2.4: Cross-Sectional vs. Longitudinal

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To come up with ways to prevent diseases like heart disease and osteoporosis, scientists need to know how the diseases develop over the life span. The quickest and least costly way to study this is to make one-time measurements in people of various ages and deduce the pattern of changes that occur over the years. This is called a cross-sectional study because a cross section of the present population is studied.

Cross-sectional studies of changes in bone mass over the lifespan make one-time measurements of bone density in people of different ages. From such studies, it seems that bone mass peaks at about age 25 and declines steadily after about age 40. This kind of study has obvious pitfalls. Today’s 75-year-olds had, at age 20, different diets, exercise habits, diseases, etc., than today’s 20-year-olds, so we can’t really say that today’s 20-year-olds will be, at age 75, like today’s 75-year-olds.

In a whimsical example, many young people in Miami were of Cuban descent, and many elderly Jews went to Miami to retire. So a cross-sectional study at that time of the Miami population to look at changes that occur over the years would have shown, incorrectly of course, that people in Miami are born Cuban and die Jewish!

In a longitudinal study, the same people are studied as they age (e.g., measure someone at age 10, and again at ages 20, etc.). This gives better information but is slow, tedious, and expensive.

One such study is of the population of Framingham, Massachusetts. This longitudinal—and prospective—study began in 1948 with 5,209 adults, and is now in its third generation of participants. It has provided key information about risk factors and the development of chronic diseases throughout the life span. It found, for example, that healthy younger adults with high blood-cholesterol had more heart disease later in life.

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