Dual blastomere analysis improves reliability of preimplantation trembler mouse diagnosis.

Abstract

Dual blastomere biopsy and independent blastomere analysis dramatically improved preimplantation diagnostic reliability as confirmed by testing the remaining biopsied eight-cell mouse embryo. The autosomal dominant trembler mouse point mutation was selected as a model for human preimplantation diagnosis because: (1) single cell assay failure is predicted to be the highest when testing autosomal dominant mutations; (2) point mutations represent the most common of all mutation categories and the most demanding mutation to assay reliably; and (3) the trembler mouse point mutation in peripheral myelin protein 22 (Pmp22) is a model of human Charcot-Marie-Tooth type 1A disease. Mathematical models predict our experimental results assuming amplification of 80% of each target allele as well as trembler sperm DNA contamination in 1 of 44 normal biopsied single blastomeres. Single blastomere analysis correctly predicted the genotype in only 84% of embryos that would have been implanted as normal. In contrast, when independent tests of both biopsied blastomeres agreed, test results were confirmed in 20 of 21 (95.2%) of the remaining six-cell biopsied embryos designated as normal. Thus, biopsied six-cell embryo confirmation demonstrated that dual biopsied blastomere analysis improved test reliability remarkably.