New test can rapidly detect thousands of rare genetic diseases: Revolutionary to families

A groundbreaking blood test promises to transform the diagnosis of rare genetic diseases in babies and children, offering results in under three days and potentially eliminating the need for invasive procedures.Unveiled at the European Society of Human Genetics conference, the test requires only 1ml of blood, making it minimally invasive compared to procedures like muscle biopsies, which often necessitate general anesthesia in young patients.While rare diseases are, the name suggests, uncommon — there are over 7,000 rare diseases affecting an estimated 300 million people globally.Many of these people will remain undiagnosed for their entire lives due to inconclusive testing — others have to wait years or even decades to receive accurate results.
By incorporating samples from both parents — a method known as trio analysis — this game-changing test can distinguish between carriers and affected parties with greater accuracy and speed.“The ability to use so little blood from infants and to produce robust results with a rapid turnaround time has been revolutionary to families,” co-author Dr Daniella Hock, a senior postdoctoral researcher at the University of Melbourne, Australia, said in a press release.
“Moreover, the use of familial samples for trio analysis greatly improves the differentiation between carrier and affected individuals with higher confidence, and that has exceeded our initial expectations.We believe that the use of this test in clinical practice will bring considerable benefits to patients, their families and to healthcare systems by reducing the diagnostic time.”Beyond providing swift diagnoses, the test offers families access to appropriate treatments, prognoses and reproductive options to prevent the recurrence of disease in future pregnancies.
For healthcare systems, this single analysis could replace a battery of targeted tests, leading to reduced costs and earlier interventions.“Non-invasive agnostic approaches such as genome ...