The presence of multinuclear blastomeres (MNB) has been widely reported in in-vitro-cultured embryos. Multinucleation at the first mitotic division and affecting both blastomeres is considered abnormal and such embryos are not transferred. The objective of this study was to use fluorescent in-situ hybridization (FISH) and probes specific for chromosomes X, Y and 18 to examine the genetic constitution of embryos developing from the 2-cell stage in which both blastomeres were bi- or multinuclear. Initially, 2-cell embryos in which both blastomeres were bi- or multinuclear were cultured further. Of 101 embryos, 89 (88.1%) cleaved further and were analysed at the 3- to 8-cell stage on day 2 or 3. Among embryos analysed, 30.4% contained only mononuclear diploid blastomeres, 35.9% had a combination of mononuclear diploid and non-diploid blastomeres, and 33.7% had non-diploid blastomeres, indicative of chaotic division. Results obtained were similar with embryos derived from in-vitro fertilization (IVF) or intracytoplasmic sperm injection (ICSI). Also, no significant differences were found between 2-cell embryos with bi- or multinuclear blastomeres or between slowly or normally cleaved embryos. Twelve (11.9%) embryos arrested at the 2-cell stage on day 3; of these, one had diploid blastomeres and the others were abnormal and highly polyploid. Subsequently, 59 embryos were analysed at the 2-cell stage. Initial observations related to the high number of nuclei in metaphase at the moment of spreading, notably when multinuclear blastomeres were observed. Genetic analysis showed 44.7% of embryos to be susceptible to analysis; the genetic constitution corresponded in both blastomeres to a diploid status. A combined diploid blastomere and abnormal blastomere was found in 4.3% of embryos; both blastomeres were abnormal in 51%. These data show that the genetic constitution of bi- or multinuclear blastomeres, and the daughter cells developing from them, are not always abnormal.