Cardiovascular Diseases Clinical Trial
Official title:
Statin Intensity, Achieved LDL Cholesterol, and Cardiovascular Outcome in Statin Therapy in Patients With Coronary Artery Disease (Post-hoc Study of TNT Trial)
Epidemiological studies have shown that serum cholesterol level is correlated with
Cardiovascular Disease (CVD) risk, and that Cardiovascular Disease (CVD) risk increases with
increasing LDL cholesterol levels. Fortunately, it has been confirmed that
cholesterol-lowering therapy is effective in preventing Cardiovascular Disease (CVD), and
cholesterol lowering with statin therapy is a primary strategy in the prevention of
Cardiovascular Disease (CVD). Despite the fact that statins reduce both LDL cholesterol and
future cardiovascular outcome, the association of statin intensity and the achieved level of
LDL cholesterol with cardiovascular outcome has not been fully elucidated, because statins
have pleiotropic effect as well as LDL lowering effect.
The effect of statin on future Cardiovascular (CV) outcome seems to be more associated with
statin intensity relating pleiotropic effects rather than with achieved LDL cholesterol
level, because LDL-lowering by inhibition of hepatic cholesterol synthesis is linked to
reciprocal increment of cholesterol absorption from the intestine.
It is easily extrapolated the relationship between LDL-C level and the incidence of
Atherosclerotic Cardiovascular Disease (ASCVD) after statin therapy from the correlation
between LDL-C level and the incidence of Atherosclerotic Cardiovascular Disease (ASCVD) in
subjects without statin therapy and from the results of most lipid-lowering trials showing
that 'the lower achieved LDL-C level, the better clinical outcomes. However, the association
of statin intensity and the achieved level of LDL-C with cardiovascular outcome has not been
fully elucidated, because the absolute amount of LDL cholesterol reduction is dependent not
only on statin intensity, but also on inter-individual variation of statin responsiveness.
In studies, the response to therapy with hypolipidemic agents shows considerable individual
variation, and the use of the same dose of the same statin in different patients produces
LDL-C decrease in a wide range from 8 to 55 %. These differences may be due to the
interaction of environmental and genetic factors that affect drug bioavailability, receptor
function or ligand structure and candidate gene analyses have found variants in known
regulators of cholesterol metabolism such as HMGCR, Apolipoprotein E (APOE), PCSK9,
Angiotensin Converting Enzyme (ACE), NPC1L1, and Low-Density Lipoprotein Receptor (LDLR) to
be associated with statin response. Therefore, investigator suspects there could be some
mistakes in interpreting the result of clinical trials with different intensities of statin.
Actually, most of statin trials only compared the mean values of achieved LDL-C to the
clinical outcomes in the statin therapy with different intensity, and there were few reports
about the relationship between the individual values of achieved LDL-C and clinical outcomes
in the statin therapy with same intensity. To accept the role of achieved LDL-C level for
the prevention of Cardiovascular (CV) outcomes, it should still have a significant value
after adjusting with statin intensity. In PROVE IT-Thrombolysis In Myocardial Infarction
(TIMI) 22 study using either 80 mg of atorvastatin or 40 mg of pravastatin in Acute Coronary
Syndrome (ACS) patients, IDEAL study with either 80 mg of atorvastatin or 20 mg of
simvastatin in Acute Mycardial Infarction (AMI) patients, and TNT study with 80 mg of
atorvastatin or 10 mg of atorvastatin in Coronary Artery Disease (CAD) patients, the authors
demonstrated the relationships between the levels of achieved LDL-C after statin therapy and
those between statin intensity and the risk of recurrent myocardial infarction or death from
coronary causes separately. However, they did not report the relation between achieved LDL-C
level and primary outcome after adjustment with statin intensity. Therefore, investigator
think it may be inaccurate to determine the role of achieved LDL-C level in Atherosclerotic
Cardiovascular Disease (ASCVD) prevention in clinical trials when those trials include the
subjects with different intensity of statin therapy. Same phenomenon can also occur in
meta-analysis of clinical trials with different statin intensity. Therefore, in Cholesterol
Treatment Trialists' Collaboration (CTTC) meta-analyses, it should be reconsidered that the
absolute amount of LDL-C reduction is dependent not only on statin intensity, but also on
inter-individual variation of statin responsiveness.
All analyses will be performed on an intention-to-treat basis. Univariate analysis for each
baseline characteristic of the patients, Cox proportional hazard model including age, sex,
hypertension, diabetes, cardiovascular disease including coronary artery disease,
cerebrovascular disease, peripheral artery disease, Congestive Heart Failure (CHF), achieved
LDL cholesterol level, achieved C-Reactive Protein (CRP) level, statin intensity As in other
studies using multiple doses of statin, investigator would like to evaluate the linear
regression analysis between achieved LDL cholesterol level and CV outcome in total group,
and it will show the correlation between them.
However, when investigator evaluates the linear regression analysis between achieved LDL
cholesterol level and Cardiovascular (CV) outcome in the group treated with 10 mg of
atorvastatin, it will show no relation between them, because of individual variability of
LDL-C lowering effects by same statin.
The same result can be expected the relationship between achieved LDL cholesterol level and
Cardiovascular (CV) outcome in the group treated with 80 mg of atorvastatin.
With the survival curve using Cox proportional hazard model for total Major Adverse Cardiac
Events (MACE) and each component, investigator evaluates the impact of the followings:
1. Achieved LDL-C level ( quartiles)
2. Statin intensity
3. Achieved C-Reactive Protein (CRP) level ( quartiles)
4. Absolute mount of LDL-C lowering
5. Absolute mount of C-Reactive Protein (CRP) lowering
6. Other risk factors such as age, sex, hypertension, diabetes, hyperlipidemia, and etc.
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