top of page

The Future of Healthtech RESHAPED 2024

4-5 December 2024
Online Event

Two day virtual conference on the Future of Healthtech RESHAPED!


This is a curated programme highlighting some of the most innovative developments from around the world on the following fields:


#BrainComputerInterfaces

#RemotePatientMonitoring

#ContinuousVitalSignsMonitoring

#Hearables

#Implantables

#SmartHealthTextiles

#Wearables

#NeuroModulation

#ArtificialIntelligence

#Wearable adaptive tech (sight, mobility, hearing, etc.)

#IntelligentPatches

#DigitalTherapeutics

#VoiceAsBiomarker

#ImageAsBiomarker


The conference brings together some of the most exciting global organisations who will present on their latest technology breakthroughs and advances.   If you are interested in presenting please email khasha@TechBlick.com



12pm - 7pm

Berlin Time

Gradient_edited_edited.jpg
Leading global speakers include:
Born GmbH
Singular Hearing Inc.
InfoBionic
MedWand
Iodine Software
World Institute on Disability
AMES BV
Caregiver Smart Solutions
Valencell
LogicMark
Linxens Group
MindMics
blueBriX
Jeeva Clinical Trials
AgeTech Collaborative™ from AARP
Présage
identifyHer
University of Pittsburgh
SENS.AI
University of Oxford
electronRx
Naqi Logix Inc.
Prensilia
knownwell

Full Agenda

The times below is Europe Berlin time

TechBlick-favicon.png
4 Dec 2024

AMES BV

Objective remote monitoring of shortness-of-breath in COPD patients

Wednesday

2:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Rob Hagmeijer

Associate professor.
Founder,
CEO

Talk Demo

For COPD-patients, adequate remote monitoring is key to predict and prevent so-called exacerbations (flare-ups of symptoms) which may lead to harmful and costly hospitalisations, and can be avoided by intervention with corticosteroids and/or antibiotics. The problem is huge: in Europe and the US there are approximately 53 million people suffering from COPD corresponding to 66B€ of annual healthcare costs. Shortness-of-breath, the primary assessment signal for COPD patients, is today hardly and poorly monitored: it is either graded visually by a doctor, or graded by the patient itself on a scale of 0-10. We solve the underlying long standing problem: the absence of a device to objectively, frequently, and remotely measure the respiration pattern of a patient. Our technology is based on measuring the pressure-variations in the nose of a patient during two minutes of normal breathing twice a day by means of a standard nasal cannula, and converting these pressure data into medically recognised flow-volume curves. Two clinical studies in 3 hospitals in the Netherlands indicate that exacerbations can be detected or predicted in time. This can have a large impact on the healthcare system.

Objective remote monitoring of shortness-of-breath in COPD patients

2:00 PM

For COPD-patients, adequate remote monitoring is key to predict and prevent so-called exacerbations (flare-ups of symptoms) which may lead to harmful and costly hospitalisations, and can be avoided by intervention with corticosteroids and/or antibiotics. The problem is huge: in Europe and the US there are approximately 53 million people suffering from COPD corresponding to 66B€ of annual healthcare costs. Shortness-of-breath, the primary assessment signal for COPD patients, is today hardly and poorly monitored: it is either graded visually by a doctor, or graded by the patient itself on a scale of 0-10. We solve the underlying long standing problem: the absence of a device to objectively, frequently, and remotely measure the respiration pattern of a patient. Our technology is based on measuring the pressure-variations in the nose of a patient during two minutes of normal breathing twice a day by means of a standard nasal cannula, and converting these pressure data into medically recognised flow-volume curves. Two clinical studies in 3 hospitals in the Netherlands indicate that exacerbations can be detected or predicted in time. This can have a large impact on the healthcare system.

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

Linxens Group

Combining technologies for innovative medical wearables.

Wednesday

2:20PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Alix Joseph

Global Sales & Marketing Director Healthcare

Talk Demo

Medical wearables are revolutionizing healthcare by empowering patients with continuous health monitoring and data collection. To provide quality data, these devices require technical advancements, exploring how integrated biosensors capture real-time physiological data from biomarkers non-invasively.There are various types of medical wearables, from smartwatches tracking activity to vital sign monitoring. Combining different technologies of biosensors, skin adhesives and communication tool open the capabilities of personalized medicine and preventive care. We will address the technical challenges surrounding medical wearables, providing a glimpse into the future of this rapidly evolving field.

Combining technologies for innovative medical wearables.

2:20PM

Medical wearables are revolutionizing healthcare by empowering patients with continuous health monitoring and data collection. To provide quality data, these devices require technical advancements, exploring how integrated biosensors capture real-time physiological data from biomarkers non-invasively.There are various types of medical wearables, from smartwatches tracking activity to vital sign monitoring. Combining different technologies of biosensors, skin adhesives and communication tool open the capabilities of personalized medicine and preventive care. We will address the technical challenges surrounding medical wearables, providing a glimpse into the future of this rapidly evolving field.

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

Valencell

Remote Patient Monitoring

Wednesday

2:40 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Steven LeBoeuf

President & Co-Founder

Talk Demo

Photoplethysmography (PPG), now ubiquitous within wearables of all form-factors, has become the workhorse of biometric wearable sensor technology. Once limited to the resting use case of fingertip pulse oximetry in hospitals and clinics, contemporary innovations have liberated PPG technology for use in a diversity of form-factors (earbuds, wrist devices, armbands, smart rings, patches, eye-wear, etc.) and a diversity of free-living use cases, spanning from exercise monitoring in sports and fitness to continuous medical monitoring in telehealth. Moreover, the artificial intelligence (AI) revolution has positioned PPG at the heart of sensor fusion applications, where numerous miniaturized, orthogonal sensors contribute towards advanced biometric monitoring solutions. While many technical challenges confronting the scalability of PPG in wearables have been addressed over the past decade, many still remain. Limitations associated with PPG motion artifacts have become so stubbornly endemic that many manufacturers have simply “thrown-in the towel” in making meaningful improvements, thereby precluding important new use cases. Additionally, PPG has faced challenges in enabling accurate medical monitoring across a broad diversity of patients having a broad diversity of physical characteristics, such as differences in skin tone and vascular health. Fortunately, through a combination of thoughtful use case planning, modern technical innovations, and comprehensive clinical experimental design, these challenges can be overcome. Ultimately, PPG of the future will provide data that is more accurate (for all form-factors and activities), more available (for all use cases), and more generalizable (for a broad diversity of patient populations), enabling medical use cases that improve patient health, make life easier for medical professionals, and reduce lifetime healthcare costs for healthcare payors.

Remote Patient Monitoring

2:40 PM

Photoplethysmography (PPG), now ubiquitous within wearables of all form-factors, has become the workhorse of biometric wearable sensor technology. Once limited to the resting use case of fingertip pulse oximetry in hospitals and clinics, contemporary innovations have liberated PPG technology for use in a diversity of form-factors (earbuds, wrist devices, armbands, smart rings, patches, eye-wear, etc.) and a diversity of free-living use cases, spanning from exercise monitoring in sports and fitness to continuous medical monitoring in telehealth. Moreover, the artificial intelligence (AI) revolution has positioned PPG at the heart of sensor fusion applications, where numerous miniaturized, orthogonal sensors contribute towards advanced biometric monitoring solutions. While many technical challenges confronting the scalability of PPG in wearables have been addressed over the past decade, many still remain. Limitations associated with PPG motion artifacts have become so stubbornly endemic that many manufacturers have simply “thrown-in the towel” in making meaningful improvements, thereby precluding important new use cases. Additionally, PPG has faced challenges in enabling accurate medical monitoring across a broad diversity of patients having a broad diversity of physical characteristics, such as differences in skin tone and vascular health. Fortunately, through a combination of thoughtful use case planning, modern technical innovations, and comprehensive clinical experimental design, these challenges can be overcome. Ultimately, PPG of the future will provide data that is more accurate (for all form-factors and activities), more available (for all use cases), and more generalizable (for a broad diversity of patient populations), enabling medical use cases that improve patient health, make life easier for medical professionals, and reduce lifetime healthcare costs for healthcare payors.

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

MindMics

The Evolution of In-ear Infrasonic Biometrics: Shaping the Future of Personalized Health Monitoring

Wednesday

3:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Anna Barnacka

CEO

Talk Demo

The integration of advanced biometric technologies into health monitoring has the potential to revolutionize how we approach personalized healthcare. This presentation will explore the emerging field of in-ear infrasonic biometrics, focusing on its applications in continuous and non-invasive health monitoring. By harnessing the power of infrasonic sound waves, we can obtain deep physiological insights that were previously unattainable with conventional methods.This talk will delve into the science behind in-ear infrasonic sensing, its advantages over traditional optical sensors, and its role in the future of health monitoring. As we move towards a more connected and health-conscious society, the ability to monitor critical health parameters in real-time, with minimal intrusion, will be key to unlocking new levels of preventive care and personalized treatment.

The Evolution of In-ear Infrasonic Biometrics: Shaping the Future of Personalized Health Monitoring

3:00 PM

The integration of advanced biometric technologies into health monitoring has the potential to revolutionize how we approach personalized healthcare. This presentation will explore the emerging field of in-ear infrasonic biometrics, focusing on its applications in continuous and non-invasive health monitoring. By harnessing the power of infrasonic sound waves, we can obtain deep physiological insights that were previously unattainable with conventional methods.This talk will delve into the science behind in-ear infrasonic sensing, its advantages over traditional optical sensors, and its role in the future of health monitoring. As we move towards a more connected and health-conscious society, the ability to monitor critical health parameters in real-time, with minimal intrusion, will be key to unlocking new levels of preventive care and personalized treatment.

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

Refreshment Break

Refreshment Break

Wednesday

3:20 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Talk Demo

Refreshment Break

3:20 PM

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

electronRx

The power of digital biomarkers to revolutionize
chronic care

Wednesday

4:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Bipin Patel

CEO & Founder

Talk Demo

The power of digital biomarkers to revolutionize
chronic care

4:00 PM

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

identifyHer

Machine learning for objective symptom detection

Wednesday

4:20 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Donal O'Gorman

Cofounder

Talk Demo

The use of machine learning to transform raw vital sign sensor data into objective health-related symptoms represents an important advancement for remote patient monitoring. This is especially valuable in women’s health which has traditionally been underserved by healthcare systems. Women’s health needs exist throughout the lifespan and many are not disease-related. Menopause is a life transition experienced by every woman and in the 5-10 years before menopause, known as perimenopause, women experience a broad range of symptoms that negatively impact their quality of life, health, and work productivity. Critically, untreated, these symptoms also place women at a increased risk of chronic disease post-menopause. There is no objective way to diagnose perimenopause and clinicians have to validate self-reported symptoms from women in the clinic. This leads to an underdiagnosis of perimenopause, leading women to require unnecessary visits to clinicians and for hospital procedures, while suffering unnecessarily with symptoms. The objective detection of perimenopausal symptoms is an ideal application of machine learning, based on vital sign sensor data. This approach can utilise the features from different sensors to develop specific algorithms for individual symptoms, rather than just relying on physiological responses, for example heart rate; thereby differentiating between perimenopausal symptoms and other daily events such as exercise. Predictive accuracy is crucial in managing perimenopausal symptoms and machine learning algorithms are capable of continuous learning, meaning they can adapt and improve over time as they process more data. The objective detection of perimenopausal symptoms will lead to earlier diagnosis, better and personalised management, a reduction in the number of hospital-based procedures and, most importantly, empower women with information about their symptoms that will allow them to live healthier and more productive lives, for longer.

Machine learning for objective symptom detection

4:20 PM

The use of machine learning to transform raw vital sign sensor data into objective health-related symptoms represents an important advancement for remote patient monitoring. This is especially valuable in women’s health which has traditionally been underserved by healthcare systems. Women’s health needs exist throughout the lifespan and many are not disease-related. Menopause is a life transition experienced by every woman and in the 5-10 years before menopause, known as perimenopause, women experience a broad range of symptoms that negatively impact their quality of life, health, and work productivity. Critically, untreated, these symptoms also place women at a increased risk of chronic disease post-menopause. There is no objective way to diagnose perimenopause and clinicians have to validate self-reported symptoms from women in the clinic. This leads to an underdiagnosis of perimenopause, leading women to require unnecessary visits to clinicians and for hospital procedures, while suffering unnecessarily with symptoms. The objective detection of perimenopausal symptoms is an ideal application of machine learning, based on vital sign sensor data. This approach can utilise the features from different sensors to develop specific algorithms for individual symptoms, rather than just relying on physiological responses, for example heart rate; thereby differentiating between perimenopausal symptoms and other daily events such as exercise. Predictive accuracy is crucial in managing perimenopausal symptoms and machine learning algorithms are capable of continuous learning, meaning they can adapt and improve over time as they process more data. The objective detection of perimenopausal symptoms will lead to earlier diagnosis, better and personalised management, a reduction in the number of hospital-based procedures and, most importantly, empower women with information about their symptoms that will allow them to live healthier and more productive lives, for longer.

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

knownwell

The impact of AI on weight loss programs*

Wednesday

4:40 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Alexander Singh

Head of Analytics

Talk Demo

The impact of AI on weight loss programs*

4:40 PM

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

Singular Hearing Inc.

How AI is reshaping hearing assistance

Wednesday

5:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Bruce Sharpe

CEO & Founder

Talk Demo

Hearing loss affects over 1.5 billion people globally, with an annual economic impact exceeding $980 billion. While medical treatments remain limited, technological solutions have evolved dramatically from the early days of ear horns to today's sophisticated devices. This talk explores how artificial intelligence (AI) is reshaping the future of hearing assistance, promising to revolutionize hearing healthcare for millions. We'll briefly survey the state of hearing technology before AI and how AI is driving the next transformative leap in this field. We'll define AI in the context of hearing assistance, contrast it with traditional approaches, and showcase its diverse applications—from automatic scene analysis and live captioning to advanced noise removal and speech enhancement. Looking ahead, we will examine the future directions of AI-driven hearing technologies and what is being worked on today. Join us to discover how AI is poised to transform hearing healthcare, reduce the global burden of hearing loss, and potentially serve as a model for AI integration across various healthtech domains.

How AI is reshaping hearing assistance

5:00 PM

Hearing loss affects over 1.5 billion people globally, with an annual economic impact exceeding $980 billion. While medical treatments remain limited, technological solutions have evolved dramatically from the early days of ear horns to today's sophisticated devices. This talk explores how artificial intelligence (AI) is reshaping the future of hearing assistance, promising to revolutionize hearing healthcare for millions. We'll briefly survey the state of hearing technology before AI and how AI is driving the next transformative leap in this field. We'll define AI in the context of hearing assistance, contrast it with traditional approaches, and showcase its diverse applications—from automatic scene analysis and live captioning to advanced noise removal and speech enhancement. Looking ahead, we will examine the future directions of AI-driven hearing technologies and what is being worked on today. Join us to discover how AI is poised to transform hearing healthcare, reduce the global burden of hearing loss, and potentially serve as a model for AI integration across various healthtech domains.

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

Refreshment Break

Refreshment Break

Wednesday

5:20 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Talk Demo

Refreshment Break

5:20 PM

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

University of Oxford

Quantifying neurological disorders using wearables and Machine Learning.

Wednesday

6:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Chrystalina Antoniades

Professor

Talk Demo

For this talk I will go through neurological disorders such as Parkinson’s disease and describe some of the ways we have been using to understand them.The OxQUIP (Oxford QUantification In Parkinsonism) study has been recruiting patients with Parkinson's Disease and Progressive Supranuclear Palsy. Currently available treatments for these diseases are symptomatic only, and do not have any preventive or disease-slowing effect. As new drugs are developed, we need to be able to evaluate them quickly, so that precious time and resources can be devoted to those showing most promise. In our work we use various types of wearables to quantify such abnormalities present in these disorders coupled with classical machine learning techniques.

Quantifying neurological disorders using wearables and Machine Learning.

6:00 PM

For this talk I will go through neurological disorders such as Parkinson’s disease and describe some of the ways we have been using to understand them.The OxQUIP (Oxford QUantification In Parkinsonism) study has been recruiting patients with Parkinson's Disease and Progressive Supranuclear Palsy. Currently available treatments for these diseases are symptomatic only, and do not have any preventive or disease-slowing effect. As new drugs are developed, we need to be able to evaluate them quickly, so that precious time and resources can be devoted to those showing most promise. In our work we use various types of wearables to quantify such abnormalities present in these disorders coupled with classical machine learning techniques.

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

Naqi Logix Inc.

Revolutionizing Device Control: Neural Earbuds as a Game-Changing Alternative to Brain Implants

Wednesday

6:20 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

David Segal

Talk Demo

As the conversation around brain implants heats up, we introduce a groundbreaking alternative: neural earbuds. In this presentation, we will reveal how these cutting-edge, non-invasive devices can seamlessly control computers, wheelchairs, and video games—offering unparalleled safety, comfort, and ease of use. By harnessing the power of facial microgestures, neural earbuds can rival the performance of the most advanced brain implants, particularly for individuals with limited but functional head mobility. Attendees will gain a comprehensive understanding of neural earbuds' capabilities, comparing them against traditional brain implants, and witness their potential to transform voice-free, touch-free, and screen-free interaction. This raises a critical question for the tech and medical industries: “Should people with upper-body mobility but without severe neurodegenerative conditions be recommended brain implants before exploring safer, non-invasive options like neural earbuds?” Join us to explore the future of neural interfaces, where innovation meets accessibility.

Revolutionizing Device Control: Neural Earbuds as a Game-Changing Alternative to Brain Implants

6:20 PM

As the conversation around brain implants heats up, we introduce a groundbreaking alternative: neural earbuds. In this presentation, we will reveal how these cutting-edge, non-invasive devices can seamlessly control computers, wheelchairs, and video games—offering unparalleled safety, comfort, and ease of use. By harnessing the power of facial microgestures, neural earbuds can rival the performance of the most advanced brain implants, particularly for individuals with limited but functional head mobility. Attendees will gain a comprehensive understanding of neural earbuds' capabilities, comparing them against traditional brain implants, and witness their potential to transform voice-free, touch-free, and screen-free interaction. This raises a critical question for the tech and medical industries: “Should people with upper-body mobility but without severe neurodegenerative conditions be recommended brain implants before exploring safer, non-invasive options like neural earbuds?” Join us to explore the future of neural interfaces, where innovation meets accessibility.

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

SENS.AI

Brain feedback*

Wednesday

6:40 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Paola Telfer

CEO & Founder

Talk Demo

Brain feedback*

6:40 PM

Watch Demo Video
TechBlick-favicon.png
4 Dec 2024

Jeeva Clinical Trials

Demystifying the role of AI in Clinical Trials: Hype, Myth, or Real

Wednesday

7:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Harsha Rajasimha

Founder & CEO

Talk Demo

AI has become a catch all word for everything from ChatGPT, large language models, machine learning, and neural networks, to routine data analysis or robotic process automation. The clinical trials industry has been evolving over the years with the adoption of electronic data capture, decentralized clinical trials, site less clinical trials, and remote patient monitoring, In this presentation, we explore the evolving landscape of artificial intelligence in clinical research. We will examine how AI technologies are currently applied across various stages of clinical trials, from patient recruitment to data analysis and beyond. The presentation aims to separate the realistic impacts from the overhyped expectations, providing a balanced view of AI's capabilities and limitations. By analyzing real-world case studies and empirical data, attendees will gain insights into how AI can truly enhance clinical trial efficiency, accuracy, and outcomes, distinguishing between practical applications and common misconceptions in the field. Question is - who is well positioned to take advantage of AI in clinical research?

Demystifying the role of AI in Clinical Trials: Hype, Myth, or Real

7:00 PM

AI has become a catch all word for everything from ChatGPT, large language models, machine learning, and neural networks, to routine data analysis or robotic process automation. The clinical trials industry has been evolving over the years with the adoption of electronic data capture, decentralized clinical trials, site less clinical trials, and remote patient monitoring, In this presentation, we explore the evolving landscape of artificial intelligence in clinical research. We will examine how AI technologies are currently applied across various stages of clinical trials, from patient recruitment to data analysis and beyond. The presentation aims to separate the realistic impacts from the overhyped expectations, providing a balanced view of AI's capabilities and limitations. By analyzing real-world case studies and empirical data, attendees will gain insights into how AI can truly enhance clinical trial efficiency, accuracy, and outcomes, distinguishing between practical applications and common misconceptions in the field. Question is - who is well positioned to take advantage of AI in clinical research?

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

World Institute on Disability

Leadership and advocacy for the physically disabled*

Thursday

2:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Marcie Roth

Executive Director/CEO

Talk Demo

Leadership and advocacy for the physically disabled*

2:00 PM

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

University of Pittsburgh

Forging a New Future Participatory Action Design and Engineering Technologies with People with Disabilities

Thursday

2:20 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Rory Cooper

Vice Chancellor for Research

Talk Demo

The Human Engineering Research Laboratories (HERL), under the leadership of Dr. Cooper has been at the forefront of advancing participatory action design and engineering technologies for people with disabilities. HERL is dedicated to empowering individuals with disabilities through the development of cutting-edge assistive devices and accessible technologies. By engaging directly with end-users, the lab incorporates the lived experiences of people with disabilities into the design process, ensuring that the resulting innovations are not only functional but also responsive to their unique needs. Dr. Cooper’s pioneering efforts have significantly contributed to breakthroughs in areas such as wheelchair design, smart mobility devices, and robotics, improving quality of life and autonomy for individuals with disabilities. Dr. Cooper’s work emphasizes a collaborative approach, where engineers, designers, healthcare professionals, and people with disabilities work in tandem to co-create solutions. His focus on participatory action research fosters a user-centered methodology, ensuring that the technologies developed at HERL are inclusive, practical, and adaptable to a variety of settings. This approach, along with Dr. Cooper’s extensive research on accessible interfaces and autonomous systems, is paving the way for a more inclusive future where individuals with disabilities can actively participate in society with greater independence and dignity. Through these advancements, HERL and Dr. Cooper are helping to shape a future where accessibility and inclusion are fundamental aspects of technology development.

Forging a New Future Participatory Action Design and Engineering Technologies with People with Disabilities

2:20 PM

The Human Engineering Research Laboratories (HERL), under the leadership of Dr. Cooper has been at the forefront of advancing participatory action design and engineering technologies for people with disabilities. HERL is dedicated to empowering individuals with disabilities through the development of cutting-edge assistive devices and accessible technologies. By engaging directly with end-users, the lab incorporates the lived experiences of people with disabilities into the design process, ensuring that the resulting innovations are not only functional but also responsive to their unique needs. Dr. Cooper’s pioneering efforts have significantly contributed to breakthroughs in areas such as wheelchair design, smart mobility devices, and robotics, improving quality of life and autonomy for individuals with disabilities. Dr. Cooper’s work emphasizes a collaborative approach, where engineers, designers, healthcare professionals, and people with disabilities work in tandem to co-create solutions. His focus on participatory action research fosters a user-centered methodology, ensuring that the technologies developed at HERL are inclusive, practical, and adaptable to a variety of settings. This approach, along with Dr. Cooper’s extensive research on accessible interfaces and autonomous systems, is paving the way for a more inclusive future where individuals with disabilities can actively participate in society with greater independence and dignity. Through these advancements, HERL and Dr. Cooper are helping to shape a future where accessibility and inclusion are fundamental aspects of technology development.

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

Prensilia

The present and future for smart prosthetics*

Thursday

2:40 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Francesco Clemente

Managing Director

Talk Demo

The present and future for smart prosthetics*

2:40 PM

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

InfoBionic

Cardiac telemetry available all the time, everywhere*

Thursday

3:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Dave MacCutcheon

COO

Talk Demo

Cardiac telemetry available all the time, everywhere*

3:00 PM

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

Refreshment Break

Refreshment Break

Thursday

3:20 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Talk Demo

Refreshment Break

3:20 PM

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

Born GmbH

Development and manufacturing of e-textiles for stimulation & sensing*

Thursday

4:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Michael Schneider

CEO

Talk Demo

Development and manufacturing of e-textiles for stimulation & sensing*

4:00 PM

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

Iodine Software

Smart Medicine – Healthcare’s New Intelligence

Thursday

4:20 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Nick van Terheyden

Digital Health Leader, Principal

Talk Demo

This presentation will explore the transformative impact of machine learning and artificial intelligence in healthcare, examining the benefits and ethical challenges. We will explore some of the successes and enablements achieved by this technology together with the challenges of algorithmic biases that can lead to healthcare disparities, issues of transparency and data privacy, and instances of how the technology can have a negative impact on healthcare.

Smart Medicine – Healthcare’s New Intelligence

4:20 PM

This presentation will explore the transformative impact of machine learning and artificial intelligence in healthcare, examining the benefits and ethical challenges. We will explore some of the successes and enablements achieved by this technology together with the challenges of algorithmic biases that can lead to healthcare disparities, issues of transparency and data privacy, and instances of how the technology can have a negative impact on healthcare.

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

blueBriX

Enlisting AI for digital health without coding*

Thursday

4:40 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Shameem Hameed

Chairman & CEO, ZH Healthcare

Talk Demo

Enlisting AI for digital health without coding*

4:40 PM

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

MedWand

Big Bang Theory: The current state of the Universe of clinical-grade connected devices in Telehealth.

Thursday

5:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Robert Rose

Founder and Strategic Advisor

Talk Demo

Remote healthcare is currently in the "big bang" stage due to the rapid technological advancements that are reshaping traditional medical practices. This transformation is largely driven by the necessity to provide healthcare amidst a broad range of challenges, such as population growth, the prevalence of chronic diseases, massive clinician shortages, and strains on the healthcare system, all of which were exacerbated by the COVID-19 pandemic. As healthcare moves beyond the walls of hospitals and clinics, areas such as remote patient monitoring, remote patient examination, hospital-at-home models, and remote post-acute care are breaking new ground and creating a dynamic
landscape of options for remote healthcare provisioning. There is a universe of cool tech out there, and it’s mostly moving at light speed, but also mostly in different vectors. Significant challenges remain in weaving these elements into a cohesive healthcare delivery system. Interoperability of technologies is a primary hurdle; diverse systems used for remote monitoring and telemedicine often struggle to communicate seamlessly, which can lead to fragmented care and data silos. The future lies in overcoming the challenges of integration, standardization, and regulation to create a seamless, comprehensive healthcare system that leverages the full potential of remote service delivery for improved patient outcomes. While this may seem like a Quixotic pursuit, we will discuss some of the things that we can do today to take the management of remotely connected devices to the next level and have an immediate positive impact on both costs and outcomes.

Big Bang Theory: The current state of the Universe of clinical-grade connected devices in Telehealth.

5:00 PM

Remote healthcare is currently in the "big bang" stage due to the rapid technological advancements that are reshaping traditional medical practices. This transformation is largely driven by the necessity to provide healthcare amidst a broad range of challenges, such as population growth, the prevalence of chronic diseases, massive clinician shortages, and strains on the healthcare system, all of which were exacerbated by the COVID-19 pandemic. As healthcare moves beyond the walls of hospitals and clinics, areas such as remote patient monitoring, remote patient examination, hospital-at-home models, and remote post-acute care are breaking new ground and creating a dynamic
landscape of options for remote healthcare provisioning. There is a universe of cool tech out there, and it’s mostly moving at light speed, but also mostly in different vectors. Significant challenges remain in weaving these elements into a cohesive healthcare delivery system. Interoperability of technologies is a primary hurdle; diverse systems used for remote monitoring and telemedicine often struggle to communicate seamlessly, which can lead to fragmented care and data silos. The future lies in overcoming the challenges of integration, standardization, and regulation to create a seamless, comprehensive healthcare system that leverages the full potential of remote service delivery for improved patient outcomes. While this may seem like a Quixotic pursuit, we will discuss some of the things that we can do today to take the management of remotely connected devices to the next level and have an immediate positive impact on both costs and outcomes.

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

Refreshment Break

Refreshment Break

Thursday

5:20 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Talk Demo

Refreshment Break

5:20 PM

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

Présage

AI-Driven Home Healthcare for Early Detection and Management of Elderly Health Conditions

Thursday

6:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Jacques-Henri Veyron

CEO

Talk Demo

To improve the well-being of elderly individuals by offering early detection of health issues and hospitalization risks and better management of health conditions at home: to transform home healthcare through our AI-driven approach

AI-Driven Home Healthcare for Early Detection and Management of Elderly Health Conditions

6:00 PM

To improve the well-being of elderly individuals by offering early detection of health issues and hospitalization risks and better management of health conditions at home: to transform home healthcare through our AI-driven approach

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

Caregiver Smart Solutions

Care and comfort through in-home monitoring for aging-in-place*

Thursday

6:20 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Ryan Herd

Founder/CEO

Talk Demo

Care and comfort through in-home monitoring for aging-in-place*

6:20 PM

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

LogicMark

The present and future of alert devices for the elderly

Thursday

6:40 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Chia-Lin Simmons

CEO

Talk Demo

The United States is facing a “silver tsunami” as 90% of adults plan to age in place. The AARP’s National Alliance for Caregiving 2020 Report says that 53 million adults in the U.S. today are caregivers. In addition, the 2020 AARP Research Report Caregiving in the U.S. says that only 53 percent of caregivers report using “software or technological tools” to help them. “The “Golden Hour” is the period following a traumatic injury when patients have the highest likelihood of survival. Medical alert devices and advanced artificial intelligence technology ensure those in an emergency receive the critical help they need within this window of time. Technology for aging populations is behind the times, and filling this growing need for the ability to age-in-place is a major opportunity. I believe that technology providers can facilitate a better quality of life for aging adults and their caregivers by providing them with worry-free independence. By adapting the cutting-edge, connected artificial intelligence technology used by entertainment and retail platforms into the healthcare space, we can help provide seniors and their caregivers peace of mind. From managing medication, optimized and validated falls, memory care work and more, personal emergency response systems (PERS) and caring technology for the next decade needs to be intelligent, intuitive, and affordable. We must look at safety devices for the elderly to be not just be connected and optimized responsive technology products, but the future of safety devices is about predictive technology so that we prevent the falls that can occur. Join me as I share my personal caregiving story and give a forward-looking tour of up-and coming technologies for the care of our loved ones.

The present and future of alert devices for the elderly

6:40 PM

The United States is facing a “silver tsunami” as 90% of adults plan to age in place. The AARP’s National Alliance for Caregiving 2020 Report says that 53 million adults in the U.S. today are caregivers. In addition, the 2020 AARP Research Report Caregiving in the U.S. says that only 53 percent of caregivers report using “software or technological tools” to help them. “The “Golden Hour” is the period following a traumatic injury when patients have the highest likelihood of survival. Medical alert devices and advanced artificial intelligence technology ensure those in an emergency receive the critical help they need within this window of time. Technology for aging populations is behind the times, and filling this growing need for the ability to age-in-place is a major opportunity. I believe that technology providers can facilitate a better quality of life for aging adults and their caregivers by providing them with worry-free independence. By adapting the cutting-edge, connected artificial intelligence technology used by entertainment and retail platforms into the healthcare space, we can help provide seniors and their caregivers peace of mind. From managing medication, optimized and validated falls, memory care work and more, personal emergency response systems (PERS) and caring technology for the next decade needs to be intelligent, intuitive, and affordable. We must look at safety devices for the elderly to be not just be connected and optimized responsive technology products, but the future of safety devices is about predictive technology so that we prevent the falls that can occur. Join me as I share my personal caregiving story and give a forward-looking tour of up-and coming technologies for the care of our loved ones.

Watch Demo Video
TechBlick-favicon.png
5 Dec 2024

AgeTech Collaborative™ from AARP

TBC

Thursday

7:00 PM

joint-presentations.png

Read the abstract

TechBlick-favicon_edited.png

Sasha Spellman

Director

Talk Demo

TBC

7:00 PM

Watch Demo Video
bottom of page