Recommendations for validation testing of home pregnancy tests (HPTs) in Europe.

Home pregnancy tests (HPTs) available in Europe include accuracy and other performance claims listed on their packaging. Due to the lack of guidance on the standardisation of such products, it is often difficult to replicate these claims when tested on a clinical sample, whether in a laboratory setting or by lay users. The In Vitro Diagnostic Regulation is a set of requirements that mandate comprehensive validation data on human pregnancy tests and other in vitro devices. It is due to replace the current European Directive (98/79/EC) and fully implemented in Europe by 2022. In June 2019, a panel of seven experts convened to discuss the validation studies required to provide the information needed to meet the new regulation for HPTs in Europe and proposed 15 recommendations for best practice. Defining best practice at all stages of validation of these important tests may ensure that tests marketed in Europe are fit for purpose, enabling lay users to be confident of the high quality of the HPT results they obtain. The panelists believe that the recommendations proposed here for the validation of HPTs may constructively contribute to improved standardisation of validation procedures in Europe.

Instability of a premutation allele in homozygous patients with myotonic dystrophy type 1.

Myotonic dystrophy type 1 (DM1) is caused by the expansion of an unstable CTG repeat in the DMPK gene on chromosome 19q13.3. We present two siblings with DM1 who each inherited a premutation allele, (CTG)43, stably transmitted from the mother and a full-mutation allele, either (CTG)500 or (CTG)180, derived from a paternal protomutation allele, (CTG)52. Small-pool polymerase chain reaction analysis showed that the (CTG)52 repeat allele was relatively stable in somatic tissues but was highly unstable in the male germline and extremely biased toward further expansion, consistent with the high levels of anticipation observed in DM1 families. The (CTG)43 allele showed subtle somatic instability in the mother, with maximum additions of two repeats and deletions of one repeat. Conversely, in the younger affected siblings the (CTG)43 allele showed a high degree of somatic instability (approximately 70% mutation load), resulting in deletions reverting to the high end of the normal range (down to [CTG]33) and additions up to the proto-mutation range (up to [CTG]64). The difference in the somatic stability of the (CTG)43 allele between the mother and her offspring suggests that interallelic interactions or other mechanisms in trans regulate the stability of the (CTG)43 premutation allele.