Future Health, Future Choices
Fackelmann, Kathleen, Science News
The year: 2020. The setting: Chicago. A young associate named Susan steps into the conference room of a law firm. She faces a gauntlet of the firm's best attorneys. They tell Susan that she'll make partner if she measures up during the next year.
They also tell her about a new drug shown to boost cognitive performance. Of course, they say, the drug does have side effects; it can cause cancer in 20 or 30 years. "It's up to you," they tell her.
Susan takes the drug. Was it a free choice?
Susan would not be unusual if she felt that she had to take the drug or lose her job, says bioethicist Thomas H. Murray of Case Western Reserve University in Cleveland.
The above scenario is fiction-for now, at any rate-but Murray points out that scientists are already refining drugs aimed at enhancing cognitive performance. Those drugs are meant to stop or reverse the addled thinking characteristic of Alzheimer's disease, but they may also enhance the executive functions of the average brain.
Biomedical advances are progressing at a dizzying speed. If the pace continues, the future will bring with it a host of increasingly difficult ethical dilemmas spawned by pharmaceutical research and medical technology. Arthur L. Caplan, director of the Center for Bioethics at the University of Pennsylvania in Philadelphia, envisions a bold new world of genetic engineering. Researchers have already transplanted genetically engineered human cells into people suffering from inherited diseases, but Caplan imagines a genetic therapy that takes place before conception.
Consider a man and woman, both of whom carry the mutant gene for the lethal Tay-Sachs disease. They don't want to pass on two mutant genes, and thus the disease, to their children. They visit a genetics clinic, where technicians harvest primitive cells destined to become sperm or eggs. From each of these germ cells, the technicians snip out the flawed Tay-Sachs gene and replace it with a healthy gene. In the end, the firm offers the couple several embryos guaranteed not to carry the genetic blueprint for Tay-Sachs disease.
The benefits of such therapy need no further explanation. However, the technique would alter the set of genes passed to future generations. Critics fear such tinkering might introduce unforeseen consequences.
"We'll be in a debate about whether it is right to take risks with our descendants in order to prevent disease," Caplan predicts. However, he believes the impetus will be to forge ahead in such germ-line gene therapy.
Scientists have identified a number of disease-causing genes. Such work has led to blood tests that can reveal who is free of the tainted inheritance and who carries one or two copies of the genes. The near future will bring an array of simple and cheap tests for genetic flaws.
"It's pretty clear that genetic tests of various kinds will be widely employed in the future," Murray says. …