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Electroceuticals: Drug-Like effects, Without the Drugs
2 2
SetPoint Medical
Therapies: Pain relief, immune system, hypertension, obesities, sleep disorders, cardiac rhythm, diabetes, management , epilepsies, depression, …..
Selective targets chronic diseases
Smart closed loop systems
Small minimally invasive
Many (US) spin-offs and initiatives
Setpoint Medical inflammatory diseases
https://setpointmedical.com/
“Reveal” Medtronic implantable heart monitor
https://setpointmedical.com/
“BION” Boston Scientific cluster headache, bladder control
Neuroloop closed loop blood pressure control
http://neuroloop.de/
Neurospace detects and corrects epileptic seizures
http://www.neuropace.com/
Maestro
EnteroMedics treat Obesitas
http://www.enteromedics.com/
2cm
Salvia BioElectronics cluster headaches
GSK and Google’s venture Galvani
The opportunity
ECSEL Consortium Building Event 2015. April 14+15 Brussels 5 5
Pharmaceuticals Electronic Materials,
Components and Systems
smart implants
• Miniaturization • Platforms
• Sensors • Systems
• Applications • Market access • medical know how
miniaturization / packaging
delivery control
SRC / NSF Bioelectronics Innitiative
SRC / NSF would like to link to a European Initiative !!
What is Organ-on-Chip?
Create the smallest functional modules of healthy or diseased tissues / organs ‘on a chip’ / microscope slide
using microfluidics, microelectronics and microfabrication
• Human stem cells from healthy individuals or patients (adult stem cells, organoids, iPSC)
• 3D culture interaction between different cell types, including immune cells, under controlled conditions
• Human genetics • Manipulation of the (patho)physio-logical
environment: biochemical + physical factors • Long term culture: time for disease to develop • Real time monitoring
Why Organ-on-Chip?
The problem: • Limited availability of human model systems for preclinical research. • Many drug failures/withdrawals due to unreliability of predicted
efficacy in humans + unanticipated toxicity
Need for:
1. human disease models (including immune response) for development of therapies - Drugs and physical therapies (e.g. hyperthermy/radiotherapy) - Novel drugs and off-label
2. human organ models for toxicity assessment and cosmetics
Animal models: not sufficiently representative for human disease and toxicity
Organ-on-Chip is more than micro-fluidics
• Integrated sensors / actuators
• (Micro-fluidic) Packaging
• Readout systems
Challenges
• Move to higher TRL levels
• High volume / low cost
• Convergence towards platforms
• High throughput screening
• Embedded electronics
Heart-on-chip device
• Validation
Package
Readout
High throughput
FDA endorses Organ-on-Chip
Dutch Organ-on-Chip institutes
Integrates: • (stem) Cell biology • microfabrication • Clinicians
www.hdmt.technology
Building a European Network and Roadmap
DMD Europe 2017
Electroceuticals
prof. Stieglitz prof. Lacour
prof. van den Berg Dr. van den Einden
Organ-on-Chip