TY - JOUR
T1 - Whole exome and genome sequencing in mendelian disorders
T2 - a diagnostic and health economic analysis
AU - Ewans, Lisa J.
AU - Minoche, Andre E.
AU - Schofield, Deborah
AU - Shrestha, Rupendra
AU - Puttick, Clare
AU - Zhu, Ying
AU - Drew, Alexander
AU - Gayevskiy, Velimir
AU - Elakis, George
AU - Walsh, Corrina
AU - Adès, Lesley C.
AU - Colley, Alison
AU - Ellaway, Carolyn
AU - Evans, Carey-Anne
AU - Freckmann, Mary-Louise
AU - Goodwin, Linda
AU - Hackett, Anna
AU - Kamien, Benjamin
AU - Kirk, Edwin P.
AU - Lipke, Michelle
AU - Mowat, David
AU - Palmer, Elizabeth
AU - Rajagopalan, Sulekha
AU - Ronan, Anne
AU - Sachdev, Rani
AU - Stevenson, William
AU - Turner, Anne
AU - Wilson, Meredith
AU - Worgan, Lisa
AU - Morel-Kopp, Marie-Christine
AU - Field, Michael
AU - Buckley, Michael F.
AU - Cowley, Mark J.
AU - Dinger, Marcel E.
AU - Roscioli, Tony
PY - 2022/10
Y1 - 2022/10
N2 - Whole genome sequencing (WGS) improves Mendelian disorder diagnosis over whole exome sequencing (WES); however, additional diagnostic yields and costs remain undefined. We investigated differences between diagnostic and cost outcomes of WGS and WES in a cohort with suspected Mendelian disorders. WGS was performed in 38 WES-negative families derived from a 64 family Mendelian cohort that previously underwent WES. For new WGS diagnoses, contemporary WES reanalysis determined whether variants were diagnosable by original WES or unique to WGS. Diagnostic rates were estimated for WES and WGS to simulate outcomes if both had been applied to the 64 families. Diagnostic costs were calculated for various genomic testing scenarios. WGS diagnosed 34% (13/38) of WES-negative families. However, contemporary WES reanalysis on average 2 years later would have diagnosed 18% (7/38 families) resulting in a WGS-specific diagnostic yield of 19% (6/31 remaining families). In WES-negative families, the incremental cost per additional diagnosis using WGS following WES reanalysis was AU$36,710 (£19,407;US$23,727) and WGS alone was AU$41,916 (£22,159;US$27,093) compared to WES-reanalysis. When we simulated the use of WGS alone as an initial genomic test, the incremental cost for each additional diagnosis was AU$29,708 (£15,705;US$19,201) whereas contemporary WES followed by WGS was AU$36,710 (£19,407;US$23,727) compared to contemporary WES. Our findings confirm that WGS is the optimal genomic test choice for maximal diagnosis in Mendelian disorders. However, accepting a small reduction in diagnostic yield, WES with subsequent reanalysis confers the lowest costs. Whether WES or WGS is utilised will depend on clinical scenario and local resourcing and availability.
AB - Whole genome sequencing (WGS) improves Mendelian disorder diagnosis over whole exome sequencing (WES); however, additional diagnostic yields and costs remain undefined. We investigated differences between diagnostic and cost outcomes of WGS and WES in a cohort with suspected Mendelian disorders. WGS was performed in 38 WES-negative families derived from a 64 family Mendelian cohort that previously underwent WES. For new WGS diagnoses, contemporary WES reanalysis determined whether variants were diagnosable by original WES or unique to WGS. Diagnostic rates were estimated for WES and WGS to simulate outcomes if both had been applied to the 64 families. Diagnostic costs were calculated for various genomic testing scenarios. WGS diagnosed 34% (13/38) of WES-negative families. However, contemporary WES reanalysis on average 2 years later would have diagnosed 18% (7/38 families) resulting in a WGS-specific diagnostic yield of 19% (6/31 remaining families). In WES-negative families, the incremental cost per additional diagnosis using WGS following WES reanalysis was AU$36,710 (£19,407;US$23,727) and WGS alone was AU$41,916 (£22,159;US$27,093) compared to WES-reanalysis. When we simulated the use of WGS alone as an initial genomic test, the incremental cost for each additional diagnosis was AU$29,708 (£15,705;US$19,201) whereas contemporary WES followed by WGS was AU$36,710 (£19,407;US$23,727) compared to contemporary WES. Our findings confirm that WGS is the optimal genomic test choice for maximal diagnosis in Mendelian disorders. However, accepting a small reduction in diagnostic yield, WES with subsequent reanalysis confers the lowest costs. Whether WES or WGS is utilised will depend on clinical scenario and local resourcing and availability.
UR - http://www.scopus.com/inward/record.url?scp=85135899131&partnerID=8YFLogxK
U2 - 10.1038/s41431-022-01162-2
DO - 10.1038/s41431-022-01162-2
M3 - Article
C2 - 35970915
AN - SCOPUS:85135899131
SN - 1018-4813
VL - 30
SP - 1121
EP - 1131
JO - European Journal of Human Genetics
JF - European Journal of Human Genetics
IS - 10
ER -