Hazard ratio
Hazard ratio (HR) is a statistical measure used in epidemiological and clinical research to quantify the effect of a particular variable or intervention on the risk of an event occurring over time. It is commonly used in survival analysis and time-to-event analyses, such as assessing the risk of death or the occurrence of a disease.
Definition[edit | edit source]
- The hazard ratio is defined as the ratio of the hazard rates in two groups. The hazard rate, also known as the event rate, is the probability of the event occurring in a small time interval, given that it has not yet occurred.
- HR = (Hazard rate in the treatment or exposed group) / (Hazard rate in the control or unexposed group)
- HR = 1 suggests no difference in hazard rates between the groups.
- HR > 1 suggests an increased hazard of the event in the treatment or exposed group compared to the control group.
- HR < 1 suggests a decreased hazard of the event in the treatment or exposed group compared to the control group.
Applications[edit | edit source]
- Hazard ratios are widely used in clinical trials and epidemiological studies. Some common applications include:
- Assessing Treatment Efficacy: Comparing the hazard of an adverse event (e.g., death, disease recurrence) between a treatment group and a control group.
- Evaluating Risk Factors: Assessing the impact of a risk factor (e.g., smoking, high blood pressure) on the hazard of an event (e.g., heart attack, stroke).
Interpretation[edit | edit source]
- When interpreting hazard ratios, it is important to consider the following:
- Confidence Intervals: The precision of a hazard ratio is often accompanied by a 95% confidence interval. If the confidence interval includes 1, the result may not be statistically significant.
- Time-Dependence: Hazard ratios may change over time. It's important to check the proportional hazards assumption, which assumes that the hazard ratios are constant over time.
- Adjustment for Covariates: Hazard ratios can be adjusted for potential confounders to evaluate the independent effect of the variable of interest.
Limitations[edit | edit source]
Hazard ratios do not provide information on the absolute risk of the event. The proportional hazards assumption may not always hold true. It does not account for competing risks.
See Also[edit | edit source]
References[edit | edit source]
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Contributors: Prab R. Tumpati, MD
