PURPOSE: To estimate CFTR mutation frequencies, clinical sensitivities (proportions of carrier couples or affected fetuses detected), and birth prevalence estimates for broad racial/ethnic groups and for a panethnic U.S. population. METHODS: Published sources of information were identified, corrected when appropriate, and summarized. Combining racial/ethnic-specific mutation frequencies and birth prevalence estimates allowed the computation of panethnic estimates. RESULTS: Two of the 25 recommended mutations do not meet the 0.1% threshold in a panethnic population set by the American College of Medical Genetics. The clinical sensitivities are estimated to be 71.9%, 51.7%, 41.6%, 88.6%, and 23.4% for non-Hispanic Caucasians, Hispanic Caucasian, African American, Ashkenazi Jewish Caucasian, and Asian American couples, respectively. Birth prevalence estimates are 1:2,500, 1:13,500, 1:15,100, 1:2,270, and 1:35,100, whereas the number of couples needed to screen to detect an affected fetus are about 3,200, 26,120; 36,040; 2,600, and 129,600, respectively, for the same racial/ethnic groups. CONCLUSIONS: Overall, the panethnic estimates for CFTR mutation frequencies are similar to those for non-Hispanic Caucasians. However, large differences in both clinical sensitivity and birth prevalence exist between the broad racial/ethnic groups examined. Whether and how the differences in the numbers of couples needed to screen to detect an affected fetus are to be included in prenatal screening for cystic fibrosis needs to be more explicitly addressed.
PURPOSE: To estimate CFTR mutation frequencies, clinical sensitivities (proportions of carrier couples or affected fetuses detected), and birth prevalence estimates for broad racial/ethnic groups and for a panethnic U.S. population. METHODS: Published sources of information were identified, corrected when appropriate, and summarized. Combining racial/ethnic-specific mutation frequencies and birth prevalence estimates allowed the computation of panethnic estimates. RESULTS: Two of the 25 recommended mutations do not meet the 0.1% threshold in a panethnic population set by the American College of Medical Genetics. The clinical sensitivities are estimated to be 71.9%, 51.7%, 41.6%, 88.6%, and 23.4% for non-Hispanic Caucasians, Hispanic Caucasian, African American, Ashkenazi Jewish Caucasian, and Asian American couples, respectively. Birth prevalence estimates are 1:2,500, 1:13,500, 1:15,100, 1:2,270, and 1:35,100, whereas the number of couples needed to screen to detect an affected fetus are about 3,200, 26,120; 36,040; 2,600, and 129,600, respectively, for the same racial/ethnic groups. CONCLUSIONS: Overall, the panethnic estimates for CFTR mutation frequencies are similar to those for non-Hispanic Caucasians. However, large differences in both clinical sensitivity and birth prevalence exist between the broad racial/ethnic groups examined. Whether and how the differences in the numbers of couples needed to screen to detect an affected fetus are to be included in prenatal screening for cystic fibrosis needs to be more explicitly addressed.
Authors: Iris Schrijver; Sudha Ramalingam; Ramalingam Sankaran; Steve Swanson; Charles L M Dunlop; Steven Keiles; Richard B Moss; John Oehlert; Phyllis Gardner; E Robert Wassman; Anja Kammesheidt Journal: J Mol Diagn Date: 2005-05 Impact factor: 5.568
Authors: Katelyn Parker-McGill; Melodee Nugent; Rachel Bersie; Gary Hoffman; Michael Rock; Mei Baker; Philip M Farrell; Pippa Simpson; Hara Levy Journal: Pediatr Pulmonol Date: 2015-08-10
Authors: Ahmad N Abou Tayoun; Christopher D Tunkey; Trevor J Pugh; Tristen Ross; Minita Shah; Clarence C Lee; Timothy T Harkins; Wendy A Wells; Laura J Tafe; Christopher I Amos; Gregory J Tsongalis Journal: Clin Chem Date: 2013-06-17 Impact factor: 8.327
Authors: Andrew M Zeiger; Meghan E McGarry; Angel C Y Mak; Vivian Medina; Sandra Salazar; Celeste Eng; Amy K Liu; Sam S Oh; Thomas J Nuckton; Deepti Jain; Thomas W Blackwell; Hyun Min Kang; Goncalo Abecasis; Leandra Cordero Oñate; Max A Seibold; Esteban G Burchard; Jose Rodriguez-Santana Journal: Pediatr Pulmonol Date: 2019-10-30