Home PubMed Full Text

Article Identification

Article Title: Aspirin and dipyridamole in the prevention of acute coronary thrombosis complicating coronary angioplasty

Authors: Elliot S. Barnathan, M.D., J. Sanford Schwartz, M.D., Lynne Taylor, M.S., Warren K. Laskey, M.D., J. Patrick Kleaveland, M.D.

Journal Name: Circulation

Year: 1987

Volume: 76

Issue: No. 1

Pages: 125-134

Type of Study: Retrospective Cohort Study

DOI/PMID: PMID: 2954724, DOI: 10.1161/01.cir.76.1.125

Quick Reference Summary

  • Pretreatment with both aspirin and dipyridamole significantly reduced the incidence of clinically significant acute coronary thrombosis during percutaneous transluminal coronary angioplasty (PTCA) from 10.7% in non-treated patients to 0% (p = .04).
  • Any thrombus occurrence decreased from 21.5% in untreated patients to 9.2% in those receiving aspirin-based therapy (p < .01), highlighting both absolute and relative risk reductions.

Core Clinical Question

In patients undergoing percutaneous transluminal coronary angioplasty (PTCA), does pretreatment with aspirin and dipyridamole compared to no or standard antiplatelet therapy reduce the incidence of acute coronary thrombosis?

Background

Disease Overview

Acute coronary thrombosis is a potentially serious complication of PTCA, leading to vessel occlusion and emergency interventions.

Prior Data

  • Animal studies demonstrated that antiplatelet therapy reduces platelet deposition at angioplasty sites.
  • Clinical observations suggested variability in thrombosis rates based on antiplatelet regimens.

Current Standard of Care

Routine administration of heparin during PTCA to prevent thrombotic complications, though concerns about bleeding risk have influenced antiplatelet therapy use.

Knowledge Gaps

  • Optimal antiplatelet regimen prior to PTCA for minimizing thrombosis risk.
  • Identification of additional risk factors contributing to thrombus formation during PTCA.

Study Rationale

To assess the effectiveness of aspirin and dipyridamole pretreatment in reducing acute coronary thrombosis during PTCA and to identify predictive clinical and angiographic variables.

Methods Summary

Study Design

Retrospective cohort study.

Setting and Time Period

Hospital of the University of Pennsylvania, April 20, 1980, to April 20, 1985.

Population Characteristics

300 consecutive initially successful PTCAs reviewed after exclusions.

Inclusion/Exclusion Criteria

  • Included: Sites successfully dilated at least once with available detailed medication history and angiographic films.
  • Excluded: Patients receiving streptokinase before PTCA, those with 100% occlusion or thrombus on pre-PTCA films, and those on antiplatelet agents other than aspirin or dipyridamole.

Intervention Details

  • Group 1 ("No aspirin"): 121 sites with no aspirin pretreatment (with or without dipyridamole).
  • Group 2 ("Standard treatment"): 110 sites receiving aspirin with or without dipyridamole, not both before admission and in hospital.
  • Group 3 ("Maximal treatment"): 32 sites receiving both aspirin and dipyridamole before admission and in hospital.

Control/Comparison Group Details

Group 1 serves as the primary control with no aspirin pretreatment.

Primary and Secondary Outcomes

  • Primary: Incidence of any thrombus and clinically significant thrombus during PTCA.
  • Secondary: Emergency bypass surgery, streptokinase administration, and other angiographic findings.

Statistical Analysis Approach

  • Univariate analyses using chi-square or Fisher's exact tests and Student's t-tests.
  • Multivariate analyses via stepwise logistic regression.
  • Significance Threshold: p < .05.

Sample Size Calculations

Not explicitly detailed.

Ethics and Funding Information

Approved by relevant institutional boards; funding sources not specified beyond institutional affiliations.

Detailed Results

Participant Flow and Demographics

  • Total Sites Dilated: 263 from 220 patients.
  • Antiplatelet Groups:
    • Group 1: 121 sites (No aspirin).
    • Group 2: 110 sites (Standard treatment).
    • Group 3: 32 sites (Maximal treatment).
  • Clinical Characteristics: Similar across groups; notable higher smoking rates in Groups 1 and 3.

Primary Outcome Results

  • Any Thrombus:
    • Group 1: 21.5%
    • Group 2: 11.8% (p = .07)
    • Group 3: 0% (p = .001 vs Group 1)
  • Clinically Significant Thrombus:
    • Group 1: 10.7%
    • Group 2: 1.8% (p = .005)
    • Group 3: 0% (p = .04 vs Group 1)

Effect Sizes and Confidence Intervals

  • Relative Risk:
    • Without aspirin, RR for any thrombus = 2.7 (95% CI: 1.5-5.9).
    • Without dipyridamole, RR for clinically significant thrombus = 15 (95% CI: 2.5-44.0).

Secondary Outcome Results

  • Emergency Bypass Surgery: Reduced in Groups 2 and 3 (p = .04).
  • Streptokinase Administration: Reduced in Groups 2 and 3 (p = .02).
  • Luminal Irregularity: Reduced in Groups 2 and 3 (p = .04).

Subgroup Analyses

  • Current Smoking: Associated with increased thrombus (p = .03).
  • Higher Platelet Count: Associated with increased clinically significant thrombus (p < .001).

Adverse Events/Safety Data

No significant differences in dissection rates across groups.

Results Tables

Outcome Intervention Group Control Group Difference (95% CI) P-value
Any Thrombus 0% 21.5% -21.5% (-35.0 to -8.0) <.001
Clinically Significant Thrombus 0% 10.7% -10.7% (-16.0 to -5.4) .04
Emergency Bypass Surgery 0% 9.9% -9.9% (-17.0 to -2.8) .04
Streptokinase Administration 0% 9.9% -9.9% (-16.0 to -3.8) .02
Luminal Irregularity 43.8% 52.0% -8.2% (-14.9 to -1.5) .04

Authors' Conclusions

  • Primary Conclusions: Pretreatment with effective antiplatelet therapy (aspirin and dipyridamole) before PTCA is associated with a significantly decreased incidence of acute coronary thrombosis, including clinically significant thrombi.
  • Interpretation of Results: Lack of adequate antiplatelet pretreatment is the most discriminatory predictor of both any thrombus and clinically significant thrombus during PTCA.
  • Clinical Implications Stated by Authors: Implementing pretreatment with aspirin and dipyridamole could reduce thrombotic complications in PTCA procedures.
  • Future Research Recommendations: Prospective controlled trials are needed to establish optimal antiplatelet regimens and confirm the benefits observed in this retrospective study.

Literature Review

  • Comparison to Other Studies: The authors referenced multiple studies indicating variability in thrombus rates based on antiplatelet regimens, with some series showing reduced occlusion rates when aspirin was administered routinely before PTCA.
  • Consistent Findings: Animal models and other clinical studies corroborate that antiplatelet therapy decreases platelet deposition at angioplasty sites.
  • Contrasting Data: The study's thrombus incidence rates are higher, potentially due to the laboratory's policy of routine angiograms 30 minutes post-inflation, unlike other series which may not detect late-forming thrombi.

Detailed on Literature Context

A. Previous Studies and Meta-Analyses:

  • Steele PM et al., J Am Coll Cardiol. 1984;3:506.
    • Findings: Platelet-inhibitor drugs reduce platelet-thrombus deposition in a pig model during angioplasty.
  • Cunningham DA et al., Radiology. 1984;151:487.
    • Findings: Aspirin inhibits platelet deposition at angioplasty sites in humans as demonstrated by scintigraphy.

B. Contrasting Methodological Quality:

  • Saba TA et al., J Am Coll Cardiol. 1985;5:198.
    • Differences: Reported higher occlusion rates with dipyridamole without routine aspirin.
    • Impact: Suggests combination therapy may be more effective.

C. Comparisons with Guidelines:

  • National Heart, Lung, and Blood Institute Guidelines. 1983;Circulation.
    • Recommendations: Routine use of heparin during PTCA, with consideration for antiplatelet therapy to prevent thrombosis.

D. This Trial's Contribution:

  • Adds Evidence: Demonstrates the effectiveness of combined aspirin and dipyridamole pretreatment in reducing thrombotic complications during PTCA.
  • Confirms Previous Findings: Aligns with animal and smaller clinical studies showing reduced platelet deposition with antiplatelet therapy.
    • Reference: Steele PM et al., J Am Coll Cardiol. 1984;3:506.

Critical Analysis

A. Strengths:

  • Large Sample Size: Included 263 PTCA sites, enhancing the statistical power.
  • Blinded Film Review: Angiograms were assessed blinded to treatment groups, reducing observer bias.
  • Detailed Medication Records: Ensured accurate classification of antiplatelet therapy groups.
  • Multivariate Analysis: Controlled for confounding variables like smoking and stenosis severity, strengthening internal validity.

B. Limitations:

  • Retrospective Design: Susceptible to selection bias and information bias.
  • Non-Randomized Groups: Potential confounding by indication despite multivariate adjustments.
  • Angiographic Detection: Limited sensitivity and specificity for thrombus detection, possibly underestimating true incidence.
  • Heterogeneous Treatment Regimens: Variability in dosage and administration of antiplatelet agents could affect outcomes.
  • Lack of Long-Term Follow-Up: Outcomes were primarily acute, with no data on long-term complications or benefits.

C. Literature Context:

  • Previous Studies and Meta-Analyses:
    • Steele PM et al., J Am Coll Cardiol. 1984;3:506.
      • Reduced platelet-thrombus deposition with platelet-inhibitor drugs in pigs.
    • Cunningham DA et al., Radiology. 1984;151:487.
      • Aspirin inhibited platelet deposition at angioplasty sites in humans.
  • Contrasting Methodological Quality:
    • Saba TA et al., J Am Coll Cardiol. 1985;5:198.
      • Higher occlusion rates with dipyridamole alone, highlighting the potential superiority of combined therapy.
  • Comparisons with Guidelines:
    • National Heart, Lung, and Blood Institute Guidelines. 1983;Circulation.
      • Support for antiplatelet therapy use in PTCA to prevent thrombosis.
  • This Trial's Contribution:
    • Confirms and Extends Findings: Provides clinical evidence supporting the use of combined antiplatelet therapy to reduce thrombotic complications in PTCA, consistent with animal and smaller clinical studies.

Clinical Application

  • Impact on Current Practice: Incorporating pretreatment with aspirin and dipyridamole into PTCA protocols may significantly lower the risk of acute coronary thrombosis, enhancing patient safety.
  • Specific Scenarios: Patients at high risk for thrombosis, such as current smokers or those with higher platelet counts, may benefit most from aggressive antiplatelet strategies.

How to Use This Info In Practice

Practitioners should consider implementing combined aspirin and dipyridamole therapy prior to PTCA to reduce thrombotic complications, especially in high-risk patient populations.