DIYA - Digital Biomarkers Platform
DIYA is an emerging technology that utilizes vocal biomarkers for the diagnosis of various medical conditions including long COVID and related chronic conditions.
Science Behind Vocal Biomarkers
Vocal biomarkers are distinct voice patterns that can be used to detect physiological and psychological changes in an individual.
The human voice is a complex signal that contains a wealth of information about the speaker's health and emotional state. By analyzing the voice, researchers can detect changes in the speaker's physiology, such as inflammation, stress and hormonal imbalances.
Introducing DIYA
DIYA is our rapid COVID-19 screening platform, which makes both early and asymptomatic detection of Covid-19 patients convenient, effective and widely accessible – anywhere and anytime.
We have achieved 85% accuracy in tests conducted during its internal development and will soon launch large-scale, comprehensive, multi-centric clinical trials in Europe, the USA and other countries across the globe.
- Our platform ensures the highest standards of data privacy (GDPR compliant) and noise resistance. With new and emerging strains of COVID-19 – preceded by Alpha, Beta, Gamma, Delta – and the latest Omicron variant having wreaked havoc across the world, our technology DIYA is an important driver in the race to protect against and eradicate COVID-19 and its mutations.
- The user-friendly interface, easy accessibility, intelligent design, and high accuracy of this tool make it crucial in our fight to control the evolution and dissemination of future COVID mutations. It helps break the chain of infection and prevent the prolongation of the pandemic – which is the situation we currently face.
- Our AI-powered platform screens people for the risk and presence of COVID-19 by analyzing their voice samples.
- It does not need any additional information or prior knowledge about an individual's medical history and provides real-time results.
- This will enable healthcare systems to create a funnel through which testing resources and palliative care can be dedicated to those with a higher probability of COVID-19.
The use of vocal biomarkers has several advantages over traditional diagnostic methods.
It is non-invasive, cost-effective, and can be done remotely, making it ideal for monitoring patients in real-time. Additionally, vocal biomarkers can provide early detection of diseases, which can lead to better treatment outcomes and improved patient care.
DIYA is at the forefront of vocal biomarker technology, with a range of products that utilize this cutting-edge technology for healthcare applications.
With the use of machine learning and artificial intelligence, DIYA's products can provide accurate and reliable diagnosis of various medical conditions, including depression, Parkinson's disease and respiratory disorders.
Vocal biomarkers have the potential to revolutionize the way we approach healthcare.
One of the most significant benefits of vocal biomarkers is that they can detect changes in the body's physiology before symptoms appear. This means that patients can receive early intervention and treatment, leading to better patient outcomes and reduced healthcare costs.
Moreover, vocal biomarkers are non-invasive, meaning that patients do not have to undergo any uncomfortable or painful procedures. This makes it an ideal tool for patients who require regular monitoring, such as those with chronic conditions.
Another advantage of vocal biomarkers is that they can be used remotely. This is especially important for patients who live in remote or rural areas, who may not have easy access to medical facilities.
DIYA's cutting-edge technology is at the forefront of vocal biomarker research, with a range of products that are already being used in clinical settings.
These products utilize machine learning and AI algorithms to analyze voice patterns and provide accurate diagnoses.
Vocal biomarkers are a promising and exciting field of research that has the potential to revolutionize healthcare.
DIYA's technology is at the forefront of this field, providing clinicians with a powerful tool to diagnose and treat various medical conditions.
As this technology continues to evolve, we will likely see even more applications and benefits in the future, leading to better patient outcomes and a more efficient healthcare system.