BACKGROUND: Because fragile X syndrome (FXS) is prevalent, it has become the subject of newborn and high-risk screening efforts. International screening, however, can be financially and logistically prohibitive, particularly in countries where resources may be scarce. Recently, we have developed a screening test on blood spot that can detect expanded alleles from the normal through the full mutation range in both males and females. It is accurate, rapid, inexpensive, and applicable on blood spots and therefore ideal for international screening. The use of this blood spot screening technique was piloted in "a high-risk screening" study of individuals in Guatemala. METHODS: One hundred and five blood spots from subjects from Guatemala were screened for the Fragile X Mental Retardation 1 mutation. They were classified as "high-risk" through placement into one of the following five categories: (a) relatives of someone with a previous FXS diagnosis, (b) individuals with confirmed autism, (c) individuals with confirmed intellectual disability, (d) individuals with Parkinson's-like presentation, and (e) individuals with a family history of intellectual disability but no confirmed cases of FXS. RESULTS: Fifteen of the individuals tested yielded an expanded allele, 10 premutations and 5 full mutations. All 15 expansions were found in individuals with a relative with a confirmed FXS diagnosis. No expansions were found in the other clinical groups. CONCLUSIONS: Blood spot polymerase chain reaction screening is an effective, cost-efficient method to conduct cascade testing in families with a known history of FXS, even in small screening cohorts.
BACKGROUND: Because fragile X syndrome (FXS) is prevalent, it has become the subject of newborn and high-risk screening efforts. International screening, however, can be financially and logistically prohibitive, particularly in countries where resources may be scarce. Recently, we have developed a screening test on blood spot that can detect expanded alleles from the normal through the full mutation range in both males and females. It is accurate, rapid, inexpensive, and applicable on blood spots and therefore ideal for international screening. The use of this blood spot screening technique was piloted in "a high-risk screening" study of individuals in Guatemala. METHODS: One hundred and five blood spots from subjects from Guatemala were screened for the Fragile X Mental Retardation 1 mutation. They were classified as "high-risk" through placement into one of the following five categories: (a) relatives of someone with a previous FXS diagnosis, (b) individuals with confirmed autism, (c) individuals with confirmed intellectual disability, (d) individuals with Parkinson's-like presentation, and (e) individuals with a family history of intellectual disability but no confirmed cases of FXS. RESULTS: Fifteen of the individuals tested yielded an expanded allele, 10 premutations and 5 full mutations. All 15 expansions were found in individuals with a relative with a confirmed FXS diagnosis. No expansions were found in the other clinical groups. CONCLUSIONS: Blood spot polymerase chain reaction screening is an effective, cost-efficient method to conduct cascade testing in families with a known history of FXS, even in small screening cohorts.
Authors: H Toledano-Alhadef; L Basel-Vanagaite; N Magal; B Davidov; S Ehrlich; V Drasinover; E Taub; G J Halpern; N Ginott; M Shohat Journal: Am J Hum Genet Date: 2001-07-06 Impact factor: 11.025
Authors: Y H Fu; D P Kuhl; A Pizzuti; M Pieretti; J S Sutcliffe; S Richards; A J Verkerk; J J Holden; R G Fenwick; S T Warren Journal: Cell Date: 1991-12-20 Impact factor: 41.582
Authors: Dana C Crawford; Kellen L Meadows; James L Newman; Lisa F Taft; Elizabeth Scott; Mary Leslie; Lisa Shubek; Patricia Holmgreen; Marshalyn Yeargin-Allsopp; Coleen Boyle; Stephanie L Sherman Journal: Am J Med Genet Date: 2002-07-01
Authors: Tri Indah Winarni; Agustini Utari; Farmaditya E P Mundhofir; Tzuhan Tong; Blythe Durbin-Johnson; Sultana M H Faradz; Flora Tassone Journal: Genet Test Mol Biomarkers Date: 2011-10-11
Authors: Carolyn M Yrigollen; Stefan Sweha; Blythe Durbin-Johnson; Lili Zhou; Elizabeth Berry-Kravis; Isabel Fernandez-Carvajal; Sultana Mh Faradz; Khaled Amiri; Huda Shaheen; Roberta Polli; Luis Murillo-Bonilla; Gabriel de Jesus Silva Arevalo; Patricia Cogram; Alessandra Murgia; Flora Tassone Journal: Intractable Rare Dis Res Date: 2014-11
Authors: Tatyana Adayev; Giuseppe LaFauci; Weimin Xu; Carl Dobkin; Richard Kascsak; W Ted Brown; Jeffrey H Goodman Journal: Genes (Basel) Date: 2021-09-26 Impact factor: 4.096