Attachment W
Distribution of CAHPS and HEDIS Scores and Assignment of Anecdotes
Distribution of CAHPS and HEDIS Scores
To reduce variability across respondents and make it easier to detect the impact of complex choice sets, we will present all respondents facing small (six doctors, four health plans) and larger (twelve doctors, eight health plans) with the same distribution of CAHPS and HEDIS scores. For each respondent, the name/gender of the doctor will be randomly assigned among the available scores. The key question is therefore how to generate the distribution of CAHPS and HEDIS scores.
Our
review of the literature suggested that HEDIS-type clinical
performance measures, which are generally based on dichotomous items,
tend to correlate at levels very close to zero, unless one
disattenuates for low reliability. This near-zero correlation is
observed even for composite measures. Accordingly, clinical
composites in the real world will generally appear to be uncorrelated
from a consumer's perspective. Given this state of the world, we will
generate simulated clinical composite scores that reflect average
correlations of zero among the four clinical composites (heart care,
asthma care, diabetes care, and testing/screening). For the CAHPS
composites, an average correlation of 0.5 among the composites would
be a good approximation of the real world.
For purposes
of the experiment, it is highly desirable to present subjects who
receive both CAHPS and clinical measures with a comparable amount of
variation in both types of measures, both for the overall roll-up
scores and for the individual composites on the drill-down. Since all
scores will be presented in aggregated form using symbols, this means
essentially having the same proportions of doctors receive 5 stars, 4
stars, etc. We had tentatively agreed on a 10-20-40-20-10
distribution for CAHPS scores.
Putting all this together,
we suggest the following steps for generating scores:
1a.
Generate joint distributions of four CAHPS composite scores that
reflect underlying correlations of 0.5 among composites, with each
composite distributed in the proportions described above.
1b.
Generate joint distributions of clinical composite measures that
reflect underlying correlations of 0 among composites, with each
distributed in the same proportions as CAHPS composites.
2a.
For the CAHPS roll-up measure, add up the number of stars across
composites. In the resulting distribution, assign cut points to
create five levels with a distribution that is as close as possible
to the distribution of stars for underlying composites. More
precisely, we’d assign median percentiles for each of the star
categories, so that 1 star = 5 points, 2 stars = 20 points, 3 stars
= 50 points, 4 stars = 80 points, and 5 stars = 95 points.
2b.
Carry out the parallel step to 2a for the clinical measures. Note
that this will yield a different distribution of summed points than
is obtained for the CAHPS measures, because of the zero correlation
among clinical composites versus the 0.5 correlation among CAHPS
composites. In the resulting distribution, assign cut points to
create five levels on the roll-up measure with a distribution as
close as possible to the distribution for the CAHPS roll-up measure.
(This will require a different set of cut points from the ones chosen
for the roll-up distribution of CAHPS scores).
Note that
this process should yield comparable levels of variability in CAHPS
and clinical roll-ups and CAHPS and clinical composite measures.
Where the CAHPS and clinical measures will differ is in the
relationships between the roll-up and drill-down results at the
composite level. A 5-star physician on the CAHPS roll-up measure will
tend to have 4 or 5 stars on the underlying composites, whereas a
5-star physician on the clinical roll-up will tend to be more
inconsistent in the number of stars on specific composites (e.g.,
more 3-star results). We think this is an interesting byproduct of
the greater consistency of CAHPS composites compared to clinical
measures, and that it reflects what consumers are likely to encounter
in the real world.
Assignment of Anecdotes Based on CAHPS Scores
To be realistic, we wanted the general tenor of the anecdotes to be more positive for clinicians/plans that had higher CAHPS scores, but with considerable variance in this relationship. We therefore grouped anecdotes to produce a modal emotional valence of highly negative, mildly negative, mixed (evenly positive and negative), mildly positive and highly positive, which involved different combinations of statements based on the emotional valence that they were assigned in pilot testing.
For each respondent, each of the clinicians in their choice set will first be randomly assigned a modal emotional valence, such that these modal valences have a 0.35 correlation with their aggregated CAHPS score. (See Exhibit 1). Following this protocol, a clinician/plan with a one star (lowest consumer rating) has a 69.6% probability of being assigned anecdotes with a generally negative orientation, but some small probably of receiving more generally positive anecdotes. (This variation will allow us to explore than anecdotes contradicting CAHPS scores dominate those scores influence consumer choice).
Once a clinician/plan has been assigned a modal affect, a second random draw will determine the number of anecdotes (ranging from 4-6) that they are assigned, which will in turn determine the mix of the emotional valences for the individual anecdotes (Exhibit 2). Reflecting patterns observed on actually physician commentary web sites, even physicians with a generally negative or generally positive reputation will have at least one comment that runs contrary to this general pattern.
EXHIBIT 1
|
Probability Any Clinician is Assigned A Modal Affect for the Associated Anecdotes |
|
||||
Strong Negative |
Weak Negative |
Mixed |
Weak Positive |
Strong Positive |
||
AGGREGATE CAHPS Score |
1 |
2 |
3 |
4 |
5 |
|
…………….. |
…………….. |
…………….. |
…………….. |
…………….. |
…………….. |
|
1 One star |
32.7% |
26.9% |
26.0% |
10.4% |
4.0% |
10% fixed |
2 Two stars |
21.7% |
24.8% |
30.4% |
15.4% |
7.7% |
20% fixed |
3 Three stars |
13.6% |
20.6% |
31.7% |
20.6% |
13.6% |
40% fixed |
4 Four stars |
7.7% |
15.4% |
30.4% |
24.8% |
21.7% |
20% fixed |
5 Five stars |
4.0% |
10.4% |
26.0% |
26.9% |
32.7% |
10% fixed |
|
|
|
|
|
|
|
|
15% expected |
20% expected |
30% expected |
20% expected |
15% expected |
|
……….…........ |
…………….. |
…………….. |
…………….. |
…………….. |
…………….. |
…………….. |
|
Row %s are entries |
r=0.35 |
||||
Exhibit 2
|
|
Number of Comments With Each Type of Valence |
|||||
|
|
Strongly Negative |
Mildly Negative |
|
Mildly Positive |
Strongly Positive |
Number of Comments |
|
Strong |
3 |
2 |
|
1 |
|
6 |
|
Negative |
2 |
2 |
|
1 |
|
5 |
|
|
2 |
1 |
|
1 |
|
4 |
Modal Valence |
Mild |
1 |
2 |
|
1 |
|
4 |
Negative |
1 |
3 |
|
1 |
|
5 |
|
|
2 |
2 |
|
2 |
|
6 |
|
|
|
2 |
|
2 |
|
4 |
|
Mixed |
NA |
NA |
NA |
NA |
NA |
5 |
|
|
1 |
2 |
|
2 |
1 |
6 |
|
Mild |
|
1 |
|
2 |
1 |
4 |
|
|
Positive |
|
1 |
|
3 |
1 |
5 |
|
|
|
2 |
|
2 |
2 |
6 |
|
Strong |
|
1 |
|
1 |
2 |
4 |
|
Positive |
|
1 |
|
2 |
2 |
5 |
|
|
|
1 |
|
2 |
3 |
6 |
| File Type | application/msword |
| File Title | Attachment W |
| Author | Dale Shaller |
| Last Modified By | kanouse |
| File Modified | 2009-12-21 |
| File Created | 2009-12-21 |