Two new studies presented at the Association for Molecular Pathology (AMP) 2025 Annual Meeting & Expo, taking place Nov. 11–15 in Boston, provide some answers regarding the causes of recurrent pregnancy loss.
These studies both utilized a cutting-edge technique known as optical genome mapping, which allows researchers to study the structure of genomes at a very high resolution to detect abnormalities often missed by traditional genetic sequencing methods.
Optical Genome Mapping uncovers hidden causes of pregnancy loss
Researchers at Dartmouth–Hitchcock Medical Center investigated whether OGM could detect harmful chromosomal changes in patients with a family history or risk of recurrent pregnancy loss who had previously undergone traditional genetic testing, such as karyotyping or chromosomal microarray analysis, allowing direct comparison between methods.
On average, researchers found about 40 structural changes in the genome after carefully reviewing the data. The study focused on 238 genes known to be linked to recurrent pregnancy loss (RPL). In two cases, four important RPL-related genes that also play a role in infertility were directly affected by these structural changes. Another case showed a hidden chromosome rearrangement that disrupted other genes not tied to RPL. These results show that optical genome mapping (OGM) can reveal genetic changes that standard tests often miss.
The authors say that, used alongside standard genetic tests, OGM can enhance the diagnostic evaluation of recurrent pregnancy loss, helping clinicians better understand potential genetic causes.
Rare chromosome fragile site linked to recurrent pregnancy loss
Researchers at Queens University’s Kingston Health Sciences Centre and the University of Ottawa investigated the connection between fragile sites and recurrent pregnancy loss. A 33-year-old patient was referred to them after three consecutive early pregnancy losses. Traditional chromosome testing found breaks at the rare fragile site FRA16B in about one third of her cells. Using optical genome mapping (OGM), they discovered that the repeated DNA segment at FRA16B was unusually large, confirming instability that may be linked to pregnancy loss.
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