialize' the process.
Tuesday, April 7, 2015
mixtures
Here are some examples taken from Jeff Harring's 3 day (!!!) workshop "INTRODUCTION TO FINITE MIXTURE MODELS; he pointed me to the 1st mixture modeling idea, published in 1894 (!):
Pearson, K. (1894). Contributions to the mathematical theory of evolution. Philosophical Transactions of the Royal Society of London. A, 185, 71-110.
* Here are also other ways of gauging if one has more than 1 population in their data:
or by looking at the random slopes and intercepts:
Tuesday, January 13, 2015
Unification of mediation and moderation -Tyler VanderWeele
1. VanderWeele,
T. J. (2014). A Unification of Mediation and Interaction: A 4-Way
Decomposition. Epidemiology, 25(5), 749-761. doi:
10.1097/EDE.0000000000000121
2. VanderWeele, T.
J. (2013). A unification of mediation and interaction. Harvard
University Biostatistics Working Paper Series, from http://biostats.bepress.com/harvardbiostat/paper164
He uses some labels for some of these effects that are clarified (partly) by Bengt and Tihomir in:
1.Muthen,
Advances in Latent Variable Modeling
using Mplus, Storrs, Connecticut, United
States, May 19, 2014, MMM 2014
slide 25 URL
2.Muthén, B.,
& Asparouhov, T.
(2014). Causal Effects in Mediation Modeling: An Introduction With Applications
to Latent Variables. Structural Equation Modeling: A
Multidisciplinary Journal, 1-12. doi:
10.1080/10705511.2014.935843
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