OBJECTIVES: This study aims to expand our knowledge of the general population frequency of two mutations, C282Y and H63D, identified in the candidate gene for hereditary haemochromatosis, and to determine whether the testing can be performed using routinely obtained cheek-brush (buccal) samples. SETTING: Banked buccal lysate samples, randomised and coded for anonymity, from a cohort of couples who underwent prenatal cystic fibrosis screening in Maine. METHODS: A multiplex ARMS test was performed on buccal cell lysates to identify the two mutations. RESULTS: Genotype frequencies found among the 1001 subjects studied (502 women, 499 men) were: seven C282Y homozygotes, 22 C282Y/H63D compound heterozygotes, 97 C282Y heterozygotes, 17 H63D homozygotes, 246 H63D heterozygotes, and 612 individuals with no detectable mutation. The allele frequencies for C282Y and H63D were 0.066 and 0.151, respectively. CONCLUSIONS: Observed genotype frequencies in Maine are consistent with expectations and with consensus data from five smaller studies. Combined mutational analysis data indicate that homozygosity for C282Y (the genotype found in about 85% of subjects with diagnosed hereditary haemochromatosis) occurs in 51 per 10,000 white subjects of northern European heritage; the corresponding total hereditary haemochromatosis prevalence of about 60 per 10,000 is consistent with previous estimates. The study also confirms that H63D would not be useful in general population screening for hereditary haemochromatosis.
OBJECTIVES: This study aims to expand our knowledge of the general population frequency of two mutations, C282Y and H63D, identified in the candidate gene for hereditary haemochromatosis, and to determine whether the testing can be performed using routinely obtained cheek-brush (buccal) samples. SETTING: Banked buccal lysate samples, randomised and coded for anonymity, from a cohort of couples who underwent prenatal cystic fibrosis screening in Maine. METHODS: A multiplex ARMS test was performed on buccal cell lysates to identify the two mutations. RESULTS: Genotype frequencies found among the 1001 subjects studied (502 women, 499 men) were: seven C282Y homozygotes, 22 C282Y/H63D compound heterozygotes, 97 C282Y heterozygotes, 17 H63D homozygotes, 246 H63D heterozygotes, and 612 individuals with no detectable mutation. The allele frequencies for C282Y and H63D were 0.066 and 0.151, respectively. CONCLUSIONS: Observed genotype frequencies in Maine are consistent with expectations and with consensus data from five smaller studies. Combined mutational analysis data indicate that homozygosity for C282Y (the genotype found in about 85% of subjects with diagnosed hereditary haemochromatosis) occurs in 51 per 10,000 white subjects of northern European heritage; the corresponding total hereditary haemochromatosis prevalence of about 60 per 10,000 is consistent with previous estimates. The study also confirms that H63D would not be useful in general population screening for hereditary haemochromatosis.
Authors: Frauke Becker; Carla G van El; Dolores Ibarreta; Eleni Zika; Stuart Hogarth; Pascal Borry; Anne Cambon-Thomsen; Jean Jacques Cassiman; Gerry Evers-Kiebooms; Shirley Hodgson; A Cécile J W Janssens; Helena Kaariainen; Michael Krawczak; Ulf Kristoffersson; Jan Lubinski; Christine Patch; Victor B Penchaszadeh; Andrew Read; Wolf Rogowski; Jorge Sequeiros; Lisbeth Tranebjaerg; Irene M van Langen; Helen Wallace; Ron Zimmern; Jörg Schmidtke; Martina C Cornel Journal: Eur J Hum Genet Date: 2011-04 Impact factor: 4.246
Authors: Irene Pichler; Fabiola Del Greco M; Martin Gögele; Christina M Lill; Lars Bertram; Chuong B Do; Nicholas Eriksson; Tatiana Foroud; Richard H Myers; Michael Nalls; Margaux F Keller; Beben Benyamin; John B Whitfield; Peter P Pramstaller; Andrew A Hicks; John R Thompson; Cosetta Minelli Journal: PLoS Med Date: 2013-06-04 Impact factor: 11.069