Genetic Future (Jan. 20, 2011)- "In the last century infant mortality has declined precipitously in the Western world, thanks in large part to the development of antibiotics and vaccination. Yet as the suffering and death from infectious disease has reduced, the burden from genetic disease has become proportionately greater: currently around 20% of all infant deaths in developed countries are a result of inherited Mendelian (single-gene) disorders.What can be done to reduce this burden? Increasingly sophisticated methods for detecting disease in embryos during pregnancy will help, and these have recently taken another step forward with the development of accurate, non-invasive methods based on analysing foetal DNA in the blood of pregnant mothers (an article in the BMJ this week demonstrates the feasibility of this approach for a non-Mendelian disease, Down syndrome; and the same group showed late last year that this approach can also be applied to effectively any known disease-causing mutation). Yet these approaches detect disease after pregnancy has already begun.
Disease mutations can also be detected in embryos prior to implantation, for prospective parents undergoing IVF. But IVF remains an expensive, arduous and invasive procedure, and thus a weapon of last resort for most parents-in-waiting; as Armand Leroi notes drily in an exceptional 2006 article in EMBO Reports: “nature has contrived a cheap, easy and enjoyable way to conceive a child; IVF is none of these things.” (While Leroi goes on to argue that the challenges of IVF are less severe for young couples with no fertility problems, it still seems fairly implausible that this will become the default mode of reproduction in the near future.)
However, for some classes of Mendelian disease it’s possible to move the screening one step back. Recessive diseases are insidious things. The mutations that cause them lurk undetected – each of us carry perhaps 5 to 10 of them – as their carriers are protected by the presence of a healthy second copy of the affected gene. These mutations can thus wait silently for generation after generation, until a carrier is unlucky enough to fall for someone who carries the same mutation, or another mutation in the same gene. The children of such a couple will each have a 25% chance of inheriting one damaged copy of the gene from each parent and thus developing the disease."
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