Introduction

In epidemiology, understanding the distribution of health events within a population is crucial for identifying trends, targeting interventions, and evaluating the effectiveness of public health measures. One challenge when comparing different populations or time periods is accounting for variations in population structure, such as age and sex, which can influence disease rates. Standardisation is a method used to adjust these rates, allowing for more accurate comparisons across populations or time periods.

Types of Standardisation

There are two main types of standardisation: direct and indirect.

Direct Standardisation

Direct standardisation is a method that adjusts disease rates based on a standard or reference population. This is done by applying age-specific rates from the populations being compared to the reference population's age distribution. The adjusted rates are then summed to produce a standardised rate that can be compared across populations. The advantage of direct standardisation is that it produces rates that are free from the confounding effects of population structure.

Steps for Direct Standardisation:

1. Obtain age-specific rates for the populations being compared.
2. Obtain the age distribution of the standard population.
3. Calculate expected cases for each age group by multiplying the age-specific rates with the corresponding age group population from the standard population.
4. Sum the expected cases to obtain the total expected cases.
5. Divide the total expected cases by the total standard population to get the standardised rate.

8.2.2 Indirect Standardisation

Indirect standardisation is a method that adjusts disease rates based on the assumption that the populations being compared have the same age-specific rates as the reference population. This is done by calculating the expected number of cases in each population if they had the same age-specific rates as the reference population. The ratio of observed to expected cases is known as the Standardised Mortality Ratio (SMR) or Standardised Incidence Ratio (SIR), depending on the health event being studied.

Steps for Indirect Standardisation:

1. Obtain age-specific rates for the standard population.
2. Obtain the age distribution of the populations being compared.
3. Calculate expected cases for each age group by multiplying the age-specific rates from the standard population with the corresponding age group population from the populations being compared.
4. Sum the expected cases to obtain the total expected cases.
5. Calculate the SMR or SIR by dividing the observed cases in the population by the total expected cases.

8.3 Choosing Between Direct and Indirect Standardisation

The choice between direct and indirect standardisation depends on the available data and the research question. Direct standardisation is preferred when age-specific rates are available and reliable for the populations being compared. Indirect standardisation is useful when age-specific rates are unavailable or unreliable for one or more of the populations being compared.

Limitations of Standardisation

One of the limitations is that standardisation relies heavily on the quality and availability of data. Poor quality data, such as incomplete or inaccurate records, can lead to biased estimates and affect the validity of conclusions drawn from the analysis. Additionally, standardisation assumes that the population being studied is homogeneous and that all individuals are equally at risk of developing the disease or condition under investigation. This assumption may not hold true in reality, as other factors may affect disease risk that are not accounted for in the standardisation process. Furthermore, standardisation may not be appropriate for rare or highly localized diseases, where comparisons between populations are not meaningful. Therefore, while standardisation can be a valuable tool in epidemiological research, it is important to be aware of its limitations and to consider alternative approaches where necessary.

References

• Rothman KJ, Greenland S, Lash TL. Modern Epidemiology. 3rd ed. Philadelphia, PA: Wolters Kluwer Health/Lippincott Williams & Wilkins; 2008.

References

• The original text was written by ChatGPT4.0, generated on 25 march 2023, and edited by Arnold Bosman