In this most recent stage of their research they examined cells from five embryos that had been donated for medical research by a couple who had received successful fertility treatment, including PGD for cystic fibrosis. The embryos had developed to the blastocyst stage, which is about five days after fertilisation. Conventional PGD had already identified which embryos were unaffected, affected or were carriers of the disease. Karyomapping of cells from the donated embryos confirmed these diagnoses, but, in addition, it was able to identify which parent carried the affected chunk of DNA. Karyomapping also revealed two aneuploidies in two embryos, which had not been detected by the earlier PGD.

Mr Harton said: "This demonstrates that karyomapping, following genome-wide analysis of a single cell biopsied from embryos at the blastocyst stage, can provide highly accurate analysis for cystic fibrosis, combined with the detection of chromosomal aneuploidy. Now that vitrification [an improved method of embryo freezing] has improved embryo survival after thawing, it should be possible to vitrify embryos at the blastocyst stage, either before or after biopsy, and analyse the embryos for virtually any genetic disease and screen for aneuploidy of all 23 pairs of chromosomes simultaneously. This approach could make PGD by karyomapping less expensive than conventional single disease PGD because fewer embryos will be biopsied, more embryos will be chromosomally normal following growth to the blastocyst stage, and there is no need to custom develop tests for each disease or couple interested in PGD."

Prof Handyside concluded: "These tests have helped us to learn everything we can before we start to treat actual patients. I am confident that we will be offering a clinical trial to patients using karyomapping some time this year."

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