Puppy’s reunion with mother will make you want to hug your mom

July 30, 2015

Dogs tend to recognize another dog or human when they are emotionally attached to them, according to UBC psychology professor Stanley Coren, author of The Wisdom of Dogs.

“The emotional life of a dog — the entire mental life of the dog — is very close to a human two- or three-year-old,” Coren said. “A two- or three-year-old will have love and joy and fear and anger and surprise, but they tend not to have the higher social emotions like guilt … pride, shame, that sort of thing.”


Non-surgical electrical/drug stimulation helps patients with paralysis to voluntarily move their legs — a first

July 30, 2015

Range of voluntary movement prior to receiving stimulation compared to movement after receiving stimulation, physical conditioning, and the drug buspirone. The subject’s legs are supported so that they can move without resistance from gravity. The electrodes on the legs are used for recording muscle activity. (credit: Edgerton Lab/UCLA)

In a study conducted at UCLA, five men who had been completely paralyzed were able to move their legs in a rhythmic motion thanks to a new, noninvasive neuromodulation and pharmacological procedure that stimulates the spinal cord.

The researchers believe this to be the first time voluntary leg movements have ever been relearned in completely paralyzed patients without surgery. The results are reported in an open-access paper in the Journal of Neurotrauma.

“These findings tell us we have to look at spinal cord injury in a new way,” said V. Reggie Edgerton, senior author of the research and a UCLA distinguished professor of integrative biology and physiology, neurobiology and neurosurgery.

Edgerton said although it likely will be years before the new approaches are widely available, he now believes that it is possible to significantly improve quality of life for patients with severe spinal cord injuries, and to help them recover multiple body functions.

Earlier this year, a the researchers demonstrated that they could induce involuntary stepping movements in healthy, uninjured people using noninvasive stimulation. The finding led Edgerton to believe the same approach could be effective for people with complete paralysis.

Reawakening neural connections with electrical charges and a drug

In the new research, five men were given one 45-minute training session per week for 18 weeks. For four weeks, the men were also given twice daily doses of buspirone, a drug often used to treat anxiety disorders, as part of the treatment.

Researchers placed electrodes at strategic points on the skin, at the lower back and near the tailbone and then administered a unique pattern of noninvasive, painless transcutaneous (through the skin) electrical currents*. The electrical charges caused no discomfort to the patients, who were lying down.

“The fact that they regained voluntary control so quickly must mean that they had neural connections that were dormant, which we reawakened,” said Edgerton, who for nearly 40 years has conducted research on how the neural networks in the spinal cord regain control of standing, stepping and voluntary control of movements after paralysis. “It was remarkable.”

* The researchers used monopolar rectangular pulsed stimuli (30 Hz at T11 and 5 Hz at Co1 with 1 ms duration for each pulse) filled with a carrier frequency of 10 kHz and at an intensity ranging from 80 to 180 mA .

Edgerton Lab/UCLA | Non-invasive Neuromodulation to regain voluntary movements after paralysis

Edgerton said most experts, including himself, had assumed that people who were completely paralyzed would no longer have had neural connections across the area of the spinal cord injury.

The researchers do not know yet whether patients who are completely paralyzed can be trained to fully bear their weight and walk. But he and colleagues have now published data on nine people who have regained voluntary control of their legs —four with epidural implants and five in the latest study.

“Many people thought just a few years ago we might be able to achieve these results in perhaps one out of 100 subjects, but now we have nine of nine,” Edgerton said. “I think it’s a big deal, and when the subjects see their legs moving for the first time after paralysis, they say it’s a big deal.”

The men in the newest study ranged in age from 19 to 56; their injuries were suffered during athletic activities or, in one case, in an auto accident. All have been completely paralyzed for at least two years. Their identities are not being released.

The research was funded by the National Institutes of Health’s National Institute of Biomedical Imaging and Bioengineering (grants U01EB15521 and R01EB007615), the Christopher and Dana Reeve Foundation, the Walkabout Foundation and the Russian Scientific Fund.

“These encouraging results provide continued evidence that spinal cord injury may no longer mean a life-long sentence of paralysis and support the need for more research,” said Dr. Roderic Pettigrew, director of the National Institute of Biomedical Imaging and Bioengineering. “The potential to offer a life-changing therapy to patients without requiring surgery would be a major advance; it could greatly expand the number of individuals who might benefit from spinal stimulation. It’s a wonderful example of the power that comes from combining advances in basic biological research with technological innovation.”

Edgerton estimates that cost to patients of the new approach could be one-tenth the cost of treatment using the surgical epidural stimulator (which is also still experimental) — and, because no surgery is required, it would likely be more easily available to more patients.

The study’s co-authors were Gerasimenko, who conceived the new approach and is director of the laboratory of movement physiology at Russia’s Pavlov Institute and a researcher in the UCLA department of integrative biology and physiology, as well as Daniel Lu, associate professor of neurosurgery, researchers Morteza Modaber, Roland Roy and Dimitry Sayenko, research technician Sharon Zdunowski, research scientist Parag Gad, laboratory coordinator Erika Morikawa and research assistant Piia Haakana, all of UCLA; and Adam Ferguson, assistant professor of neurological surgery at UC San Francisco.

Edgerton and his research team also plan to study people who have severe, but not complete, paralysis. “They’re likely to improve even more,” he said.

The scientists can only work with a small number of patients, due to limited resources, but Edgerton is optimistic that the research can benefit many others. Almost 6 million Americans live with paralysis, including nearly 1.3 million with spinal cord injuries.

“A person can have hope, based on these results,” Edgerton said. “In my opinion, they should have hope.”

Abstract of Noninvasive Reactivation of Motor Descending Control after Paralysis

The present prognosis for the recovery of voluntary control of movement in patients diagnosed as motor complete is generally poor. Herein we introduce a novel and noninvasive stimulation strategy of painless transcutaneous electrical enabling motor control and a pharmacological enabling motor control strategy to neuromodulate the physiological state of the spinal cord. This neuromodulation enabled the spinal locomotor networks of individuals with motor complete paralysis for 2-6 years (AIS B) to be reengaged and trained. We showed that locomotor-like stepping could be induced without voluntary effort within a single test session using electrical stimulation and training. We also observed significant facilitation of voluntary influence on the stepping movements in the presence of stimulation over a four-week period in each subject. Using these strategies we transformed brain-spinal neuronal networks from a dormant to a functional state sufficiently to enable recovery of voluntary movement in 5/5 subjects. Pharmacological intervention combined with stimulation and training resulted in further improvement in voluntary motor control of stepping-like movements in all subjects. We also observed on-command selective activation of the gastrocnemius and soleus muscles when attempting to plantarflex. At the end of 18 weeks of weekly interventions the mean changes in the amplitude of voluntarily controlled movement without stimulation was as high as occurred when combined with electrical stimulation. Additionally, spinally evoked motor potentials were readily modulated in the presence of voluntary effort, providing electrophysiological evidence of the re-establishment of functional connectivity among neural networks between the brain and the spinal cord.

Dr. Yury Gerasimenko, Dr. Daniel Lu, Dr. Morteza Modaber et al. Noninvasive Reactivation of Motor Descending Control after Paralysis. Journal of Neurotrauma 2015 doi:10.1089/neu.2015.4008 (open access)
In UCLA study, non-surgical approach helps people with paralysis voluntarily move their legs – a first


Memory problems? Go climb a tree.

Working memory capacity increase of 50 percent found in research
July 30, 2015

(credit: iStock)

Climbing a tree or balancing on a beam can dramatically improve cognitive skills, according to a study recently conducted by researchers in the Department of Psychology at the University of North Florida.

The study is the first to show that proprioceptively dynamic activities like climbing a tree, done over a short period of time, have dramatic working memory benefits.

Working memory (the ability to process and recall information), is linked to performance in a wide variety of contexts from grades to sports. Proprioception (awareness of body positioning and orientation) is also associated with working memory.

The results of this research, led by Ross Alloway, a research associate, and Tracy Alloway, an associate professor, recently published in Perceptual and Motor Skills, suggest that working-memory improvements can be made in just a couple of hours with these physical exercises.

The aim of this study was to see if proprioceptive activities completed over a short period of time can enhance working memory performance, and whether an acute and highly intensive period of exercise would yield working memory gains.

The UNF researchers recruited adults ages 18 to 59 and tested their working memory. Next, they undertook proprioceptively dynamic activities, designed by the company Movnat, which required proprioception and at least one other element, such as locomotion or route planning.

Working memory capacity increase of 50 percent; better than yoga

In the study, such activities included climbing trees, walking and crawling on a beam approximately 3 inches wide, moving while paying attention to posture, running barefoot, navigating over, under and around obstacles, as well as lifting and carrying awkwardly weighted objects. After two hours, participants were tested again, and researchers found that their working memory capacity had increased by 50 percent, a dramatic improvement.

The researchers also tested two control groups. The first was a college class learning new information in a lecture setting to see if learning new information improved working memory. The second was a yoga class to see if static proprioceptive activities were cognitively beneficial. However, neither control group experienced working memory benefits.

Proprioceptively dynamic training may place a greater demand on working memory than either control condition because as environment and terrain changes, the individual recruits working memory to update information to adapt appropriately. Though the yoga control group engaged in proprioceptive activities that required awareness of body position, it was relatively static as they performed the yoga postures in a small space, which didn’t allow for locomotion or navigation.

“This research suggests that by doing activities that make us think, we can exercise our brains as well as our bodies,” said Alloway. “This research has wide-ranging implications for everyone from kids to adults. By taking a break to do activities that are unpredictable and require us to consciously adapt our movements, we can boost our working memory to perform better in the classroom and the boardroom.”

Abstract of The working memory benefits of proprioceptively demanding training: A pilot study

The aim of this study was to investigate the effect of proprioception on working memory. It was also of interest whether an acute and highly intensive period of exercise would yield working memory gains. The training group completed a series of proprioceptively demanding exercises. There were also control classroom and yoga groups. Working memory was measured using a backward digit recall test. The data indicated that active, healthy adults who undertook acute, proprioceptively demanding training improved working memory scores compared to the classroom and yoga groups. One possible reason that the training yielded significant working memory gains could be that the training was proprioceptively dynamic, requiring proprioception and at least one other factor—such as locomotion or navigation—at the same time, which may have contributed to the improvements in working memory performance.

Ross G. Alloway, Tracy Packiam Alloway. The working memory benefits of proprioceptively demanding training: A pilot study. Perceptual and Motor Skills, 2015; 120 (3): 766 DOI: 10.2466/22.PMS.120v18x1
UNF Researchers Reveal Climbing a Tree Can Improve Cognitive Skills
Mastering math through movement using Kinect for Windows


How to tune graphene properties by introducing defects

July 30, 2015

Exfoliation setup. Inset: graphite electrode during exfoliation (credit: Mario Hofmann/Nanotechnology)

Taiwanese researchers reported today (July 3o) in the journal Nanotechnology that they have developed a simple electrochemical approach that allows for defects to intentionally be created in graphene, altering its electrical and mechanical properties and making the material more useful for electronic devices and drug delivery, for example.

Current graphene synthesis techniques, such as chemical vapor deposition and reduction of graphene oxide, can only produce graphene with a narrow range of characteristics, limiting the usefulness of
produced graphene, the researchers say.

The researchers used a technique called electrochemical synthesis to exfoliate, or peal off graphite flakes into graphene layers. By varying the pulsed voltage, they could change the resulting graphene’s thickness, flake area, and number of defects, altering the properties of graphene.

They also found they need to use a solvent for intercalation (adding a fluid or material between layers) as the necessary first step.

To monitor the evolution of the graphene in the solvent they found that simply tracking the solution’s transparency with an LED and photodiode could give them quantitative information on the efficiency and onset of exfoliation.

They next plan to study the effects of adjusting the pulse durations throughout the exfoliation process to improve the amount of exfoliated graphene and to introduce more complex pulse shapes to selectively produce certain types of graphene defects.

Abstract of Controlling the properties of graphene produced by electrochemical exfoliation

The synthesis of graphene with controllable electronic and mechanical characteristics is of significant importance for its application in various fields ranging from drug delivery to energy storage. Electrochemical exfoliation of graphite has yielded graphene with widely varying behavior and could be a suitable approach. Currently, however the limited understanding of the exfoliation process obstructs targeted modification of graphene properties. We here investigate the process of electrochemical exfoliation and the impact of its parameters on the produced graphene. Using in situ optical and electrical measurements we determine that solvent intercalation is the required first step and the degree of intercalation controls the thickness of the exfoliated graphene. Electrochemical decomposition of water into gas bubbles causes the expansion of graphite and controls the functionalization and lateral size of the exfoliated graphene. Both process steps proceed at different time scales and can be individually addressed through application of pulsed voltages. The potential of the presented approach was demonstrated by improving the performance of graphene-based transparent conductors by 30 times.

Mario Hofmann, Wan-Yu Chiang, Tuân D Nguyễn and Ya-Ping Hsieh. Controlling the properties of graphene produced by electrochemical exfoliation. Nanotechnology 26 335607, 2015. (open access)


UBC’s Quantum Matter Institute received $66.5 million from Ottawa

VANCOUVER – The University of B.C.’s Quantum Matter Institute has received $66.5 million dollars over seven years from the federal government.

UBC says it is the largest government investment in a single UBC research program, and will secure the university’s standing as a global leader in quantum matter research.

The university was one of five recipients to receive a total of almost $350 million in the inaugural round of funding. The funding program was created to propel Canada’s top performing institutions and research centres onto the world stage.

UBC president Arvind Gupta said he was thrilled with the federal government’s vision to invest $66.5 million to help establish UBC as a global centre for high-tech quantum materials research.

“The groundbreaking scientific discoveries in this field have the potential to create practical applications that could spur new industries and employment here and abroad and provide significant public benefits in areas like health and the environment.” Gupta said, in a statement Thursday.

Quantum physics is the study of the unusual behaviour of matter and energy at the atomic level.

The institute’s director Andrea Damascelli said the funding will also strengthen international partnerships, especially with the Max Planck Society of Germany.

QMI is also home to the Max Planck-UBC Centre for Quantum Materials, the third international centre established by the prestigious Max Planck Society, and the only one dedicated to quantum materials research, according to UBC.

– See more at: http://www.vancouversun.com/Quantum+Matter+Institute+received+million+from+Ottawa/11254690/story.html#sthash.hhJ74hla.dpuf

Apple granted patents for finger biometric sensor with tactile feedback

Apple has been granted a series of patents related to a new technology entitled, “Finger Biometric Sensor including Laterally Adjacent Piezoelectric Transducer Layer and Associated Methods“, according to a report by Patently Apple.
Originally filed in the fourth quarter of 2013, the patent was officially published this week by the US Patent and Trademark Office.
The patent covers Apple’s invention relating to the field of electronics, with a particular focus on the field of finger biometric sensors and associated manufacturing methods.
In the patent, Apple describes a process in which it adds a tactile feedback feature to future Apple devices, such as the iPhone.
The finger biometric sensor may also include a sense circuit combined with the transducer electrodes to sense from the piezoelectric transducer layer to define transducer electrodes.

The finger biometric sensor may provide tactile feedback to the user’s finger, it may provide finger presence detection for power control, or it may provide both.
Apple credits Dale Setlak, James Neil, Daryl Williams, Richard Jones and Nicolaas Van Vonno as the inventors.
Previously reported, Apple was granted a new patent entitled “Device Configuration for Multiple Users Using Remote User Biometrics,” which covers new technology that could make it easier for Apple TV and iPad users to configure the device for each shared user with their fingerprint.


Apple Watch to be sold through Best Buy in Canada on Aug. 14

The Apple Watch will become available in Canadian Best Buy stores on Aug. 14, the retailer says.

That’s a week after the big American retail chain begins carrying Apple’s entry into the wearable technology category.

It’s the first time Apple has sold the watch outside its own retail stores and marks a new experiment in mass marketing by the tech giant.

The watch, with access to phone, email, music and information about your workout, also will be available online from Best Buy.

Apple has not released sales numbers for the Apple Watch, which it released in April, but said demand from loyal customers has been strong.

Canadian prices begin at $449 for the smaller, 38-mm model Apple Watch Sport. A standard version will be $699, and the high-end “Edition” model will be priced from $13,000.

A number of different watch bands are available for the device.

“Customers love Apple Watch, and we are thrilled to begin offering it at Best Buy … More than 50 Best Buy stores will carry Apple Watch and Apple Watch Sport models in time for the holiday shopping season,” Apple said in a statement.


Social sites linked to teen depression

July 29 2015 at 11:40am
By FIONA MACRAE Comment on this story

More than 700 Canadian pupils aged between 12 and 18 were asked how many hours a day they spent on social media sites and then quizzed about their mental health.
London – Teenagers who spend more than two hours a day on Facebook and other social networking sites are much more likely to have mental health problems, a study found.

These range from symptoms of depression to having seriously contemplated suicide.

It is not clear whether the websites are fuelling psychiatric problems or whether youngsters who are struggling to cope seek solace in the internet. But the researchers say the link should not be ignored.

More than 700 Canadian pupils aged between 12 and 18 were asked how many hours a day they spent on social media sites and then quizzed about their mental health.

One in six rated their mental health as poor and one in four had clear symptoms of depression and anxiety. Those in poor mental health were three times as likely to use social networking sites for more than two hours a day as those with no problems. Teenagers who had thought about killing themselves were six times as likely to spend a lot of time on Facebook and other sites.

Writing in the journal Cyber-psychology, Behaviour and Social Networking, the Ottawa researchers said: “Parents should consider frequent use of social networking sites as a possible indicator of, or risk for, mental health problems among children.”


Bullies have high self-esteem, low depression rates

TORONTO: Contradicting earlier findings, a new study suggests that bullies are least likely to be depressed, have the highest self-esteem and the greatest social status.

“Humans tend to try to establish a rank hierarchy. When you’re in high school, it’s a very limited arena in which you can establish your rank, and climbing the social ladder to be on top is one of the main ways…

“Humans tend to try to establish a rank hierarchy. When you’re in high school, it’s a very limited arena in which you can establish your rank, and climbing the social ladder to be on top is one of the main ways… Bullying is a tool you can use to get there,” lead researcher Jennifer Wong, a professor of criminology, was quoted as saying by National Post.

Researchers at Simon Fraser University survey ..


Motorola launches Pulse and Surround wireless headphones

Motorola has launched two new Bluetooth headphones, the in-ear Moto Surround and over-ear Moto Pulse.

The Moto Pulse is a classic pair of on-ear headphones featuring 40mm speaker. It has 60-foot wireless range.

The Moto Surround is an on-ear headphone. It is waterproof and sweatproof, but Motorola also promises high-quality audio.

According to The Verge, the bigger Pulse lasts up to 18 hours on a charge while the smaller, waterproof Surround will give the users 12 hours of listening.

They also feature the standard ability to take voice calls and are compatible with iOS and Android.

In addition, Motorola Connect app allows the users to keep track of the headphones’ battery life from their phones and also track them down via Google Maps if they get lost.

Moto Pulse has been priced at $60, while Surround costs $70.

Read more at: http://indiatoday.intoday.in/technology/story/motorola-launch-two-wireless-headphones/1/455063.html