http://humrep.oxfordjournals.org/content/20/3/665.full
Traditional detection versus computer-controlled multilevel analysis of nuclear structures from donated human embryos
+Author Affiliations
- 3To whom correspondence should be addressed. Email: sziebe@rh.dk
- Received March 8, 2004.
- Revision received June 22, 2004.
- Accepted November 2, 2004.
Abstract
BACKGROUND: Multinuclearity is known to correlate with decreased implantation and pregnancy rates. Thus, a valid detection of nuclear structures especially among otherwise good quality embryos may be of great importance in order to improve clinical outcome. In this study, we have compared traditional manual microscopic analysis with computer-controlled multilevel morphological assessment for analysis of nuclear status in human embryos. METHODS: In total, 84 donated 2- and 4-cell embryos with ≤20% fragmentation from patients referred for IVF or ICSI treatment were included. Mono- and multinuclearity was recorded using traditional analysis as well as computer-controlled multilevel analysis of each intact embryo. Subsequently, the embryos were separated into individual blastomeres to assess the number of nuclear structures. All nuclear structures were fixed and stained for DNA. RESULTS: There was no significant difference (P=1.0) between embryonic nuclear status detected by computer-controlled analysis of the intact embryos and of the separated blastomeres. Additionally, 100% of the fixed nuclear structures contained DNA. However, using traditional morphological analysis, significantly more embryos (26%) had incorrect nuclear status detected (P=0.002). Further, the presence of <10% embryonic fragmentation had no impact on the correct detection of nuclear structures using the multilevel analysis. For embryos with 11–20% fragmentation, 86% of the nuclear structures detected in the separated blastomeres were found in the intact embryos. The mean diameter of nuclear structures was significantly decreased from 22.1 μm in mononucleate 2-cell embryos to 18.7 μm in mononucleate 4-cell embryos (P<0.001). CONCLUSION: The results of this study indicate that the use of computer-controlled multilevel morphological analysis can improve the detection of nuclear structures in human embryos.
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