young boy running through water

A collaborative study, under the auspices of Melbourne Genomics Health Alliance, published this week has found that genomic testing for patients with suspected genetic kidney disease leads to more definitive diagnosis and has a substantial, quantifiable impact on care.

Lead authors Dr Kushani Jayasinghe and A/Prof Catherine Quinlan investigated the impact of genomic testing for patients with suspected genetic kidney disease over a two-year period (2017-2019).

Of the 204 adults and children tested in the study, 80 received a diagnosis (39%). Genomic testing also had profound implications for care, with 59% of those diagnosed experiencing a change in medical management, including other planned testing no longer being required.

“One of the most important benefits of genomic testing for kidney disease is avoiding unnecessary and invasive diagnostic investigations like renal biopsy,” commented Dr Kushani Jayasinghe.

“Genomic testing requires only a blood sample, whereas biopsies are much more invasive and carry considerable risks and cost, particularly for children. In our study, a planned renal biopsy was no longer needed for 10 patients who received a genomic diagnosis.”

Other changes to patient care included alterations in medical monitoring (44%) and treatment plans (20%), as well as other specific actions such as bringing forward kidney transplantation and informing family planning (9%).

Even in cases where there was no change for the patient tested, genomic results often influenced the care of family members. ‘Cascade’ genetic testing (looking for the specific gene change driving disease) was offered to family members of one in every two diagnosed patients (40/80), and half of those families saw changes in care initiated for family members (23/80).

“This interdisciplinary study really demonstrates the real-life impact that genomics can have for Australian families with renal disease” said A/ Professor Zornitza Stark, clinical geneticist at the Victorian Clinical Genetics Services.

Genetic kidney disease affects about 3% of the Australian population. One in seven adult Australians have chronic kidney disease and up to 20% of this may be genetic in origin. Although there is no cure, early identification and proactive treatment may slow the progression of genetic kidney disease and delay the need for dialysis and kidney transplantation.

The genetic kidney disease study, published in Genetics in Medicine, was a multidisciplinary collaboration between The Royal Children’s Hospital, Monash Health, The Royal Melbourne Hospital, Murdoch Children’s Research Institute, Victorian Clinical Genetics Services and Austin Health, under the auspices of Melbourne Genomics Health Alliance, funded by the State Government of Victoria.

Original article: Melbourne Genomics Health Alliance