does medicare save lives?
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DOES MEDICARE SAVE LIVES?. DAVID CARD CARLOS DOBKIN NICOLE MAESTAS. Background. Medicare is the largest health insurance in US, one-fifth of total health care costs in the United States. ; virtually free to those aged over 65 - PowerPoint PPT PresentationTRANSCRIPT
DOES MEDICARE SAVE LIVES?
DAVID CARD CARLOS DOBKINNICOLE MAESTAS
Background Medicare is the largest health insurance in US,
one-fifth of total health care costs in the United States.; virtually free to those aged over 65
Although existing research has shown that the utilization of health care services increases once people become eligible for Medicare, the health impact of these additional services remains uncertain (e.g., Decker and Rapaport(2002), McWilliams et al.(2003, 2007), Card, Dobkin, and Maestas(2004)).
Research Question Does Medicare improve the patient’s health?
Estimation Strategy Basically the elderly can only enroll into
Medicare after turning into 65. This eligibility rule itself creates a opportunity to employ the regression discontinuity (RD) strategy.
It focuses on unplanned admissions through the emergency room for “non-deferrable” conditions – those with similar weekend and weekday admission rates – so that the crucial RD assumption can hold.
Main Findings (I) Admissions:
All causes admissions jump 7% once people reach 65
Emergency room admissions rise by 3%. Resources:
A small increase in the number of procedures and total list charges.
A large increase in the chance of being transferred to skilled nursing facilities
Main Findings (II) Readmission:
A reduction in the 28-day readmission rate.
Mortality 1 % (absolute percentage) lower death rate or
roughly a 20 percent A similar absolute reduction in mortality is
registered at 28 days and 90 days Such the pattern persists for at least two years
after admission
Regression Discontinuity design Reduced-form regression–discontinuity (RD)
model
age.
a indicator of policy dummy at age 65, then
as the causal effect of Medicare coverage.
RD’s model assumption The key assumption underlying an RD analysis is
that assignment to either side of the discontinuity threshold is as good as random.
f sufficiently small If the assumption fails, then we have a non-
consistent estimate of the parameter β Insurance status will lead to the assumption fail,
because it affects the probability that a patient is admitted to the hospital. The onset of Medicare eligibility leads to an
increase in hospitalization rates.
The Background of Medicare Medicare coverage: (1) above 65 age (2) have worked at least 10 years in covered employment.
The timing of eligibility: Age-eligible individuals can enroll on the first day of the month that they turn 65 and obtain Medicare hospital insurance (Part A) for free.
Medicare Enrollment For 65+:
Any insurance: +10% Medicare: + 60% Managed care: -31%
Data California hospital discharges records 1992-2002
Age, LOS, zip-code, race, gender ICDs, ER or not, planned or not Health providers (hospitals)
Mortality records (from social security records)
Select unplanned admissions through the emergency room for “non-deferrable” conditions (10 major diagnoses)
Sample Validation The paper attempts to solve the sample selection
problem by focusing on a subset of patients who are admitted through the ER for a relatively severe set of conditions that require immediate hospitalization.
Testing the assumption that there is no remaining selection bias associated with the age-65 boundary by looking for discontinuities in the number of admissions at 65 and the characteristics of patients on either side of the boundary.
Sample selection: ER v.s Non-ER Why admissions through the emergency room for
“non-deferrable” conditions? Avoid sample selection
ER vs. Non ER admissions: All causes admissions jump 7% once people reach
65 Emergency room admissions rise by 3%.
Sample selection Construct pre-tests
Those with similar weekend and weekday admission rates. If admission for a given diagnosis code were equally likely on a weekend and on a weekday, then the proportion of the weekend admissions is equal to 0.29 (2/7).
No significant differences on severity in admissions between 60-64 and 65-70.
Compute the fraction of weekend admissions for all ICD-9 codes
Limit the analysis sample to those codes for which the t-statistic for Ho (the proportion of the weekend admissions is equal to 0.29) is less than 0.965.
To test that patients’ inclusion in the non-deferrable admissions subsample is independent of whether they are under or over 65.
There are four groups by t-value: |𝑡|<0.965, 0.965 <t< 2.54, 2.54 <t< 6.62, t< 6.62
Also, check The change in the health characteristics of
admissions at age 65 in the nondeferrable sample. (Charlson comorbidity score)
The demographic composition of the nondeferrable subsample at age 65.
The employment status of the patient (retire or not)
Charlson Comorbidity Score There is no discernible evidence of a drop in the
severity of comorbidities at age 65 RD analysis on the age profile indicates a small
but statistically insignificant increase in severity
Charlson Comorbidity Score
Charlson Comorbidity Score
Demographic composition Check for discontinuities in the case mix and
demographic composition of the nondeferrable subsample at age 65.
Tests for jumps in the racial composition, sex, and fraction of Saturday or Sunday admissions are all far below critical values
Employment status Ruhm (2000) points that health is affected by
employment status. The paper shows that no discontinuity in the
likelihood of working at exactly age 65. It doesn’t exist the differences in survival
between people who return to work and those who do not.
The employment status of the patient
Medicare’s effect: insurance status For 65+:
Any insurance: +10% Medicare: + 60% Managed care: -31%
Medicare’s effect: treatment intensity A small increase in the number of procedures
and total list charges.
Medicare’s effect: transfers and readmissions A large increase in the chance of being
transferred to skilled nursing facilities
Medicare’s effect: mortality 1 % (absolute percentage) lower death rate or
roughly a 20 percent A similar absolute reduction in mortality is
registered at 28 days and 90 days Such the pattern persists for at least two years
after admission
Linear, Quadratic, and Cubic RD models for 28-day mortality
The jump exists in all RD models
Robustness of Mortality : Bounding approach (I) The paper used a simple bounding procedure to
obtain lower-bound estimates of the mortality effect of Medicare eligibility on broader samples of hospital admissions.
There are two subgroups of the sample of sick people close to age 65 Group 1 : The people who enter the hospital
regardless of whether they are Medicare-eligible or not.
Group 2 : The people who will only enter the hospital if they are over 65.
Robustness of Mortality : Bounding approach (II) The observed mortality rate of the patient
population just over 65 () is an average for groups 1 and 2.
Where : The mortality rate of the first group if
they enter the hospital just before their 65th birthdays.
: The mortality rate if they enter after 65.:The post-65 mortality rate of group 2.: The causal effect for group 1 (): The sample fraction of the second group.
(people with non-deferrable conditions , )
Robustness of Mortality : Bounding approach (III) The mortality differential between the post-65
patient population and the pre-65 patient population.
Lower bound on the absolute value of the bias caused by the presence of group 2 in the post-65 patient population
This bias tends to 0 as , and is proportional to
Bias term
𝒎−𝒎𝟏❑
𝒎𝟏❑
What is RD estimate? How do we observe health outcome difference?
Medicare eligibility insurance characteristics health care services mortality
(5)(6)(7)
Summary and Conclusion Purpose: through the difference of mortality
rate before and after age 65 to examine the influence of Medicare on health service.
Sample: admitted to hospitals through the ED with diagnoses that have similar admission rates on weekdays and weekends. In contrast to elective hospitalizations, there is no jump in these “nondeferrable” hospital admissions at age 65.
Summary and Conclusion Sample Validation: the predicted mortality rate
of admitted patients (based on demographics and admission diagnoses) trends smoothly. These findings suggest that the underlying health of patients admitted with nondeferrable conditions is very similar whether the patients are just under or just over 65.
Model: (1) Regression Discontinuity(RD) approach (2) measure the intensity of treatment and mortality.