TY - JOUR
T1 - Renal genetics in Australia
T2 - Kidney medicine in the genomic age
AU - Jayasinghe, Kushani
AU - Quinlan, Catherine
AU - Stark, Zornitza
AU - Patel, Chirag
AU - Mallawaarachchi, Amali
AU - Wardrop, Louise
AU - Kerr, Peter G.
AU - Trnka, Peter
AU - Mallett, Andrew J.
AU - on behalf of the KidGen Collaborative
PY - 2019/3/1
Y1 - 2019/3/1
N2 - There have been few new therapies for patients with chronic kidney disease in the last decade. However, the management of patients affected by genetic kidney disease is rapidly evolving. Inherited or genetic kidney disease affects around 10% of adults with end-stage kidney disease and up to 70% of children with early onset kidney disease. Advances in next-generation sequencing have enabled rapid and cost-effective sequencing of large amounts of DNA. Next-generation sequencing-based diagnostic tests now enable identification of a monogenic cause in around 20% of patients with early-onset chronic kidney disease. A definitive diagnosis through genomic testing may negate the need for prolonged diagnostic investigations and surveillance, facilitate reproductive planning and provide accurate counselling for at-risk relatives. Genomics has allowed the better understanding of disease pathogenesis, providing prognostic information and facilitating development of targeted treatments for patients with inherited or genetic kidney disease. Although genomic testing is becoming more readily available, there are many challenges to implementation in clinical practice. Multidisciplinary renal genetics clinics serve as a model of how some of these challenges may be overcome. Such clinics are already well established in most parts of Australia, with more to follow in future. With the rapid pace of new technology and gene discovery, collaboration between expert clinicians, laboratory and research scientists is of increasing importance to maximize benefits to patients and health-care systems.
AB - There have been few new therapies for patients with chronic kidney disease in the last decade. However, the management of patients affected by genetic kidney disease is rapidly evolving. Inherited or genetic kidney disease affects around 10% of adults with end-stage kidney disease and up to 70% of children with early onset kidney disease. Advances in next-generation sequencing have enabled rapid and cost-effective sequencing of large amounts of DNA. Next-generation sequencing-based diagnostic tests now enable identification of a monogenic cause in around 20% of patients with early-onset chronic kidney disease. A definitive diagnosis through genomic testing may negate the need for prolonged diagnostic investigations and surveillance, facilitate reproductive planning and provide accurate counselling for at-risk relatives. Genomics has allowed the better understanding of disease pathogenesis, providing prognostic information and facilitating development of targeted treatments for patients with inherited or genetic kidney disease. Although genomic testing is becoming more readily available, there are many challenges to implementation in clinical practice. Multidisciplinary renal genetics clinics serve as a model of how some of these challenges may be overcome. Such clinics are already well established in most parts of Australia, with more to follow in future. With the rapid pace of new technology and gene discovery, collaboration between expert clinicians, laboratory and research scientists is of increasing importance to maximize benefits to patients and health-care systems.
KW - genetic kidney disease
KW - genetic testing
KW - genomic testing
KW - inherited kidney disease
UR - http://www.scopus.com/inward/record.url?scp=85055286542&partnerID=8YFLogxK
U2 - 10.1111/nep.13494
DO - 10.1111/nep.13494
M3 - Review Article
C2 - 30239064
AN - SCOPUS:85055286542
SN - 1320-5358
VL - 24
SP - 279
EP - 286
JO - Nephrology
JF - Nephrology
IS - 3
ER -