Current Ripple Projects

BLINK PROSTHESIS

BLINK PROSTHESIS

Treating facial paralysis through functional electrical stimulation

Overview

We’re working to restore functional eye blink in patients with unilateral facial paralysis, by creating an implantable blink prosthesis that stimulates paralyzed eyelid muscles to close the eye.

Functional Details

Recording electrodes detect the timing of blink from the healthy eyelid, and then a signal is sent to turn on the stimulator to produce a bilaterally symmetric blink.

Future Outcomes

This innovation will provide a fundamental improvement in the treatment of facial paralysis. These improvements will apply to both the aesthetic and functional use of the paralyzed eyelid by preventing painful dry eye complications and facial disfiguration.

A prototype system has been developed; however, more testing is required before the device will be submitted to the FDA.

Funding

  • National Eye Institute
  • Concept to Company
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NEURAL/MYOELECTRIC IMPLANTS

NEURAL/MYOELECTRIC IMPLANTS

Restoring a sense of touch and improving control of prosthetic hands through implantable devices

Overview

We're developing implantable electronic devices to provide advanced control of prosthetic hands and to restore sensations such as touch and finger position.

Press Release:

SALT LAKE CITY, February 9, 2015 – Ripple, a medical device company in Salt Lake City, is developing implantable electronic devices to provide advanced control of prosthetic hands and to restore sensations such as touch and finger position.

As part of the Defense Advanced Research Projects Agency (DARPA)’s Hand Proprioception and Touch Interfaces (HAPTIX) program, Ripple is building a myoelectric implant to detect EMG signals for control of the prosthesis, and an implantable neural stimulator to activate peripheral nerves for restoration of natural sensation.

These devices are planned for use in clinical tests in collaboration with academic research universities.

To accomplish these goals Ripple was chosen by DARPA for a prime HAPTIX contract as a system integrator, as a subcontractor in support of the University of Pittsburgh and Case Western Reserve University, and awarded a Small Business Innovative Research (SBIR) grant.

Total project funding for Ripple in Phase I is $5.9 M with an option for subsequent funding to total $10.1 M. HAPTIX

Advanced prosthetic hands provide exquisite mechanical function, but fail to deliver on the promise of natural control. This is largely due to the absence of subtle sensory signals which provide the feedback necessary for graceful movement. The lack of sensory information from the robotic hand makes the prosthesis seem more like a foreign object than an extension of the body.

“A hand that cannot feel does not feel like a hand,” explains Dr. Daniel McDonnall, Director of Research at Ripple. Ripple’s myoelectric implant, known as the Myoelectric Implantable Recording Array (MIRA), comprises 32 electrodes that are implanted in an amputee’s forearm to detect EMG signals from residual muscles.

These electrodes connect to a central electronics package implanted subcutaneously which wirelessly sends signals to a receiver built into the prosthetic arm.

The technology was designed for high power coupling efficiency, demonstrated at 50% under nominal conditions. The 32-channel myoelectric implant provides high bandwidth telemetry at 10.2 Mb/s or greater, and is intended to provide simultaneous, multi-degree-of-freedom control of advanced prostheses. The MIRA has been under development for five years with ongoing support from the National Institutes of Health.

A second implantable system under development at Ripple, the Stimulating and Recording Array (SARA), comprises 64 electrodes which selectively stimulate sensory nerve fibers. As with the MIRA, the SARA electrodes connect to a subcutaneously implanted package which wirelessly receives commands and transmits recorded data. HAPTIX seeks to leverage recent advances in understanding the sensory neural code in order to restore naturalistic sensation.

Ripple will coordinate with researchers at the University of Utah, University of Pittsburgh, Case Western Reserve University, the Cleveland Clinic, and Nerves Inc. to conduct clinical trials evaluating performance of these systems in human subjects. Information gathered from these studies will provide support for Ripple’s submission to the Food and Drug Administration for clearance to provide this technology to patients across the nation.

“Our goal is to help people embody their prostheses as an extension of themselves, not only to reduce the challenge of the activities of daily living, but to restore a sense of self to these deserving patients,” says Dr. Daniel Merrill, Chief Clinical Scientist at Ripple.

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Events

Society for Neuroscience

11/11/2017 - 11/15/2017

SfN’s 47th annual meeting, Neuroscience 2017, is the world’s largest neuroscience conference for scientists and physicians devoted to understanding the brain and nervous system.

Venue: Walter E. Washington Convention Center
Location: Washington, D.C.

Myoelectric Controls Symposium

08/15/2017 - 08/18/2017

Since 1972, the Institute of Biomedical Engineering at the University of New Brunswick has been hosting the MEC Symposium in Fredericton, New Brunswick, Canada. Since 2002, the it has been held triennially. The Symposium is immediately preceded by various courses and workshops with world leading content for clinicians and researchers.

This Symposium incorporates all aspects of powered upper limb prosthetics. The success of this gathering is reflected in the level of international enrolment enjoyed in the past. Previous Symposia have brought together participants not only from North America and Europe but as far away as Australia, Hong Kong and Japan.

Venue: Delta Fredericton
Location: New Brunswick, Canada


International Neuromodulation Society 13th World Congress

05/27/2017 - 06/01/2017

The International Neuromodulation Society presents the world’s premier scientific congress on the full breadth of neuromodulation therapy. Begun in 1992, the international meeting now attracts more than 1,400 delegates.

Venue: Edinburgh International Conference Centre
Location: Edinburgh, Scotland

American Academy of Neurology

04/23/2017 - 04/26/2017

The AAN Annual Meeting is the world's largest gathering of neurologists, bringing together more than 10,000 neurology professionals across the globe to network, discuss cutting-edge research, and take part in top-rated education programming across a wide variety of topics. 

Venue: Boston Convention & Exhibition Center
Location: Boston, Massachusetts

Computational and Systems Neuroscience (Cosyne)

02/23/2017 - 02/26/2017

The annual Cosyne meeting provides an inclusive forum for the exchange of experimental and theoretical/computational approaches to problems in systems neuroscience.

Venue: Salt Lake City Marriott Hotel
Location: Salt Lake City, Utah

North American Neuromodulation Society

01/19/2017 - 01/22/2017

NANS is the premier meeting in the field of neuromodulation.

The science of neuromodulation now includes sophisticated materials, advanced communication technologies, restorative cognitive neuroscience, and brain-machine interface neuroprosthetics.

Venue: Caesars Palace
Location: Las Vegas, Nevada

Company Info

Our Experience

In contrast to typical electronics-focused firms, we have the requisite knowledge and experience in the medical device industry to transform new technology into FDA-approved medical products.

Our Process

We manage our own quality system for ISO 13485 and FDA QSR compliant engineering design, and cultivate a strong network of medical development relationships and resources in the Salt Lake region.

Further, we have close ties with the academic research community, and maintain a presence at scientific and neuroprosthetics conferences.

Consulting Services

We also offer contract design and consulting services for clients interested in converting prototype technology into medical products that meet safety standards and regulatory requirements for clinical use.

Ripple Group Photo

Ripple, 2016