Reprogenetics, 3 Regent Street, Suite 301, Livingston, NJ 07078, USA.
Curr Genomics. 2012 Sep;13(6):463-70. doi: 10.2174/138920212802510457.
At least 50% of human embryos are abnormal, and that increases to 80% in women 40 years or older. These abnormalities result in low implantation rates in embryos transferred during in vitro fertilization procedures, from 30% in women <35 years to 6% in women 40 years or older. Thus selecting normal embryos for transfer should improve pregnancy results. The genetic analysis of embryos is called Preimplantation Genetic Diagnosis (PGD) and for chromosome analysis it was first performed using FISH with up to 12 probes analyzed simultaneously on single cells. However, suboptimal utilization of the technique and the complexity of fixing single cells produced conflicting results. PGD has been invigorated by the introduction of microarray testing which allows for the analysis of all 24 chromosome types in one test, without the need of cell fixation, and with staggering redundancy, making the test much more robust and reliable. Recent data published and presented at scientific meetings has been suggestive of increased implantation rates and pregnancy rates following microarray testing, improvements in outcome that have been predicted for quite some time. By using markers that cover most of the genome, not only aneuploidy can be detected in single cells but also translocations. Our validation results indicate that array CGH has a 6Mb resolution in single cells, and thus the majority of translocations can be analyzed since this is also the limit of karyotyping. Even for translocations with smaller exchanged fragments, provided that three out of the four fragments are above 6Mb, the translocation can be detected.
至少有 50%的人类胚胎是异常的,而在 40 岁以上的女性中,这一比例上升到 80%。这些异常导致体外受精过程中胚胎的着床率降低,从 35 岁以下的女性的 30%降至 40 岁以上的女性的 6%。因此,选择正常胚胎进行移植应该可以提高妊娠成功率。胚胎的基因分析称为胚胎植入前遗传学诊断(PGD),最初使用 FISH 对 12 个探针进行同时分析来进行染色体分析,最多可同时分析 12 个探针。然而,该技术的利用并不理想,而且固定单个细胞的复杂性导致结果相互矛盾。PGD 技术因微阵列测试的引入而得到了改进,该技术可以在不固定细胞的情况下对所有 24 种染色体类型进行一次分析,并且具有惊人的冗余性,从而使测试更加稳健和可靠。最近在科学会议上发表和展示的最新数据表明,微阵列测试后胚胎着床率和妊娠率有所提高,这是一段时间以来人们一直预测的结果。通过使用覆盖大部分基因组的标记,不仅可以在单个细胞中检测到非整倍体,还可以检测到易位。我们的验证结果表明,微阵列 CGH 在单个细胞中有 6Mb 的分辨率,因此可以分析大多数易位,因为这也是染色体核型分析的极限。即使对于易位中交换的片段较小的情况,只要四个片段中的三个片段大于 6Mb,就可以检测到易位。