Co-development of a genetic care pathway for ALS: real-world perspectives from the North of England
摘要
Amyotrophic lateral sclerosis (ALS) is a rare, progressive neurodegenerative disorder, with a substantial proportion of cases attributed to genetic factors. Recent advances in gene discovery and genomic technologies have transformed ALS care by enabling genomic testing to inform prognosis, assess familial risk, and facilitate access to novel therapies. However, guidance on the delivery of genetic testing and counselling in ALS remains limited, leading to variability in clinical practice. In response, the Manchester Motor Neuron Disease (MND) Care Centre and the Manchester Centre for Genomic Medicine co-developed a structured genetic care pathway for ALS, drawing on real-world data, patient engagement, and multidisciplinary collaboration.
ResultsA retrospective evaluation of 326 ALS patients at the Manchester MND Care Centre identified significant variability in genetic testing uptake, counselling practices, and record-keeping. Patient survey and engagement sessions revealed uncertainty regarding key genetic concepts and inconsistent recall of pre- and post-test discussions. Priorities for improvement included clearer communication, standardised discussions, and enhanced support for families following genetic findings. Consequently, the Greater Manchester ALS Genetic Testing Pathway was developed by a multidisciplinary team, incorporating consensus-based steps for patient identification, pre-test conversations, consent, testing, results disclosure, and post-test support. This pathway integrates genetic testing into routine ALS care, clarifies team responsibilities, and establishes a framework for ongoing evaluation using key performance indicators. Patient and staff feedback is used to support continuous improvement.
ConclusionsThe co-developed ALS genetic testing pathway provides a scalable model for standardising genomic care in mainstream clinical settings. By establishing clear processes for genetics discussions, consent, and follow-up, the pathway seeks to improve equity, transparency, and person-centred care. Ongoing evaluation and collaboration with patients, clinicians, and genetic services are essential to ensure the pathway remains responsive to scientific advances and evolving patient needs. Wider adoption of structured genetic pathways may facilitate the integration of genomics into care for rare diseases across healthcare systems.