Personalized nutrition smart patch to reduce diabetes risk

IMAGE: A proof-of-concept Nutromics smart patch.
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Credit: Nutromics

A wearable smart patch will provide accuracy information to assist individuals customise their diet plans and reduce their risk of establishing lifestyle-related persistent illness like Type 2 diabetes.

The world-first customised nutrition wearable being established by Australian start-up Nutromics painlessly determines essential dietary biomarkers and sends out the info to an app, making it possible for users to specifically track how their bodies react to various foods.

The pioneering technology will be developed and produced in Australia.

A collective group led by Nutromics, RMIT University, Griffith University, and producer Romar Engineering, with assistance from the Innovative Manufacturing Cooperative Research Centre (IMCRC), is now investigating and establishing the needed production abilities to pilot produce the gadget.

Pre-diabetes is approximated to impact more than 350 million individuals internationally; in the United States and China alone, 1 in 2 grownups are pre-diabetic or diabetic.

Nutromics co-CEO Peter Vranes stated the smart patch leveraged emerging innovations to empower individuals to take higher control of their health.

“We’ve brought together a multi-disciplinary team of partners who are leaders in their fields to deliver Australian-made health technology that’s personalised and powerful,” Vranes stated.

“Research has actually revealed that what we consume impacts all of us in a different way; 2 individuals may have the exact same meal however their post-meal action can differ extremely.

“People desire to make healthy food options however with a lot clashing nutrition suggestions, a lot of us are puzzled about what that appears like.

“Being able to easily monitor key dietary biomarkers will give you the knowledge to personalise your diet to suit your own body, to get healthy and stay healthy.”

Diabetes is among the biggest persistent health challenges internationally. Without taking any action, up to 70% of individuals with pre-diabetes can go on to establish Type 2 diabetes within the next 4 years, however with early interventions and way of life modifications, the condition is mainly avoidable.

Integrated smart patch

Research Co-Director of RMIT’s Functional Materials and Microsystems Research Group, Professor Sharath Sriram, stated the smart patch integrated a complicated picking up platform and elastic electronic devices for enhanced conformity to skin.

The fabrication of sample collection will be led by Griffith University and Romar Engineering, with sensing unit combination and elastic electronic devices fabrication carried out at RMIT’s advanced Micro Nano Research Facility.

Sriram stated RMIT scientists would incorporate the innovations in a model smart patch that might be cost-efficiently produced by means of roll-to-roll (R2R) printing and was developed with the end-user at front of mind.

“This smart patch is a significant evolution in wearable health monitoring technology,” he stated.

“Current wearable innovations can track your heart rate and actions, however they can’t monitor your health at a molecular level.

“This new technology goes deeper, targeting the precise biomarkers that drive lifestyle-related diseases like Type 2 diabetes.”

Additive production obstacle

The IMCRC financing is making it possible for a $6.9 million overall task financial investment (money and in-kind) into attending to the obstacle of additive production and massive production of the smart spots.

David Chuter, CEO and Managing Director at the IMCRC, stated the task would construct Australia’s ability in medical innovations making and enhance the competitiveness, efficiency and sustainability of the sophisticated production sector.

“The manufacturing challenges addressed by this project will not only help deliver a low-cost, high-tech smart patch, but will also create technologies that are transferable to other Australian companies in the consumer and medical tech space,” Chuter stated.

Professor Nam-Trung Nguyen, who is Director of the Queensland Micro- and Nanotechnology Centre at Griffith University, stated the task was underpinned by the centre’s past and continuous basic research study in microfluidics and wearable, implantable microsystems.

“It is among the research study pillars at the Queensland Micro- and Nanotechnology Centre towards the commercialisation and translation of our discoveries for the advantage of end users,” he stated.

“The project will benefit significantly from the recent addition of a femto second laser machining system funded by the ARC.”

Alan Lipman, CEO of Romar Engineering, a recognized producer of medical gadgets, stated partnership was the method forward for Australian production.

“Working with entrepreneurs, academics and researchers to develop new medical technologies is essential to maintain Australia’s international competitiveness and to build a strong domestic manufacturing skills base.”

The gadget fabrication and production proficiency will be completed with ingenious health care organisation designs established at RMIT’s Health Transformation Lab with Professor Vishaal Kishore and Matiu Bush, and with user-centred health care style led RMIT’s Wearable Sensing Network Co-Chair Dr Leah Heiss.

The gadget might be adjusted in future for other kinds of molecular-level health tracking, consisting of tension management, sleep health, sports efficiency and early phase viral detection.


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