Once you learn these 7 life lessons from Nikola Tesla, you’ll live a much better life

He had to be one of the smartest persons in the world. 

 

Once you learn these 7 life lessons from Nikola Tesla, you’ll live a much better life

Protected from copying, use link. 

 

Compensation or Recovery? Altered Kinetics and Neuromuscular Synergies Following High-Intensity Stepping Training Poststroke

My conclusion on this is that lesser damaged individuals were chosen. I can't do high intensity stepping because of spasticity and I'm 12 years out. Bad research, not repeatable with any reliability because starting points were not objectively chosen.

Compensation or Recovery? Altered Kinetics and Neuromuscular Synergies Following High-Intensity Stepping Training Poststroke

Show all authors

Marzieh M. Ardestani, PhD, Catherine R. Kinnaird, MS, Christopher E. Henderson, PT, PhD, ...

First Published December 29, 2018 Research Article

https://doi.org/10.1177/1545968318817825

Article information

Abstract

Background. High-intensity, variable stepping training can improve walking speed in individuals poststroke, although neuromuscular strategies used to achieve faster speeds are unclear. We evaluated changes in joint kinetics and neuromuscular coordination following such training; movement strategies consistent with intact individuals were considered evidence of recovery and abnormal strategies indicative of compensation.  
Methods. A total of 15 individuals with stroke (duration: 23 ± 30 months) received ≤40 sessions of high-intensity stepping in variable contexts (tasks and environments). Lower-extremity kinetics and electromyographic (EMG) activity were collected prior to (BSL) and following (POST) training at peak treadmill speeds and speeds matched to peak BSL (MATCH). Primary measures included positive (concentric) joint and total limb powers, measures of interlimb (paretic/nonparetic powers) and intralimb compensation (hip/ankle or knee/ankle powers), and muscle synergies calculated using nonnegative matrix factorization.  
Results. Gains in most positive paretic and nonparetic joint powers were observed at higher speeds at POST, with decreased interlimb compensation and limited changes in intralimb compensation. There were very few differences in kinetic measures between BSL to MATCH conditions. However, the number of neuromuscular synergies increased significantly following training at both POST and MATCH conditions, indicating gains from training rather than altered speeds. Despite these results, speed improvements were associated primarily with changes in nonparetic versus paretic powers. Conclusion. Gains in locomotor function were accomplished by movement strategies consistent with both recovery and compensation. These and other data indicate that both strategies may be necessary to maximize walking function in patients poststroke.

A Single Session of Robot-Controlled Proprioceptive Training Modulates Functional Connectivity of Sensory Motor Networks and Improves Reaching Accuracy in Chronic Stroke

Where the fuck is the protocol for this? Useless without that, your doctor and stroke hospital will never be able to extrapolate this into useful rehab for you. These had to be persons with no spasticity, cherry picking of easy cases once again.

But SOMEONE ELSE WILL SOLVE THE PROBLEM.

It just won't be in time for your use.  Incompetence in action once again. Are they incompetent because they don't know about this or because they won't do anything with this knowledge? Your choice of incompetence still leaves survivors screwed.

A Single Session of Robot-Controlled Proprioceptive Training Modulates Functional Connectivity of Sensory Motor Networks and Improves Reaching Accuracy in Chronic Stroke 

Show all authors

Shahabeddin Vahdat, PhD, Mohammed Darainy, PhD, Alexander Thiel, MD, ...

First Published December 29, 2018 Research Article

https://doi.org/10.1177/1545968318818902

Article information

Abstract

Background. Passive robot-generated arm movements in conjunction with proprioceptive decision making and feedback modulate functional connectivity (FC) in sensory motor networks and improve sensorimotor adaptation in normal individuals. This proof-of-principle study investigates whether these effects can be observed in stroke patients.  
Methods. A total of 10 chronic stroke patients with a range of stable motor and sensory deficits (Fugl-Meyer Arm score [FMA] 0-65, Nottingham Sensory Assessment [NSA] 10-40) underwent resting-state functional magnetic resonance imaging before and after a single session of robot-controlled proprioceptive training with feedback. Changes in FC were identified in each patient using independent component analysis as well as a seed region–based approach. FC changes were related to impairment and changes in task performance were assessed.  
Results. A single training session improved average arm reaching accuracy in 6 and proprioception in 8 patients. Two networks showing training-associated FC change were identified. Network C1 was present in all patients and network C2 only in patients with FM scores >7. Relatively larger C1 volume in the ipsilesional hemisphere was associated with less impairment (r = 0.83 for NSA, r = 0.73 for FMA). This association was driven by specific regions in the contralesional hemisphere and their functional connections (supramarginal gyrus with FM scores r = 0.82, S1 with NSA scores r = 0.70, and cerebellum with NSA score r = −0.82).  
Conclusion. A single session of robot-controlled proprioceptive training with feedback improved movement accuracy and induced FC changes in sensory motor networks of chronic stroke patients. FC changes are related to functional impairment and comprise bilateral sensory and motor network nodes.

EFFECTS OF TAI CHI APPLIED STROKE REHABILITATION ON PHYSICAL AND COGNITIVE FUNCTIONING AND QUALITY OF LIFE

You mean these earlier writeups on Tai chi were not enough to prove it works for stroke rehab and to create a protocol? Why is followup needed? You didn't do your job correctly and create Tai chi protocols? So you have been incompetent since April 2013?

• tai chi (17 posts to April 2013)

 

EFFECTS OF TAI CHI APPLIED STROKE REHABILITATION ON PHYSICAL AND COGNITIVE FUNCTIONING AND QUALITY OF LIFE

R Song and S Ahn

Author information Copyright and License information Disclaimer

Abstract

Older stroke survivors decline their physical and psychological functioning in everyday life. Tai Chi is characterized by the integration and balance of mind and body using the fundamental principles of slow, smooth, and continuous movement control. The present randomized study aimed to apply the suggested principles to Tai Chi applied stroke rehabilitation for 6 months, and to evaluate the effects on physical and cognitive functioning, and quality of life. We recruited 34 stroke survivors (21 men and 13 women with the mean diagnosis 8.7 years) into a randomized controlled trial to compare the effectiveness of 6-month adaptive Tai Chi program with an active-control group who received a symptom management program. The primary outcome was postural stability(BBS) and physical functioning(FAC), with secondary outcomes assessing cognitive functioning(MOCA) and stroke-specific quality of life measured at baseline, 3 months, and 6 months. Repeated ANOVA indicated that stroke survivors who participated in 80% of Tai Chi applied rehabilitation showed improved physical functioning (F=6.776, p=.002), cognitive functioning (F=12.40, p<.000), and self-care quality of life (F=8.822, p=.001) based on interaction effects. Tai Chi applied stroke rehabilitation was well received by the participants, and no adverse events were reported during the study. The study findings showed that the adaptive form of Tai Chi could be useful for stroke survivors to improve their physical and cognitive functioning, that may consequently improve quality of life. Further studies are warranted to examine the long-term effect of Tai Chi applied stroke rehabilitation with larger sample to compensate the variance of outcomes.

The 9th International Nursing Conference 2018 37 “Nurses at The Forefront in Transforming Care, Science, and research” Effectiveness of Mirror Therapy Against Upper Limb Muscle Strength in Ischemic Stroke Patients With Hemiparesis: systematic revie w

Your conclusion is worthless without creating and distributing the protocol for this. 

Effectiveness of Mirror Therapy Against Upper Limb Muscle Strength in Ischemic Stroke Patients With Hemiparesis: systematic review

Authors

Yudisa Diaz Lutfi Sandi, Dedi Irawandi, Sandi Alfa, Muhammad Abd. Sayuti

Corresponding author

Yudisa Diaz Lutfi Sandi

DOI

https://doi.org/10.2991/inc-17.2017.6How to use a DOI?

Keywords

muscle strength, mirror therapy, ischemic stroke, hemiparesis.

Abstract

Stroke is clinical symptoms which disturbances in blood circulation to the brain caused either local or global malfunctioning that occurs suddenly and rapidly progressive that usually caused hemiparesis in stroke patients. Late and inappropriate exercises management may cause permanent disability. The range of motion exercises and early mobilization in stroke patients may reduce the risk of disability. The one of rehabilitation and intervention is muscle strength exercise by stimulating the nerves and improve the functional status of the motor/muscle strength by using mirror therapy. 

Method: These research based on the literature review (systematic review) of international journals, which is use quasi-experiment, one group pre-post test design. These research using purposive sampling with 24 respondents, while the research instruments using observation sheet those are muscle strength scale and visual imagery scale, the exercise guide sheets and mirror as media. The research analysis using univariate and bivariate analysis. A bivariate analysis using Wilcoxon test . 

Results: The results of these studies indicate that there is increasing in average muscle strength after mirror therapy exercises five times a day for 7 days evidenced by prior intervention the muscles strength mean of upper extremities is 2:12 (0.45) and the muscle strength mean of the lower extremities is 2:12 (0:45 ). After the intervention, the muscle strength mean of upper extremities became 3.83 (0.56) and the muscle strength mean of the lower extremities became 4.00 (0.66). Based on the results of bivariate analysis obtained the calculated value (4369) and significance levels (p) <0.05. 

Conclusion: The results of the journal's review can be concluded that there is significant differences are muscle strength before and after mirror therapy exercise in ischemic stroke patients with hemiparesis.

Copyright

© The authors. This article is distributed under the terms of the Creative Commons Attribution License 4.0, which permits non-commercial use, distribution and reproduction in any medium, provided the original work is properly cited. See for details: https://creativecommons.org/licenses/by-nc/4.0/

Open Access | Under Creative Commons license CC BY-NC 4.0

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Sativex Helps ALS, PLS Spasticity in Mid-Stage Trial

But does it work in stroke? Or will survivors have to test this out on their own? Because we have NO STROKE LEADERSHIP that actually will try to solve all the problems in stroke. Will your doctor have enough innovation to try this off-label for your spasticity? Or will incompetence reign again waiting for SOMEONE ELSE TO SOLVE THE PROBLEM?

 

 

Sativex Helps ALS, PLS Spasticity in Mid-Stage Trial

Pain scores improved, too

• by Judy George, Contributing Writer, MedPage Today December 14, 2018

An oromucosal spray containing cannabis extracts helped reduce spasticity in motor neuron disease patients, including those with amyotrophic lateral sclerosis (ALS), in the phase II CANALS trial in Italy.
Motor neuron disease patients taking first-line anti-spasticity drugs followed by nabiximols (Sativex), a cannabis derivative of equal parts delta-9 tetrahydrocannabinol (THC) and cannabidiol (CBD), showed significant improvements in scores on the Modified Ashworth Scale at 6 weeks, reported Giancarlo Comi, MD, of the San Raffaele Scientific Institute in Milan, and colleagues in The Lancet Neurology.
"There is no cure for motor neuron disease so improved symptom control and quality of life are important for patients," co-author Nilo Riva, MD, also of the San Raffaele Scientific Institute, said in a statement.
"Our proof-of-concept trial showed a beneficial effect of THC-CBD spray in people on treatment-resistant spasticity and pain," Riva added. "Despite these encouraging findings, we must first confirm that THC-CBD spray is effective and safe in larger, longer term phase III trials."
The CANALS (Cannabis Sativa Extract in Amyotrophic Lateral Sclerosis and other Motor Neuron Disease) study is the first randomized controlled trial of the safety and efficacy of a pharmacological treatment for motor neuron disease spasticity, as well as the first trial of nabiximols for it, the researchers noted.
Previously, nabiximols has been shown to help relieve spasticity in multiple sclerosis patients. Preclinical studies of transgenic mice also supported the hypothesis that cannabinoids could exert an anti-spastic effect in ALS.
In this double-blind trial, researchers studied 59 adults with ALS or primary lateral sclerosis (PLS) from four tertiary motor neuron disease centers in Italy in 2013 and 2014. Patients had possible, laboratory-supported probable, probable, or definite amyotrophic lateral sclerosis as defined by revised El Escorial criteria or primary lateral sclerosis according to Pringle's criteria, and experienced spasticity symptoms for at least 3 months before the trial. They also were on a stable dose of any anti-spasticity medication for 30 days before enrolling and throughout the study.
The investigators randomized patients to nabiximols mouth spray (n=29) or placebo (n=30) for 6 weeks. Each 100 µL actuation of nabiximols contained 2.7 mg THC and 2.5 mg CBD. Participants self-titrated during the first 14 treatment days to a maximum of 12 actuations per 24 hours, then maintained that dose for 4 weeks. After dose titration, the mean number of daily actuations was 8.03 in the nabiximols group and 11.2 in the placebo group (P<0.0001).
Physicians rated the spasticity of each participant's joints on the Modified Ashworth Scale at baseline and at 6 weeks. Patients also kept a daily symptom diary, recording spasticity levels, pain, spasm frequency, and sleep disruption.
At 6 weeks, Modified Ashworth Scale scores improved by a mean of 0.11 in the nabiximols group, but deteriorated by a mean of 0.16 in the placebo group (adjusted effect estimate –0.32, 95% CI –0.57 to –0.069; P=0.013.)
The number of patients treated with nabiximols who reported improvements (55%; 16/29 participants) was higher than placebo (13%; 4/30). Self-reported pain scores also improved (-0.97 vs -0.06) in the nabiximols group.
Nabiximols was well tolerated and adverse events were mild to moderate and typical of cannabinoids; nausea, dizziness, asthenia, and confusion were common. Twenty-one patients (72%) in the nabiximols group reported at least one potentially treatment-related adverse event, but there were no serious adverse events and no one permanently discontinued treatment.
While the results of this study are promising, the trial had several limitations, observed Marianne de Visser, MD, PhD, of the Amsterdam University Medical Centre in the Netherlands, in an accompanying editorial.
"First, there was a bias towards patients with exclusive or predominant involvement of upper motor neurons (n=16) in the nabiximols group, in whom spasticity is the prevailing symptom," de Visser wrote. "These patients could have benefited more than the 13 patients with classic amyotrophic lateral sclerosis, which involves both upper and lower motor neurons".
Riva and colleagues did not distinguish between upper and lower limb spasticity, or whether or not patients had bulbar spasticity, she noted; these patients may be differently affected by spasticity.
And while the Modified Ashworth Scale has been used in previous positive studies of the efficacy of other anti-spastic treatments, de Visser wrote, "as Riva and colleagues acknowledge, it lacked sensitivity in studies of the efficacy of cannabinoids in patients with multiple-sclerosis-related spasticity, and new spasticity numeric ratings or visual analogue scales are being adopted."
The trial had other limitations, the researchers noted. The study had a double-blind design, but the side effects of THC-CBD might have unmasked that. Other adverse effects may appear with long-term exposure. The sample size was too small and study duration too short to observe any potential neuroprotective effect of cannabinoids in slowing disease progression, as preclinical ALS studies have suggested, they added.

This study was funded by Fondazione Italiana di Ricerca per la Sclerosi Laterale Amiotrofica (AriSLA) and Fondazione Vialli e Mauro (CANALS Project). GW Pharma provided the study drug and placebo.
Researchers reported relationships with Abbvie, Biogen, Excemed, Merck Serono, Novartis, Teva, Genzyme, Almirall, Kedrion, CSL Behring, Baxter, Chugai, Roche, Sanofi-Aventis, and Receptos.
The editorialist declared no competing interests.

last updated 12.14.2018

• Primary Source

  The Lancet Neurology

  Source Reference: Riva N, et al "Safety and efficacy of nabiximols on spasticity symptoms in patients with motor neuron disease (CANALS): a multicentre, double-blind, randomised, placebo-controlled, phase 2 trial" The Lancet Neurology 2018; DOI:https://doi.org/10.1016/S1474-4422(18)30406-X.

• Secondary Source

  The Lancet Neurology

  Source Reference: de Visser M "Evidence for treatment of spasticity in motor neuron disease" The Lancet Neurology 2018; DOI:https://doi.org/10.1016/S1474-4422(18)30493-9.

BREAKING: FDA Approves New Parkinsons Drug Funded by MJFF

I see nothing from our fucking failures of stroke associations that suggests they are even working on anything that might solve all the problems in stroke. Do they not even have enough brains to contact MJFF and use their processes to solve stroke? 5 easy steps. 

1.  Describe the problem exactly. 
2.  Write an RFP to researchers to solve that problem.
3.  Fund them with foundation grants.
4.  Write stroke rehab protocols based on the research.
5.  Get the Nobel prize in medicine  

 

BREAKING: FDA Approves New PD Drug Funded by MJFF

On Friday, December 21, 2018, the U.S. Food and Drug Administration approved Inbrija, an inhaled levodopa powder, for the treatment of "off" episodes when Parkinson's symptoms are not well controlled with oral medication.

This highly anticipated news marks another significant milestone in The Michael J. Fox Foundation's (MJFF) short history. This is the first regulatory approval of a Parkinson's treatment directly funded by the Foundation.

MJFF's "de-risking" approach identifies, funds and keeps the most promising, high-risk, high-reward ideas in Parkinson's research moving forward. Read more about how we funded Inbrija in early stages of development, helping its maker drive the new treatment across the finish line and into patients' hands.

 

 

P.S. It's not too late to help MJFF speed the next breakthrough therapy from the laboratory to pharmacy shelves and Parkinson's patients. Your year-end gift today will be put to work right away to help fulfill the promise of tomorrow's new research and treatments.

Effects of Voluntary Physical Rehabilitation on Neurogenesis In SVZ And Functional Recovery After Ischemic Stroke

So the advisors to this dissertation candidate should followup with human research testing this out. That is the minimum a competent university department should be doing. 

Effects of Voluntary Physical Rehabilitation on Neurogenesis In SVZ And Functional Recovery After Ischemic Stroke

 

Author InfoBalakrishnan, Anuranjani

ORCID® Identifier

http://orcid.org/0000-0002-4407-5165

Social Media

Permalink:

http://rave.ohiolink.edu/etdc/view?acc_num=wright1537186443944433

---

Year and Degree

2018, Master of Science (MS), Wright State University, Microbiology and Immunology.

Abstract

Stroke is the leading cause of long-term disability and 87% of all strokes are due to ischemic strokes. In this current study, we examined whether voluntary physical rehabilitation can influence neurogenesis (measured by Doublecortin) in the subventricular zone and show improved motor functional recovery in 10-12 month female rats after ischemia. We saw a significant increase in the neurogenesis (measured by doublecortin) of all three regions (anterior, middle and posterior) of SVZ in the rehab animals compared to control group when using a two-way variance ANOVA test, although we were unable to see significant differences in paired t-tests of similar regions for control and rehab animals. The control animals showed a significant increase in contralateral functional recovery of 56% with rehab animals displaying a recovery of 23%. These findings suggest that the physical rehabilitation showed increased neurogenesis in the SVZ but did not translate to greater contralateral functional recovery.

Committee

Adrian M. Corbett, Ph.D. (Committee Chair)
Nancy J. Bigley, Ph.D. (Committee Member)
Debra Ann Mayes, Ph.D. (Committee Member)

Pages

88 p.

Subject Headings

Immunology; Neurobiology; Neurosciences; Physiology; Rehabilitation

Keywords

neurogenesis; doublecortin; rehabilitation; ischemic stroke; ipsilateral recovery; contralateral recovery; Montoya Staircase

Recommended Citations

APA Citation

MLA Citation

Chicago Citation

Files

Final thesis.pdf (2.31 MB) View|Download

Document number:

wright1537186443944433

Download Count:

12

Copyright Info© 2018, some rights reserved. Effects of Voluntary Physical Rehabilitation on Neurogenesis In SVZ And Functional Recovery After Ischemic Stroke by Anuranjani Balakrishnan is licensed under a Creative Commons Attribution-NonCommercial-NoDerivs 3.0 Unported License. Based on a work at etd.ohiolink.edu.
This open access ETD is published by Wright State University and OhioLINK.

Mediaplanet and NFL Star Tedy Bruschi Team Up in the Fight for Stroke Awareness

Totally the wrong focus. We need to focus on fixing all the problems in stroke. Awareness is needed that everything in stroke is a failure. 

 These minor problems still need solving. 

1. Only 10% of patients get to full recovery.
2. tPA only fully works to reverse the stroke 12% of the time. Known since 1996.
3. No protocols to prevent your 33% dementia chance post-stroke from an Australian study.
4. Nothing to alleviate your fatigue.
5. Nothing that will cure your spasticity.
6. Nothing on cognitive training unless you find this yourself.
7. No published stroke protocols.
8. No way to compare your stroke hospital results vs. other stroke hospitals.

 

Mediaplanet and NFL Star Tedy Bruschi Team Up in the Fight for Stroke Awareness

Mediaplanet’s Stroke campaign found within USA TODAY and online, helps shed light on the fifth-leading cause of death in the U.S.

Stroke is the fifth-leading cause of death in the U.S.

NEW YORK (PRWEB) December 27, 2018

Mediaplanet today announces the launch of this December’s edition of “Stroke Awareness.” This campaign will advocate for increased awareness of the signs, risk factors, and causes of stroke to decrease the likelihood of death or physical and cognitive impairments as a result of stroke, as well educating healthcare providers on the tools they need to best handle and improve care.

Stroke is the fifth-leading cause of death in the U.S. While many people have an idea of what a stroke is, many do not know the causes or symptoms to look out for and to accurately and effectively seek treatment. Not only does this event have debilitating effects on a person’s quality of life, but an individual is 30 percent more likely to suffer a second stroke after their first in their lifetime. However, there are steps that a person can take to lower their risk and many resources available for rehabilitation, prevention, and treatment.

The print component of “Stroke Awareness” is distributed within today’s edition of USA Today in New York, Boston, Los Angeles, DC/Baltimore, Philadelphia, Cleveland, Detroit, and the Carolinas with a circulation of approximately 250,000 copies and an estimated readership of 750,000. The digital component is distributed nationally, through a vast social media strategy, and across a network of top news sites and partner outlets. To explore the digital version of the campaign, visit: http://www.futureofpersonalhealth.com/topic/stroke-awareness

Former NFL star, stroke survivor, and activist Tedy Bruschi graces the cover of the print publication. Through an exclusive interview on the interior, Tedy reveals what his experience was like suffering from stroke and how he has taken his experience to raise awareness and provide support. “With that comes a mental struggle — not only being able to deal with it yourself, but also being able to speak about it and communicate about it, and say proudly, ‘Yes, I’m a stroke survivor,” says Bruschi. Since then, he has fought tirelessly to raise awareness of stroke. His contributions include establishing Tedy’s Team, in partnership with the American Heart Association, to raise funding and provide survivors with a support system. “It’s good to be with people that know what you’re going through — that’s what Tedy’s Team is all about,” he says. “It’s a support system and a family.”

Long gone are the days when a patient is unable to access premier healthcare do to geographical location or a hospital’s lack of expertise. When it comes to stroke treatment, having access to the right doctors and technology in a timely manner is imperative. Because of this, telemedicine is sweeping the nation. This technology allows for patients to access expert treatment providers through video and audio conferencing. SOC Telemed (SOC), the largest national provider of telemedicine, discusses the importance of this emerging technology and the promising advances it brings.

This campaign was made possible with the support of the Tedy Bruschi, Michael Johnson, American Stroke Association, American Heart Association, Cleveland Clinic, Dr. Jill Bolte Taylor, Brain Aneurysm Foundation, SOC Telemedicine, BioTel Heart, Ekso Bionics, American Association of Neuroscience Nurses, and American Academy of Health Care Administrators.

About Mediaplanet
Mediaplanet specializes in the creation of content marketing campaigns covering a variety of industries. We tell meaningful stories that educate our audience and position our clients as solution providers. Our unique ability to pair the right leaders with the right readers, through the right platforms, has made Mediaplanet a global content marketing powerhouse. Our award-winning stories have won the hearts of countless readers while serving as a valuable platform for brands and their missions. Just call us storytellers with a purpose. Please visit http://www.mediaplanet.com for more on who we are and what we do.

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sara.defelice@mediaplanet.com
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User-centered practicability analysis of two identification strategies in electrode arrays for FES induced hand motion in early stroke rehabilitation

Useless, nothing here tells about the efficacy and results of using FES. NO protocols referenced or created. 

User-centered practicability analysis of two identification strategies in electrode arrays for FES induced hand motion in early stroke rehabilitation

• Christina Salchow-HömmenEmail authorView ORCID ID profile,
• Natalie Jankowski,
• Markus Valtin,
• Laura Schönijahn,
• Sebastian Böttcher,
• Frank Dähne and
• Thomas Schauer

Journal of NeuroEngineering and Rehabilitation201815:123

https://doi.org/10.1186/s12984-018-0460-1

©  The Author(s) 2018

• Received: 27 April 2018
• Accepted: 12 November 2018
• Published: 29 December 2018

Abstract

Background

Surface electrode arrays have become popular in the application of functional electrical stimulation (FES) on the forearm. Arrays consist of multiple, small elements, which can be activated separately or in groups, forming virtual electrodes (VEs). As technology progress yields rising numbers of possible elements, an effective search strategy for suitable VEs in electrode arrays is of increasing importance. Current methods can be time-consuming, lack user integration, and miss an evaluation regarding clinical acceptance and practicability.

Methods

Two array identification procedures with different levels of user integration—a semi-automatic and a fully automatic approach—are evaluated. The semi-automatic method allows health professionals to continuously modify VEs via a touchscreen while the stimulation intensities are automatically controlled to maintain sufficient wrist extension. The automatic approach evaluates stimulation responses of various VEs for different intensities using a cost function and joint-angles recordings. Both procedures are compared in a clinical setup with five sub-acute stroke patients with moderate hand disabilities. The task was to find suitable VEs in two arrays with 59 elements in total to generate hand opening and closing for a grasp-and-release task. Practicability and acceptance by patients and health professionals were investigated using questionnaires and interviews.

Results

Both identification methods yield suitable VEs for hand opening and closing in patients who could tolerate the stimulation. However, the resulting VEs differed for both approaches. The average time for a complete search was 25% faster for the semi-automatic approach (semi-automatic: 7.3min, automatic: 10.5min). User acceptance was high for both methods, while no clear preference could be identified.

Conclusions

The semi-automatic approach should be preferred as the search strategy in arrays on the forearm. The observed faster search duration will further reduce when applying the system repeatedly on a patient as only small position adjustments for VEs are required. However, the setup time will significantly increase for generation of various grasp types and adaptation to different arm postures. We recommend different levels of user integration in FES systems such that the search strategy can be chosen based on the users’ preferences and application scenario.

How can we meet your needs as a young stroke survivor? The Florey Institute in Melbourne, Australia

Well, why does the question even need to be asked? 100% recovery. Asking the question means you have bought into the tyranny of low expectations for stroke recovery. Get your head out of the sand and solve ALL the problems in stroke, this just means you will try to cherry pick the easier problems to solve. 

How can we meet your needs as a young stroke survivor? The Florey Institute in Melbourne, Australia

• This questionnaire has been designed to collect information from young (aged 18-55) stroke survivors about their needs and how they would like their needs to be met. This information will help to guide the development of healthcare systems for young people with stroke.
• The questionnaire has three sections:
  

  1. Describe yourself
  2. Identify your stroke-related needs
  3. Tell us how you want your needs to be met
     

  You can complete as little or as much of this questionnaire as you wish. It should take 20 to 30 minutes to complete. You can complete this questionnaire with help from someone who knows you well.
• Participation in this research is voluntary. If you don’t wish to take part, you don’t have to. You can stop responding at any time and cancel your answers by exiting your browser. Please note that, once your answers are submitted on the final page of the survey, we cannot delete your information from our database because the survey is anonymous.
  Some of the questions in this questionnaire may be personal in nature. If there is anything in the questionnaire that causes you any distress, please discuss your concerns with someone you trust—perhaps a family member, friend, or your General Practitioner. You can also visit www.beyondblue.org.au or www.strokefoundation.org.au for further information and support.
  
  StrokeLine provides telephone advice about living with stroke and stroke support services in Australia: 1 800 787 653
• How will data be used?
  

  • Researchers from The Florey Institute in Melbourne, Australia will analyse the data to describe the ways young stroke survivors want their needs to be met.
  • The results of this study may be published in a scientific journal, and a report will be written for The Florey’s website and other related sites.
  • You will not be identified in any publications that result from this study.
  • There will be no direct benefit to you from participation in this research.

  
  How will data be stored?
  All data and project records will be stored for seven years on a data storage server in the University of Melbourne Data Centre that can only be accessed by authorised staff.
  
  Study approval
  This questionnaire has been approved by the Austin Health Human Research Ethics Committee (Project ID: HREC/18/Austin/86).
  
  Further information
  Please contact Dr Julie Bernhardt at The Florey Institute of Neuroscience and Mental Health: 03 9035 7072 julie.bernhardt@florey.edu.au
  
  
  Complaints contact person
  Name: Complaints Officer
  Telephone: (03) 9496 4090 or (03) 9496 3248
  Email: ethics@austin.org.au
• To give your consent to participate and proceed to the questionnaire, please click 'Agree' below.
  I have read and understood this information and I wish to complete the questionnaire.

Consumption of dairy product and its association with total and cause specific mortality - A population-based cohort study and meta-analysis

So go ask your doctor for a SPECIFIC DIET PROTOCOL, delineating the proper amounts of milk vs. cheese and ice cream.  Do not allow your doctor to be incompetent and not give you a diet protocol. You may have to call the stroke hospital president and DEMAND accountability from the doctors and therapists. Just because that protocol doesn't exist anywhere in the world is no excuse.  

Consumption of dairy product and its association with total and cause specific mortality - A population-based cohort study and meta-analysis

Clinical Nutrition — Mazidi M, et al. | December 20, 2018

Advertisement

Using data from the 1999-2010 National Health and Nutrition Examination Surveys (NHANES) study, researchers investigated if consumption of total dairy and dairy subgroups was correlated with total and cause-specific (coronary heart diseases [CHD], cerebrovascular, and cancer) mortality. The NHANES data set included 24,474 participants, among whom 3,520 deaths occurred during follow up. According to findings, higher total dairy consumption may be associated with lower total cerebrovascular mortality in US adults. Higher milk consumption, on the other hand, was noted to be linked to a higher risk of CHD. (We need specific amounts, 'higher' is completely worthless.)

Gallic and vanillic acid suppress inflammation and promote myelination in an in vitro mouse model of neurodegeneration

Ask your doctor point blank. 'Does stroke cause demylination?' If it does then what is your doctor doing to get this research followed up with human testing?

Gallic and vanillic acid suppress inflammation and promote myelination in an in vitro mouse model of neurodegeneration

• Authors
• Authors and affiliations

• Sonia Siddiqui
• Aisha Kamal
• Faisal Khan
• Khawar Saeed Jamali
• Zafar Saeed Saify

• Sonia Siddiqui
  • 1
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• Aisha Kamal
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• Faisal Khan
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• Khawar Saeed Jamali
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• Zafar Saeed Saify
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1. 1.Institute of Biomedical SciencesDow University of Health SciencesKarachiPakistan
2. 2.Department of Neuroscience, Dr. Panjwani Center for Molecular Medicine and Drug Research, International Center for Chemical and Biological SciencesUniversity of KarachiKarachiPakistan
3. 3.Department of SurgeryDow University of Health SciencesKarachiPakistan
4. 4.HEJ Research Institute of Chemistry, International Center for Chemical and Biological SciencesUniversity of KarachiKarachiPakistan

Original Article

First Online: 19 December 2018

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Abstract

Neuroinflammation affects millions of people around the world as a result of injury or stress. Neuroinflammation represents almost all types of neurological diseases such as multiple sclerosis and Alzheimer’s disease. Neurodegenerative diseases comprise demyelination and synaptic loss. The inflammatory response is further propagated by the activation of glial cells and modulation of constitutively expressed extracellular matrix proteins. The aim of the present study was to identify the anti-inflammatory effects of purified compounds gallic acid (GA, 1.0 µM) and vanillic acid (VA, 0.2 µM) on the lysolecithin (LPC, 0.003%)-induced model of inflammation. Hippocampal neurons were co-cultured with glial cells, and LPC was added to induce inflammation. Neurite outgrowth was measured by morphometry software. The level of myelination and demyelination was identified by immunostaining and sodium dodecyl sulfate polyacrylamide gel electrophoresis and western blotting techniques using different antibodies. Whole-cell patch clamp recordings were used to observe the sustained repetitive firing pattern. The data showed that GA and VA significantly increased the neurite outgrowth after 48 h in culture. Both compounds significantly reduced the expression of cyclooxygenase-2, NFκB, tenascin-C, chondroitin sulfate proteoglycans and glial fibrillary acidic protein in astrocytes in the LPC-induced model of inflammation. The level of myelin protein in neurites and oligodendrocyte cell bodies was significantly upregulated by GA and VA treatment. The reduction in sustained repetitive firing in the LPC-induced model of inflammation was reversed by both GA and VA treatment. This study supports the hypothesis that VA and GA have anti-inflammatory activities and could be regarded as potential treatments for neurodegenerative disease.

Keywords

Lysolecithin CNS injury Remyelination GA VA ECM proteins 

Electronic supplementary material

The online version of this article ( https://doi.org/10.1007/s11033-018-4557-1) contains supplementary material, which is available to authorized users.

At what point do you act? Stroke doctors and hospitals?

Simple questions. 

 tPA has been known to be a failure at complete recovery 88% of the time since approved in 1996. 

When will you act?

Full recovery from stroke only occurs 10% of the time. NSA statistic.

When will you act?

There are no publicly available protocols on stroke recovery.

When will you act?

From my point of view as a survivor there is NO stroke leadership and no sense that anyone in the world is even trying to solve stroke.

A history of innovations in heart disease and stroke

What the hell, this is just trying to whitewash all the problems in stroke still needing solutions. If you believe this crap you would think having a stroke is not bad. 

A history of innovations in heart disease and stroke

For decades, medical schools and teaching hospitals have been at the forefront of developing new techniques and technologies to prevent, diagnose, and treat heart disease and stroke. Here are some of the more notable ones.

Six hours. For years, that was the time window for removing a blood clot in a stroke victim. Go beyond that six-hour mark and the benefits decrease dramatically, physicians believed. But in January 2018, the American Heart Association and the American Stroke Association released new guidelines with a new time window: 16 to 24 hours, depending on the patient.
The decision was based on two studies led by Stanford University Medical Center and the University of Pittsburgh Medical Center (UPMC), with the participation of dozens of teaching hospitals. The idea, however, came from discussions that occurred almost 10 years earlier at UPMC.
“It’s been a labor of love,” says Tudor Jovin, MD, assistant professor of neurology and neurosurgery at the University of Pittsburgh School of Medicine, who was a principal investigator for one of the trials and currently serves as director of UPMC’s Stroke Institute. (UPMC had the largest number of patients in the trial.) “We encountered a lot of resistance because people didn't believe that these trials were feasible — that they would show what we thought they would show. There was a lot of skepticism.”
Jovin’s comments underscore why medical schools and teaching hospitals are known for medical innovation.  Not only do many of them offer the latest treatments and cutting-edge technology, they frequently house world-class research facilities. And they employ a range of experts, from experienced biomedical researchers and clinicians, to students, residents, and fellows, all of whom bring a unique perspective to the work.
“You get the innovative thoughts of new doctors with the experience and wisdom of those who have been doing research for a long time,” says Mona Bahouth, MD, assistant professor in the department of neurology at Johns Hopkins School of Medicine. And that, she says, results in challenges to the intellectual status quo.
Indeed, teaching hospitals have a history of innovations that have dramatically reduced mortality from heart disease and stroke. Between 1969 and 2015, deaths from heart disease declined 68%, due in part to research funded by the National Institutes of Health (NIH) and conducted at medical schools and teaching hospitals around the country. Here are some of those key contributions.

Heart disease

Since 1950, 80% of the Nobel Prize winners related to cardiovascular disease have been affiliated with American medical schools and teaching hospitals. Among the achievements: Biomedical researchers at academic medical centers helped show that treating even moderate hypertension reduced cardiac-related deaths. Research pioneered at medical schools and teaching hospitals also led to new standards of care for treating coronary artery disease and new medical and surgical treatments.
The work of one institution often leads to developments at another. Two medical professors at Columbia University won the Nobel Prize in 1958 for discoveries related to heart catherization. That research led the Cleveland Clinic and the University of Oregon to conduct pioneering work on coronary angiography in the 1950s and ‘60s, although it was “an accidental discovery,” says Joaquin Cigarroa, MD, head of the Oregon Health & Science University School of Medicine’s (OHSU) division of cardiovascular medicine. In 1958, F. Mason Sones Jr., a pediatric cardiologist at the Cleveland Clinic, was conducting a cardiac catherization. As his resident injected 50mm of dye into a patient’s aorta, the catheter moved slightly and some of the dye inadvertently entered a coronary artery.
“That began the era of consistent angiography,” says Cigarroa.
At OHSU, in 1964, Charlie Dotter became the first physician to perform an angioplasty on a peripheral artery. The patient was an 82-year-old woman suffering from blocked circulation in her leg. Physicians wanted to amputate, but she refused. A surgeon knew Dotter, who used a guide wire and Teflon catheters to dilate a superficial femoral artery stenosis.
“He demonstrated that you could actually push aside plaque in an artery,” says Cigarroa.

Between 1969 and 2015, deaths from heart disease declined 68%, due in part to research funded by the National Institutes of Health (NIH) and conducted at medical schools and teaching hospitals around the country.

Researchers working at medical schools and teaching hospitals have also helped develop everything from less-invasive angioplasty procedures to robotic surgery to surgeries that don’t require stopping the heart or using a heart-lung machine. Physicians at OHSU, Harvard, and Georgetown, among others, have developed and improved artificial heart valves. Procedures pioneered at teaching hospitals — including the Cleveland Clinic and Stanford — led to the development of Transcatheter Aortic Valve Replacement (TAVR), which allows physicians to treat aortic stenosis without open-heart surgery and often without long-term recovery. Middle school teacher Susan Strong, who underwent TAVR surgery at the University of Colorado Hospital in 2014, notes that she attended a full-day seminar one day after the procedure.
Researchers working at medical schools and teaching hospitals have also played a critical role in developing heart transplant surgeries and ventricular assist devices. The first such device was implanted by faculty members at the Baylor College of Medicine. At OHSU, researchers are currently working on an artificial heart designed for permanent use. (The only patented artificial heart is for temporary use.) The device would replace two ventricles with a single titanium tube. A rod in the tube moves back and forth to send blood to the lungs.
“It has gone through the engineering testing and we have done some short-term experiments,” says Cigarroa. “It shows promise, which is exciting.”

Stroke

The groundbreaking studies published in 2018 that increased the window for life-saving clot removal surgery are the latest in a long history of improvements to stroke treatment. How much has changed? Since 1969, the stroke mortality rate has declined by 71%(but what about 100% recovery?), due in large part to NIH-funded research on treatments and prevention conducted at medical schools and teaching hospitals.
In 1995, an NIH-funded clinical trial established the first FDA-approved treatment for ischemic stroke – the drug r-tPA(Which fails at full recovery 88% of thew time) (tissue plasminogen activator). Even more notable, clinical trials conducted in part at academic medical centers have established the importance of improved blood pressure control, decreased smoking rates and the use of statins in stroke prevention.
More recently, telestroke and teleneurology programs are making further inroads in reducing the death rate from stroke. Potential stroke victims need specialized expertise within hours of experiencing symptoms, but that can be difficult in rural areas. In the Stroke Belt — an 11-state region consisting of Mississippi, Tennessee, Louisiana, Kentucky, Georgia, North Carolina, Alabama, South Carolina, Arkansas, Indiana, and Virginia — stroke rates are 34% higher than in other parts of the country, the CDC reports. Because of that, many teaching hospitals provide access to experts through audio and video links.
After speaking with patients and reviewing medical records and imaging and lab results, physicians can determine if the stroke is ischemic or hemorrhagic, offer advice on whether to use the emergency stroke drug r-tPA, and recommend whether a patient should be sent for surgery. The many teaching hospitals that provide telestroke and teleneurology include Emory University Hospital, the Medical University of South Carolina Medical Center, Nebraska Medicine, the Ohio State Heath System, the Ronald Reagan UCLA Medical Center, and Yale New Haven Health. The University of Utah Health System provides telestroke services to more than 25 sites in Utah and elsewhere. And Penn State Health Milton S. Hershey Medical Center partners with regional hospitals for its telestroke program, called LionNet.

“At our core is a mission to advance gaps in knowledge that can impact patients. That is done at a basic science level, through clinical trials, through innovations in how we teach, and in partnership with communities. It is who we are.”

Joaquin Cigarroa, MD
Oregon Health & Science University School of Medicine

The Cleveland Clinic is reaching stroke patients through its Mobile Stroke Unit, an ambulance-like vehicle with staff, equipment, and medications for diagnosing and treating strokes. The vehicle also includes a lab to test blood samples, a portable CT scanner that can send images to the hospital, and a telemedicine link to the hospital’s neurologists. A 2017 study in Neurology found that patients received thrombolysis 38.5 minutes sooner(So what? How fast does it need to be delivered to get 100% recovery?) via the Cleveland Clinic’s mobile unit than they would with traditional stroke procedures. The University of Texas Health Science Center at Houston (UT Health) introduced the first Mobile Stroke Unit as part of a clinical trial in 2014; others with units include the University of Tennessee Health Science Center and Indiana University Health.
Medical schools and teaching hospitals have also been innovators when it comes to patient safety. In a recent study by researchers at UT Health, stroke patients treated at teaching hospitals were less likely to be readmitted than those who weren’t.
Other innovators are focused on recovery. Since 2015, the Stanford Stroke Recovery Program has focused on improving “gait, arm function, and cognition after stroke.” The laboratories have worked on new therapies, noninvasive brain stimulation, and medical devices. Among its more interesting trials: The program is testing the StrokeCoach, a rehab program that uses the Apple Watch to offer exercises and assess the progress of a weak arm following a stroke. It’s also testing devices to improve hand function and muscle weakness.
At Johns Hopkins, researchers are bringing together engineers, nurses, physicians, and other experts to create a treatment room that becomes “the treatment machine for a stroke patient,” says Bahouth. “Think of it as a bio room that measures and responds to patients’ needs. That will require a lot of innovative work between technologists, engineers, and informatics people, but I think that's where we're moving: To test a concept that creates a whole environment of healing for stroke patients.”
Innovative ideas like this are part of the DNA of teaching hospitals — and they will continue to save lives.
“At our core is a mission to advance gaps in knowledge that can impact patients,” says Cigarroa. “That is done at a basic science level, through clinical trials, through innovations in how we teach, and in partnership with communities. It is who we are.”