Early Detection of Parkinson’s – How stappone can Help
Early Detection of Parkinson’s – How stappone can Help
Digitalization is opening up new possibilities in medicine. Especially in movement analysis, smart wearables provide valuable data that can support doctors in diagnosis and therapy. This is exactly where stappone comes in: „With intelligent sensor insoles that record step and gait patterns, we can help to detect conditions such as Parkinson’s early and objectively!“, explains Peter Krimmer, CEO of stappone. Research from the University of Oxford by Professor Chrystalina Antoniades highlights just how important such technologies are.
Wearables Outperform Clinical Observation
Parkinson’s disease affects around 10 million people worldwide, leading to progressive impairments in movement, balance and coordination. Until now, physicians have relied on clinical observations and rating scales to track disease progression. But these methods have limitations: They are subjective, not finely calibrated and often miss subtle day-to-day changes.
A recent study led by Professor Chrystalina Antoniades at the University of Oxford demonstrated that wearable sensors can track changes in Parkinson’s more precisely. Using machine-learning algorithms, the team analyzed more than 100 movement parameters – from the direction of a toe during a step to the regularity of strides. This allowed them to detect disease progression reliably within just 15 months.
Professor Chrystalina Antoniades, Professor of Clinical Neuroscience and Director of Graduate Studies in Oxford, is convinced of stappone´s technology.
„stappone Insoles offer a smart Way in Therapy“
Professor Antoniades is very convinced of stappone´s technology in supporting Parkinson´s patients throughout therapy: “stappone insoles offer a smart way to follow patients in their daily lives. Because when using wearable technology, it´s vital and very important to stay realistic in our expectations and thoughtful in our approach.“
Why Objective Measurements Matter
This breakthrough is not a cure, but it is a powerful tool. For clinicians, it means being able to assess an individual patient’s progression more accurately. For researchers, it offers the ability to see earlier whether a new therapy is effective – saving both time and resources in drug development.
Professor Antoniades emphasizes that traditional rating scales can distort interpretation: Small differences in scores may delay the detection of changes. Wearable sensors, by contrast, provide objective, continuous data that closes this gap.
stappone: Step by Step Toward Earlier Detection
Parkinson’s often reveals itself early through changes in step length, gait regularity and balance. These are exactly the parameters that stappone insoles measure using integrated pressure and motion sensors. While the Oxford study relied on multiple sensors placed on different body parts, stappone provides this information directly from the shoe – practical for everyday use and without complex equipment.
Even the smallest changes in gait can thus be documented and detected in time. These real-world data complement clinical assessments and create the basis for more individualized, data-driven treatment.
A Partnership Between Technology and Medicine
Sensor-based analysis does not replace doctors – it strengthens their ability to make the right decisions. As Professor Antoniades explains, the goal is not to replace clinical practice but to improve diagnosis and monitoring. With solutions like the stappone sensor insoles, this vision can already be realized in daily life: Patients benefit from earlier detection and personalized therapy, clinicians gain access to precise progression data and researchers receive reliable metrics for new therapies.
Meaningful Data for the Future
Wearable sensors mark a turning point in Parkinson’s research. They make visible what was previously hidden – and open up new opportunities for precision in treatment. stappone sensor insoles ensure that every step provides valuable insights and helps improve the quality of life for people living with Parkinson’s disease.
