Changing stroke rehab and research worldwide now.Time is Brain! trillions and trillions of neurons that DIE each day because there are NO effective hyperacute therapies besides tPA(only 12% effective). I have 523 posts on hyperacute therapy, enough for researchers to spend decades proving them out. These are my personal ideas and blog on stroke rehabilitation and stroke research. Do not attempt any of these without checking with your medical provider. Unless you join me in agitating, when you need these therapies they won't be there.

What this blog is for:

My blog is not to help survivors recover, it is to have the 10 million yearly stroke survivors light fires underneath their doctors, stroke hospitals and stroke researchers to get stroke solved. 100% recovery. The stroke medical world is completely failing at that goal, they don't even have it as a goal. Shortly after getting out of the hospital and getting NO information on the process or protocols of stroke rehabilitation and recovery I started searching on the internet and found that no other survivor received useful information. This is an attempt to cover all stroke rehabilitation information that should be readily available to survivors so they can talk with informed knowledge to their medical staff. It lays out what needs to be done to get stroke survivors closer to 100% recovery. It's quite disgusting that this information is not available from every stroke association and doctors group.

Friday, May 29, 2015

Device to restore balance for stroke victims is getting on its feet

Which balance intervention would be the best for stroke survivors? Which ones is your hospital evaluating? Do you even have a stroke protocol to recover balance?

1.  First study on the effects of unstable shoes with curved soles on trunk muscles and lumbar lordosis 

2. Feasibility of Delivering a Dance Intervention for SubAcute Stroke in a Rehabilitation Hospital Setting 

3.  Easy exercises to improve stability and prevent falls

4.  Simple, everyday activities can strengthen balance

5.  Longitudinal Analysis of Balance Confidence in Individuals With Stroke Using a Multilevel Model for Change

6.  Clinical Correlates of Between-Limb Synchronization of Standing Balance Control and Falls During Inpatient Stroke Rehabilitation

7.  New framework for rehabilitation – fusion of cognitive and physical rehabilitation: the hope for dancing

8.  Post-stroke balance rehabilitation under multi-level electrotherapy: a conceptual review

9.  Non-physical practice improves task performance in an unstable, perturbed environment: motor imagery and observational balance training

10.  Walking on ice takes more than brains - Salk scientists discover how a "mini-brain" in the spinal cord aids in balance

11.  Iranian robot helping restore balance in stroke patients

12.  Protocol for a randomized controlled clinical trial investigating the effectiveness of Fast muscle Activation and Stepping Training (FAST) for improving balance and mobility in sub-acute stroke

13.  Sailing as Stroke Rehabilitation Strategy

14.  Shoes that bounce - KANGOO aerobics

15.  Chase your stroke recovery by drinking

 16.  Using the Wii Fit as a tool for balance assessment and neurorehabilitation: the first half decade of "Wii-search"

17.  Lifestyle-integrated Functional Exercise - Reducing falls and improving function

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 And the latest here:

Device to restore balance for stroke victims is getting on its feet

About 800,000 Americans suffer from a stroke each year. This is an increase from years past due to the ever-aging demographics of America. Not only are there more strokes each year, strokes are now more survivable than before thanks to advances in technology and medicine. Each year, the population of stroke survivors increases, creating a growing and underserved market.

Strokes are notorious for causing long-term disability including forms of paralysis, memory loss and constipation. Post stroke, about 90 percent of patients require a form of rehab; many of these rehab methods are now being deemed “inadequate” for fully rehabilitating a patient.

Traditional methods of rehabilitation revolve around what is known as gait therapy. Gait therapy is the rehabilitation of a patient’s walking ability post-injury or disability. One of the go-to pieces of equipment for gait therapy has been the treadmill, but treadmills lack the dynamic ability to rehab a patient’s sense of balance so that they may correctly walk. In order for a stroke patient’s balance to be rehabbed, the neuromuscular pathways need to train.

KIINCE (pronounced KEAN-say) is a start-up company developing equipment specifically to rehabilitate a person’s sense of balance. The ideas and patented technology of KIINCE have advanced to the final round of the Wisconsin Governor’s Business Plan Contest, which will conclude June 2-3 at the Wisconsin Entrepreneurs’ Conference in Madison.

Patrick Walters, one of the company’s co-founders and CEO, has worked with Dr. Kreg Gruben on the project. Gruben is a UW-Madison neuro-mechanics researcher and is the chief scientist and primary founder of KIINCE. Gruben is also an engineer and inventor who has invested decades of research into KIINCE’s technology.

“There’s a sizeable market that needs attention and current products aren’t fulfilling their promise, but Dr. Gruben’s technology can do so,” Walter said.

KIINCE’s technology is based on Gruben’s research on neuromuscular pathways and balance. Rather than develop a piece of rehab equipment that focuses on the motion of walking, Gruben’s “KIINCE Machine” emphasizes rebuilding neuro-pathways to repair a patient’s sense of balance.

“Think about spinning around in a circle and being able to quickly orient yourself; it means you have a healthy neuromuscular pathway,” Walters said. “If you’ve had a stroke or traumatic brain injury, (KIINCE) now has the ability to retrain these pathways in your brain.”

The device is an all-in-one system consisting of hardware, the instrumented foot- plates, sensors, and patient monitor as well as software (the feedback loop) that drives the foot-plate motion and guides the patients walking pattern, Walters explained.

The KIINCE Machine is undergoing the early stages of clinical trials at several rehabilitation centers in Wisconsin but looks to expand into others soon.

“The KIINCE device fits the portfolio for healthcare investment groups,” Walters said and “the medical devices of KIINCE appear attractive to investors.”

According to Walters, KIINCE also has three more minimally viable product agreements pending with three more clinics. Within the clinics the KIINCE machines would see large scale use, helping the company to further grow.

KIINCE’s growth aims to affect not only the well-being of stroke patients but Madison’s economy. Walters estimates that within three to five years KIINCE could generate up to 40 jobs in the Madison area.

“These would be high-paying jobs and not the usual salary position jobs,” Walters stated. “These are the type of jobs that would make a positive impact on the local economy.” However, in order to reach that level of job growth, Walters said the key is reaching the market of underserved stroke patients.

“We will be able to reach these people when we’ve acquired our funding and reached our critical milestones,” he said.

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