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alt="Flowchart of pretest–posttest design with arrows from a box labeled Define population connecting to boxes labeled Select sample, Collect baseline measurements, Conduct intervention, and Collect final measurements."/>

      The weakness of this design is that there may have been a number of factors influencing the outcome of the study, but you may be aware of only some of them. An example is a study on the influence on growth of food supplements given to children. Was there bias in the way the children were recruited into the study? Did the supplement contain enough of the relevant energy or nutrients to have an impact on growth? Were the children at the right age for the supplement to have an impact? Was follow‐up long enough to observe the impact of the supplement on growth? Participation in the study may in itself benefit growth (more social interaction, more stimulation from adults and peers, more food sharing, changing dietary patterns at home as a result of parental involvement in the study, etc.). It is possible that the direct effect of the supplement may represent only one of several factors that can have in impact on growth.

      The danger here is that the order of administration may have an effect on the outcome. It is therefore desirable to randomize the order of administration of the treatment and placebo (making the design more like a cross‐over clinical trial – see below). Thus, for one subject, Intervention 1 will be the active treatment, and Intervention 2 the placebo; for another subject, Intervention 1 will be the placebo, and Intervention 2 the active treatment. A ‘wash out’ period may be required, so that any residual effect of the first treatment has time to disappear and not appear as an influence on the second treatment. This may not be possible where a psychological or attitudinal variable is being measured, because the views of a subject may be permanently influenced once they have started to participate in the study.

Flow chart of one sample design displaying a box labeled Population with an arrow connecting to Sample, to Baseline measurements, to Intervention 1, to Second measurements, etc. leading to Final measurements.

      This is a stronger experimental design than the pre‐test–post‐test or one‐sample designs. However, the groups may differ in some characteristic which is important to the outcome (for example they may differ in age). Even if the groups are not ‘matched’ exactly, some attempt should be made to ensure that the groups are similar regarding variables which may be related to the outcome. For example, in a study to see if the administration of oral zinc supplements improves taste sensitivity in cancer patients, the type, degree, and severity of disease would need to be similar in both the treatment and placebo groups.

Flow diagram of two-sample (matched) design displaying a box labeled Population with an arrow connecting to a box labeled Selection of eligible subjects, to Matching and randomization, etc. leading to Final measurements.

      Clinical trials. These involve the assessment of the effects of clinical interventions such as drugs or feeding programmes. They are usually carried out in a controlled setting (that is, where the subject will be unable to obtain other supplies of the drug or where all aspects of diet are controlled). The intervention is compared with a placebo.

      Randomized controlled trials should not be embarked upon lightly! It is very demanding of time, staff, and money. Moreover, there are important limitations.

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