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THE GOOD, THE BAD, AND THE MEAN ( ): LIMITATIONS AND EXTENSIONS OF LATENT GROWTH CURVES IN HEALTH DISPARITIES RESEARCH Miles Taylor, Ph.D. Florida State University – PowerPoint PPT presentation

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Title: The Good, the Bad, and the Mean (


1
The Good, the Bad, and the Mean (µ) Limitations
and Extensions of Latent Growth Curves in Health
Disparities Research
  • Miles Taylor, Ph.D.
  • Florida State University

2
What is Growth Curve Analysis?
  • The broad category of models includes multiple
    types of models (from multiple traditions) that
    are used to analyze individual change using more
    than 2 time points
  • Exs latent growth curve analysis, latent
    trajectory analysis, random effects models,
    hierarchical linear models, etc.
  • Note that curve does not necessarily mean a
    nonlinear trend. On the contrary, most of the
    growth curves predicted by these various types
    of models are linear.
  • Examples trajectories of reading ability in
    children, depressive symptoms across the life
    course, tumor growth in rats

3
1999
1982
1984
1989
1994
4
1999
1982
1984
1989
1994
1984
1989
1994
5
Unconditional Model
  • Level 1 model
  • Level 2 model
  • Combined

1999
6
Structural Equation Models (SEM)
  • Structural Equation Models (SEM) refer to a broad
    class of powerful models
  • Instead of emphasizing cases, SEM emphasizes
    variances/covariances.
  • This allows testing whether and how variables are
    interrelated in a set of linear relationships
  • The acronym is sometimes switched for
    simultaneous equation modeling (SEM) since it can
    handle many interrelated equations that are
    jointly estimated

7
Why Choose a Structural Equation Modeling (SEM)
Approach to Growth Curves?
  • Various forms of measurement error
  • Estimators and fit indices for continuous,
    dichotomous, or ordinal repeated measures
  • Flexibility in handling time
  • Statistical packages like Mplus make more complex
    models possible
  • Other approaches do have advantages in some
    instances, such as observations at different time
    points

8
The Good
  • Improvement over aggregate change approaches
    not Markovian or semi-Markovian
  • Can incorporate many repeated observations
  • Can handle time invariant and time variant
    covariates as well as repeated outcomes
  • Can be combined in an SEM context
  • Allow examination of life course developmental
    processes, testing developmental theories
  • Can examine whether inequalities or disparities
    are persistent, increasing, etc. over time both
    within and across individuals

9
Example of the Good
Preliminary Findings, Please do not cite without
permission
  • Valle, G. Thomas, K. Taylor, M. G. Parental
    Incarceration Influences on Childrens Mental
    Health during the Transition to Adulthood

10
Example of the Good
  • Valle, G. Thomas, K. Taylor, M. G. Parental
    Incarceration Influences on Childrens Mental
    Health during the Transition to Adulthood

11
Why it works
  • The findings from the alpha and beta (intercept
    and slope) were meaningful in a life course
    context (persisting inequality changes to an
    underlying effect emerging in adulthood)
  • Individual loadings were freed and then fixed,
    allowing more complex nonlinearity to be modeled
  • The outcome is easily thought of as developmental
    / continuous in nature
  • The treatment was estimated before W1

12
The Bad (1) People or Patterns are Missed
  • Level 1 equation parameterizes individual
    trajectories before calculating their variation
    from the mean
  • Model specification (linear, quadratic, etc.) is
    based on the average trajectory specification
  • Trajectory methodologists acknowledge we should
    free the loadings but we trade parsimony and
    therefore fit
  • What if some collection of the trajectories is
    nonlinear and meaningful
  • What if timing of the developmental process is
    important?

13
1999
1982
1984
1989
1994
14
1999
1982
1984
1989
1994
1984
1989
1994
15
Extensions
  • Group-based modeling strategies can handle this
    efficiently (latent class analysis of
    trajectories, finite mixture models, growth
    mixtures with freed loadings)
  • Work of Nagin, Land, Muthen
  • Hybridized models can handle this where onset
    of developmental process varies at random.
  • Work of Albert Shih (2003), Taylor (2008
    2010), and Haas Rohlfson (2010)

16
Group Trajectory Example
17
Why it works
  • Shows that there is more than one average
    trajectory and multiple forms of meaningful
    nonlinearity.
  • Efficiently models linear trajectories like
    linear along with a lagged onset, etc.
  • Referent group is no longer the mean trajectory.
    It is assumed to be the most prevalent group by
    default but may be set to any meaningful
    experience (here nondisabled over the period)
  • Covariates are thus used to predict patterns
    rather than high/low on intercept and slope/s.

18
Random Onset Model
  • Taylor, Miles G. 2010. Capturing Transitions and
    Trajectories The Role of Socioeconomic Status in
    Later Life Disability. Journals of Gerontology
    Social Sciences 65B 733-743

19
Why it works
  • A second process (here first onset) is modeled.
    Therefore, the growth curves only include nonzero
    values.
  • Delayed onset (modeled through a discrete time
    hazard) captures the meaningful nonlinearity of
    the disability trajectories.
  • This means that one can reconcile findings from
    state based (transition) and developmental
    trajectory literatures
  • It also means covariates can predict these
    simultaneous processes in shared or independent
    ways

20
The Bad (2) Selection Processes
  • Selection into the observation window
    with/without starting the developmental process
    (meaningful partial left censoring)
  • Random onset model handles this better than
    traditional LGCs

21
Extension Random Onset
  • Taylor, Miles G. 2008. Timing, Accumulation, and
    the Black/White Disability Gap in Later Life A
    Test of Weathering. Research on Aging Special
    Issue on Race,SES, and Health 30 226-250.

22
Extension Random Onset
  • Taylor, Miles G. 2008. Timing, Accumulation, and
    the Black/White Disability Gap in Later Life A
    Test of Weathering. Research on Aging Special
    Issue on Race, SES, and Health 30 226-250.

23
Why it works
  • A second process (here first onset) is modeled.
    Therefore, the growth curves only include nonzero
    values.
  • Traditional LCGs returned findings supporting a
    cumulative disadvantage theory.
  • Random onset model reveals that in this sample,
    the disparity lies in the onset process.
  • Black individuals were more likely to select into
    the sample with some nonzero level of disability,
    but their process of accumulation thereafter was
    not significantly different from whites.

24
The Bad (2) Selection Processes
  • Selection out of the sample that is meaningful
    (attrition, mortality selection)
  • Transition models (survival, etc.) have specific
    extensions for this (competing risk/multiple
    decrement)
  • In traditional LCGs, the best we get is to
    include those until they drop out or include
    some kind of control for attrition

25
The Bad (2) Selection Processes
  • With SEM it is possible (just like in the random
    onset model) to include additional equations to
    handle this transition (either time variant or
    no)
  • This means we can include a parallel joint
    process (like the random onset model) but this
    time it is a timing of exit
  • A.K.A., one can create a sort of competing risk
    between changes in the developmental process of
    the outcome over time vs. attrition/death

26
Extension Attrition Process
Taylor, Miles G. and Scott M. Lynch. 2011.
Cohort Differences and Chronic Disease Profiles
of Differential Disability Trajectories.
Journals of Gerontology Social Sciences. 66B
729-738.
27
Extension Attrition Process
Taylor, Miles G. and Scott M. Lynch. 2011.
Cohort Differences and Chronic Disease Profiles
of Differential Disability Trajectories.
Journals of Gerontology Social Sciences. 66B
729-738.
28
Why it works
  • The second process here is mortality, and this I
    can model jointly with disability. A.K.A they
    affect one another over time.
  • Here I was primarily interested in cohort
    differences, and allowing these covariates to
    impact both disablement trajectories and death
    inform findings on the compression of morbidity.
  • Chronic diseases were also included in later
    models, and these impacts I could see on
    disability over the decade net of death and vice
    versa.

29
Summary
  • Potential weaknesses of traditional LGCs
  • People or meaningful patterns are missed through
    misspecification in the level 1 equation
  • Extensions
  • Multiple ways to disentangle or unpack the mean
    growth or important deviations from it
  • Consider group based trajectories for modeling
    meaningful nonlinearity efficiently
  • Inclusion of additional processes (onset,
    recovery, etc.)

30
Summary
  • Potential weaknesses of traditional LGCs
  • Differential Selection into the sample on level
    of outcome, out of the sample
  • Extensions
  • Random onset as simultaneous process for partial
    left censoring
  • Mortality or other meaningful attrition as a
    simultaneous process

31
Conclusions
  • Latent Growth Curve (LGC) modeling in an SEM
    framework is extremely versatile due to the
    ability to model equations simultaneously
  • New softwares for SEM/Latent variable modeling
    (a.k.a. Mplus) allow more flexibility in modeling
    noncontinuous endogenous/outcome variables
  • Documentation now exists on replicating standard
    models like simply discrete-time hazard and
    finite mixtures/cluster analysis in the SEM
    context.
  • Its time to move beyond the mean, beyond the
    noise.
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