Cardiovascular Diseases Clinical Trial
Official title:
"Effects of Beta-Blockade on Cardiovascular Morbidity and Mortality in Elderly Trauma Patients: A Prospective Randomized Clinical Trial"
Advances in medical care have increased the proportion of elderly Americans and enabled them
to remain more physically active. This has resulted in an unprecedented increase in the
number of geriatric patients admitted to trauma centers. The elderly constitute 23% of
trauma center admissions, but 36% of all trauma deaths. This disproportionately high
mortality is attributable to a higher prevalence of pre-existing conditions, particularly,
cardiac disease. Multi-system injuries result in critical cardiac stress. Although
beta-blockade has been shown to decrease morbidity and mortality in patients at risk for
myocardial infarction after elective surgery, their use in trauma patients with potential
underlying cardiac disease has not been previously studied. We hypothesize that routine
administration of beta-blockers after resuscitation will reduce morbidity and mortality in
elderly trauma patients with, or at risk for, underlying cardiac disease.
This study is a randomized, prospective clinical trial. One cohort will receive routine
trauma intensive care, and the other, the same care plus beta-blockade after completion of
resuscitation. The primary outcome will be mortality. Secondary outcomes include MI, length
of stay, organ dysfunction, cardiac, and other complications.
Changes in outcome may not be due to reduction in myocardial oxygen demand and heart rate.
Laboratory studies demonstrate that circulating inflammatory cytokines contribute to cardiac
risk in trauma patients, and their production is influenced by adrenergic stimulation. We
will measure circulating IL-6, TNF alpha, IL-1beta, and measure NF-kB and p38 MAP kinase
activation in peripheral blood leukocytes, and determine the effect of beta-blockade on the
production of these inflammatory markers.
Finally, the wide variation in patient response to beta-blockers is attributed to genetic
variability in the adrenergic receptor. Therefore, we will identify single nucleotide
polymorphisms (SNPS) within the beta-adrenergic receptor, and determine their effects on
mortality and response to beta-blockade. This study will provide the first randomized,
prospective trial designed to reduce morbidity and mortality in elderly trauma patients at
risk for cardiac disease. The laboratory and genetic component will provide additional
insights that may explain treatment effects, lead to new therapeutic strategies, and have
the potential to lead to additional areas of investigation.
Methods of Proposed Research
1. Study Design: Prospective, randomized clinical trial.
2. Study Overview: All trauma patients admitted to the ICU > 55 years of age with a
primary diagnosis of injury will be screened on admission as study candidates. Patients
will be excluded if they have non-survivable injuries, are receiving comfort care only,
have an advanced directive limiting aggressive care, heart block, severe asthma,
bradycardia (< 60 bpm), are on beta-blocker therapy, or are having an acute or evolving
myocardial infarction. Informed consent will be obtained. Some patients may be unable
to provide consent. In such cases, consent will be obtained from legal surrogates.
Consented patients will be randomized into an experimental or control group. Study
procedures will commence when end-points of resuscitation have been met for 12 hours,
defined as cessation of transfusion and fluid bolus requirements, a systolic blood
pressure > 100 mm Hg, heart rate < 130 bpm, adequate urine output, and a resolving base
deficit. The experimental group will receive beta-blockers adjusted to keep heart rate
60-80 bpm from the end of resuscitation to hospital discharge. A formal algorithm has
been developed for this purpose, and will be inserted into the admission order sheet.
Briefly, this will be achieved initially by titration of intravenous esmolol
hydrochloride until the patient remains at goal heart rate on a stable dose for 24
hours, then with IV or PO metoprolol. Therapy will be withheld in the event of
hypotension (< 100 mmHg), or decreased cardiac index (< 2.0 L/min/m2) accompanied by
signs of inadequate end-organ perfusion. The control group will receive the standard of
care for the injured geriatric patient. Such patients are not routinely provided with
beta-blocker therapy. However, beta-blockers will be used for treatment of excessive
tachycardia, dysrhythmias, and post myocardial infarction management, as clinically
indicated.
3. Baseline Data Collection: Will include; age, gender, demographic information, co-morbid
conditions, pre-injury medications, mechanism of injury, Injury Severity Score,
Abbreviated Injury Severity Score (AIS). In our intensive care unit, pulmonary artery
catheters are routinely inserted in critically injured elderly trauma patients who do
not respond to initial resuscitation. Patients with a PAC will have a complete
hemodynamic profile (PAWP, CVP, MAP, PAM, CI, SV, SVRI, PVRI, LVSWI) and O2 transport
profile (SvO2, DO2I, VO2I) recorded. Laboratory studies will include serum lactate,
base deficit, CBC, electrolytes, and coagulation profile. Blood will also be obtained
to measure baseline levels of markers of inflammation (IL-6, IL-1, TNF), cardiac
injury (troponin), as well as for peripheral blood leukocyte isolation for measurements
of p38 MAP kinase and NF-kB activation, and genotyping.
4. Resuscitation and Daily Management: Our intensive care unit is a closed unit staffed by
a group of six dedicated faculty, all of whom have certification in critical care.
Treatments, including resuscitation end-points, management of fluid/electrolytes,
ventilator therapy, weaning, evaluation/treatment of fever/sepsis, pain/sedation,
nutrition, as well as management of specific injury types, are provided according to
established clinical protocols, thus reducing or eliminating treatment bias and
potentially confounding management variations.
5. Outcome Measures:
1. Mortality: The primary outcome will be mortality. All patients will be followed
from time of enrollment to study completion. Therefore, duration of follow-up will
vary from 1-23 months.
2. Cardiac Events: ICU records (flow charts, labs, ECG) will be screened daily for
evidence of dysrhythmia, ischemia/MI, and hypotension. Diagnosis of MI will be
based on clinical symptoms, ECG changes, cardiac biomarkers, and autopsy data, if
available. Studies on the detection of myocardial infarction demonstrate that
incidence is dependent on the type, frequency, and timing of a diagnostic test, as
well as the criteria being used. Our study will base the determination of MI on
the consensus document of the Joint European Society of Cardiology/American
College of Cardiology Committee for the redefinition of MI.47 The timing of
diagnostic tests will be based on the AHA guidelines for myocardial infarction
surveillance for high and intermediate risk patients after major surgical
procedures. Accordingly, an ECG will be obtained at baseline, daily for two days,
after any surgical procedure, and at ICU discharge. Biochemical markers will be
obtained at baseline, after any surgical procedure, daily for two days, and on day
4 or day of ICU discharge (whichever comes first).26 Classification of cardiac
events will be done by individuals blinded to group assignment.
3. Infection/Organ Dysfunction: ICU records will be screened daily for evidence of
infection (fever, altered WBC, pneumonia, abdominal abscess, UTI, line sepsis).
Sepsis and MOD will be calculated by individuals blinded to group allocation.
4. Length of Stay: ICU stay, ventilator days, and hospital stay will be recorded.
6. Laboratory Procedures:
1. Serum Troponins: Serum cardiac troponin I will be determined by ELISA.
2. Inflammatory Markers: WBC's will be isolated from whole blood by centrifugation,
and nuclear proteins isolated to measure NF-kB nuclear translocation. Nuclear
protein extracts will be assayed by ELISA with the TransAM NF-kB p65 activation
assay to determine the degree of NF-kB activation following LPS stimulation. The
amount of translocated NF-kB will be standardized to total protein content, which
will be determined in a standard Bradford assay.48 Activation of p38 MAP kinase
will be conducted with the p38 MAP kinase assay kit. Briefly, a monoclonal
phoso-specific antibody to p38 MAP kinase (Thr180/Tyr182) is used to selectively
immunoprecipitate active p38 MAP kinase from the cell lysates. The resulting
immunoprecipitate is incubated with ATF-2 fusion protein in the presence of ATP
and kinase buffer. This allows immunoprecipitated active p38 MAP kinase to
phosphorylate ATF-2. Phosphorylation of ATF-2 at Thr71 is measured by Western
blotting using a phosphor-ATF-2 (Thr71) antibody.
IL-6 concentrations in plasma will be determined by conventional ELISA, using
OptEIATM Sets. Briefly, a plate is coated with a monoclonal antibody that is
specific for IL-6. Standards and samples are added to the wells, and any IL-6
present binds to the immobilized antibody. The wells are washed and incubated at
room temperature with an avidin-horseradish peroxidase conjugate mixed with a
biotinylated anti-human IL-6 antibody. The wells are again washed and a TMB
substrate solution is added producing a color change. The microwell absorbances
are read at 450 nm. The concentration of IL-6 is directly proportional to the
color intensity of the test sample.
3. Sequencing of Beta-Adrenergic Receptor Genotype: The Ser49Gly and Arg399Gly SNP’s
of the adrenergic receptor will be amplified by polymerase chain reaction (PCR).
Genotypes will be assayed by pyrosequencing and DNA sequence analysis. Genomic DNA
will be extracted from whole blood by ammonium acetate-ethanol precipitation and
the yield quantified by comparison of staining intensity relative to lanes
containing known concentrations of standards.49 Fragments containing each of the
SNP’s will be individually PCR-amplified from genomic DNA using a thermal profile,
reaction conditions, and primer sequences specific for each SNP. All genotypes
will be determined by pyrosequence analysis using PSQ 96 SNP Software. Each SNP
will be assayed with a specific primer sequence, which will enable the scoring of
heterozygotes and alternate homozygotes with equal reliability. Amplification
conditions have been established and optimized for more than two dozen loci in our
laboratory over the past two years. The addition of new candidate SNPs has become
a routine matter. We have utilized these protocols to generate genotype data for
more than 20 SNP’s in over 600 individuals that have been published five
manuscripts over the past several years.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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