Positive Technology Journal

Analgesic effects of posthypnotic suggestions and virtual reality distraction on thermal pain.

J Abnorm Psychol. 2006 Nov;115(4):834-41

Authors: Patterson DR, Hoffman HG, Palacios AG, Jensen MJ

The individual and combined effects of posthypnotic suggestion (PHS) and virtual reality distraction (VRD) on experimentally induced thermal pain were examined using a 2 x 2, between-groups design. After receiving baseline thermal pain, each participant received hypnosis or no hypnosis, followed by VRD or no VRD during another pain stimulus. Consistent with the hypothesis that hypnosis and VRD work via different mechanisms, results show that posthypnotic analgesia was moderated by hypnotizability but VRD analgesia was not. The impact of PHSs for analgesia was specific to high hypnotizables, whereas VRD was effective independent of hypnotizability. Results also show a nonsignificant but predicted pattern for high hypnotizables: Audio hypnosis combined with VRD reduced worst pain 22% more and pain unpleasantness 25% more than did VRD alone. Theoretical and clinical implications are discussed. ((c) 2006 APA, all rights reserved).

Rehabilitation after Stroke using Virtual Reality, Haptics (force feedback) and Telemedicine.

Stud Health Technol Inform. 2006;124:51-56

Authors: Broeren J, Dixon M, Stibrant Sunnerhagen K, Rydmark M

We have constructed a haptic immersive workbench to be placed in the patients' home for daily adjusted rehabilitation. We also propose a system for Internet based connection and communication between patients and between patients and a clinical rehabilitation center and clinical assessment/evaluation centers. The benefits of a system for rehabilitation after stroke, based on VR, Haptics and Telemedicine should be: increased quality of life, lesser isolation, feeling more secure, fewer tiring transportations, more frequent exercising, better compliance to training, lower cost for transportation. The long term recovery for a larger group of patients with motor impairments is presently under evaluation.

Virtual reality applications for the remapping of space in neglect patients.

Restor Neurol Neurosci. 2006;24(4-6):431-41

Authors: Ansuini C, Pierno AC, Lusher D, Castiello U

Purpose: The aims of the present article were the following: (i) to provide some evidence of the potential of virtual reality (VR) for the assessment, training and recovery of hemispatial neglect; (ii) to present data from our laboratory which seem to confirm that the clinical manifestation of neglect can be improved by using VR techniques; and (iii) to ascertain the neural bases of this improvement. Methods: We used a VR device (DataGlove) interfaced with a specially designed computer program which allowed neglect patients to reach and grasp a real object while simultaneously observing the grasping of a virtual object located within a virtual environment by a virtual hand. The virtual hand was commanded in real time by their real hand. Results: After a period of training, hemispatial neglect patients coded the visual stimuli within the neglected space in an identical fashion as those presented within the preserved portions of space. However it was also found that only patients with lesions that spared the inferior parietal/superior temporal regions were able to benefit from the virtual reality training. Conclusions: It was concluded that using VR it is possible to re-create links between the affected and the nonaffected space in neglect patients. Furthermore, that specific regions may play a crucial role in the recovery of space that underlies the improvement of neglect patients when trained with virtual reality. The implications of these results for determining the neural bases of a higher order attentional and/or spatial representation, and for the treatment of patients with unilateral neglect are discussed.

From the Journal of Personal Cyberconsciousness, 1(3) 2006 (via IEET) 

In this article, Martine Rothblatt, a "geoethical samurai", introduces Macro-Bushido, a set of ethical guidelines for the modern Info-Cultural Age. Macro-Bushido is based on Bushido, the unwritten code of ethics that guided Japan's samurai until about one hundred years ago. The seven principles of Bushido are: Rectitude, Courage, Benevolence, Politeness, Veracity, Honor and Loyalty. Rothblatt dissects each principle and explains how it could be applied to the modern world and in particular, to emerging cyberconsciousness. Rothblatt argues that upholding Macro-Bushido in today's world will result in many benefits, among them that humans may be saved from the consequences of shortsightedness by refocusing their attention on loyalty to a higher goal. In addition, a class of modern samurai may emerge to help keep humanity loyal to the objectives of diversity, unity and immortality. These ideals are invaluable as we arrive at personal cyberconsciousness within humanity's quest for survival.

Link to the article

Relaxation strategies and enhancement of hypnotic susceptibility: EEG neurofeedback, progressive muscle relaxation and self-hypnosis.

Brain Res Bull. 2006 Dec 11;71(1-3):83-90

Authors: Batty MJ, Bonnington S, Tang BK, Hawken MB, Gruzelier JH

Hypnosis has been shown to be efficacious in a range of clinical conditions, including the management of chronic pain. However, not all individuals are able to enter a hypnotic state, thereby limiting the clinical utility of this technique. We sought to determine whether hypnotic susceptibility could be increased using three methods thought to facilitate relaxation, with particular interest in an EEG neurofeedback protocol which elevated the theta to alpha ratio. This was compared with progressive muscle relaxation and self-hypnosis. Ten subjects with moderate levels of susceptibility (2-7/12) were randomly assigned to each condition and assessed for hypnotic susceptibility prior to and upon completion of 10 sessions of training. Hypnotic susceptibility increased post-training in all groups, providing further evidence that operant control over the theta/alpha ratio is possible, but contrary to our predictions, elevation of the theta/alpha ratio proved no more successful than the other interventions. Nonetheless, all three techniques successfully enhanced hypnotic susceptibility in over half of the participants (17/30), a similar incidence to that reported using other methods. As previously reported, the majority who were not susceptible to modification were at the lower levels of susceptibility, and the greater increases tended to occur in the more susceptible subjects. However, here enhancement was disclosed in some at low levels, and capability was found of reaching high levels, both features not typically reported. Further research is warranted.

Brain-computer interface technology as a tool to augment plasticity and outcomes for neurological rehabilitation.

J Physiol. 2006 Nov 16;

Authors: Dobkin BH

Brain-computer interfaces are a rehabilitation tool for tetraplegic patients that aim to improve quality of life by augmenting communication, control of the environment, and self-care. The neurobiology of both rehabilitation and BCI control depends upon learning to modify the efficacy of spared neural ensembles that represent movement, sensation, and cognition through progressive practice with feedback and reward. To serve patients, BCI systems must become safe, reliable, cosmetically acceptable, quickly mastered with minimal ongoing technical support, and highly accurate even in the face of mental distractions and the uncontrolled environment beyond a laboratory. BCI technologies may raise ethical concerns if their availability affects the decisions of patients who become locked-in with brain stem stroke or amyotrophic lateral sclerosis to be sustained with ventilator support. If BCI technology becomes flexible and affordable, volitional control of cortical signals could be employed for the rehabilitation of motor and cognitive impairments in hemiplegic or paraplegic patients by offering on-line feedback about cortical activity associated with mental practice, motor intention, and other neural recruitment strategies during progressive task-oriented practice. Clinical trials with measures of quality of life will be necessary to demonstrate the value of near-term and future BCI applications.

Re-blogged from Pink Tentacle

Hitachi has successfully tested a brain-machine interface that allows users to turn power switches on and off with their mind. Relying on optical topography, a neuroimaging technique that uses near-infrared light to map blood concentration in the brain, the system can recognize the changes in brain blood flow associated with mental activity and translate those changes into voltage signals for controlling external devices. In the experiments, test subjects were able to activate the power switch of a model train by performing mental arithmetic and reciting items from memory.

Link to Pink Tentacle post

Via Infoaesthetic

Moodjam is an online visualization of people's moods visualized as beautiful color strips. Users can keep a record of their moods every hour, day, and weeks and share them with friends, family or co-workers.

Via Medgadget

Researchers from Brunel University in the UK have developed a PDA-based pain recording and monitoring system:

Brunel University today unveils the World's first computer based, three-dimensional (3D) solution for pain visualisation. The tool will help patients record their own pain, as well as providing practitioners with a way to collect information on patient experience of pain and allows greater insight into the way pain travels around the body...

The innovative pain visualisation tool is displayed via a web browser as a 3D body. Users can log pain data on an easy-to-use PDA monitor at regular intervals. Pain can be classified as: burning, aching, stabbing, pins and needles and numbness with each pain type allocated a colour, which is represented on the 3D rotating tool.

The data is collected and the pain entries can be stored and replayed over an extended period as a rotating multimedia image, providing physicians with more detailed understanding of surface pain journeys.

Brunel University today unveils the World's first computer based, three-dimensional (3D) solution for pain visualisation. The tool will help patients record their own pain, as well as providing practitioners with a way to collect information on patient experience of pain and allows greater insight into the way pain travels around the body...

The innovative pain visualisation tool is displayed via a web browser as a 3D body. Users can log pain data on an easy-to-use PDA monitor at regular intervals. Pain can be classified as: burning, aching, stabbing, pins and needles and numbness with each pain type allocated a colour, which is represented on the 3D rotating tool.

The data is collected and the pain entries can be stored and replayed over an extended period as a rotating multimedia image, providing physicians with more detailed understanding of surface pain journeys.

 

Link

From Medgadget 

Researchers Fishbach and Mussa-Ivaldi at Northwestern University's Department of Physical Medicine and Rehabilitation have developed a high-tech fabric which promises to help wheelchair bound patients.  

From the article at MIT Tech Review:

Adaptive, sensor-laden garments could provide a new way for quadriplegics to control their wheelchairs. The system, which is still in an early stage of development, identifies the ideal set of movements that can be employed as control commands for each individual user. "We think this will benefit the most difficult patients, such as those who can move only their head or shoulders," says Alon Fishbach, a scientist at Northwestern who is among those developing the device.

People with high-level spinal-cord injuries often lose control of their hands, but they may still be able to move their shoulders or chests. More and more such patients survive their injuries, thanks to respiratory devices that help them breathe. But these people have limited options when selecting devices to control their wheelchairs or computers. They might use a sip/puff switch, which converts the user's sip or puff of air into a specific command, or a headswitch, which records head movements via a switch on the back of the wheelchair. "But the disadvantage of these devices is that patients must fit the capacities of the machine, rather than the other way around," says Ferdinando Mussa-Ivaldi, another Northwestern scientist working on the device. "If a patient can move their right side more than their left, an intelligent interface could pick up on this."

To overcome this design flaw, the researchers are developing an adaptive device using sensor-laden fabric. The garment is printed with 52 flexible, piezoresistive sensors developed at the University of Pisa. These sensors are made of electroactive polymers that change voltage depending on the angle at which they are stretched. The sensors can detect fine scale movements of the upper body and arms.

The researchers are currently focusing on a system to control wheelchairs, but they say the device could be used to control a wide range of machines.

Re-blogged from Mauro Cherubini's moleskine

bliin YourLIVE! is a social networking service where users can spot, trace and share experiences — pictures, videos, audio and text — with one another in real-time on a Google Map.

Users create ‘bliins’ to navigate and monitor their interests in a location or area. bliins can be saved and shared amongst users. bliin is powered by GeoTracing and built on KeyWorx.

Motor imagery of complex everyday movements. An fMRI study.

Neuroimage. 2006 Nov 15;

Authors: Szameitat AJ, Shen S, Sterr A

The present study aimed to investigate the functional neuroanatomical correlates of motor imagery (MI) of complex everyday movements (also called everyday tasks or functional tasks). 15 participants imagined two different types of everyday movements, movements confined to the upper extremities (UE; e.g., eating a meal) and movements involving the whole body (WB; e.g., swimming), during fMRI scanning. Results showed that both movement types activated the lateral and medial premotor cortices bilaterally, the left parietal cortex, and the right basal ganglia. Direct comparison of WB and UE movements further revealed a homuncular organization in the primary sensorimotor cortices (SMC), with UE movements represented in inferior parts of the SMC and WB movements in superior and medial parts. These results demonstrate that MI of everyday movements drives a cortical network comparable to the one described for more simple movements such as finger opposition. The findings further are in accordance with the suggestion that motor imagery-based mental practice is effective because it activates a comparable cortical network as overt training. Since most people are familiar with everyday movements and therefore a practice of the movement prior to scanning is not necessarily required, the current paradigm seems particularly appealing for clinical research and application focusing on patients with low or no residual motor abilities.

Link

prompted by Layla Nassary Zadeh, I wanted to understand something more about the possibility of implementing augmented reality on mobile devices. Much to my surprise, this field is more advanced than I expected.

For example, a team of researchers from Nokia's Mobile Augmented Reality Applications (MARA) project has created a prototype phone that makes objects in the real world hyperlink to information on the Internet. Using the phone's built in camera, a user can highlight objects on the mobile phone's LCD and pull in additional information about them from the Internet. Moreover, by altering the orientation of the phone, the display will toggle between live view and satellite map view. In map view, nearby real world objects are highlighted for convenient reference.

The prototype consists of Nokia S60 platform phone and attached external sensor box providing position and orientation information to the phone via a Bluetooth connection

This video of downtown Helsinki shows some Virtual Object - associated landmarks, and demonstrates the automatic switching between Augmented Reality mode and Map mode that happens when the user alternates between holding the phone vertically and horizontally.

MARA was demonstrated at the fifth IEEE and ACM International Symposium on Mixed and Augmented Reality in Santa Barbara in October.

Motor imagery and EEG-based control of spelling devices and neuroprostheses.

Prog Brain Res. 2006;159:393-409

Authors: Neuper C, Müller-Putz GR, Scherer R, Pfurtscheller G

A brain-computer interface (BCI) transforms signals originating from the human brain into commands that can control devices or applications. With this, a BCI provides a new non-muscular communication channel, which can be used to assist patients who have highly compromised motor functions. The Graz-BCI uses motor imagery and associated oscillatory EEG signals from the sensorimotor cortex for device control. As a result of research in the past 15 years, the classification of ERD/ERS patterns in single EEG trials during motor execution and motor imagery forms the basis of this sensorimotor-rhythm controlled BCI. The major frequency bands of cortical oscillations considered here are the 8-13 and 15-30Hz bands. This chapter describes the basic methods used in Graz-BCI research and outlines possible clinical applications.

Motor imagery practice in gait rehabilitation of chronic post-stroke hemiparesis: four case studies.

Int J Rehabil Res. 2006 Dec;29(4):351-356

Authors: Dunsky A, Dickstein R, Ariav C, Deutsch J, Marcovitz E

The aim of this series of pilot case studies was to examine the feasibility of enhancing the walking of individuals with post-stroke hemiparesis through the imagery practice of gait activities at home. Four persons with chronic hemiparesis received imagery gait practice, 3 days a week for 6 weeks. The intervention addressed gait impairments of the affected lower limb and task-specific gait training. Pre-intervention, mid-term, post-intervention and follow-up evaluations were performed. At 6 weeks from the beginning of treatment, the participants increased walking speed, stride length, cadence and single-support time on the affected lower limb, while decreasing double-support time. The findings appear to justify the institution of a larger-scale study in order to better delineate the contribution of motor imagery practice to gait performance in individuals with post-stroke hemiparesis.

Short-Term Autonomic and Cardiovascular Effects of Mindfulness Body Scan Meditation.

Ann Behav Med. 2006;32(3):227-234

Authors: Ditto B, Eclache M, Goldman N

Background: Recent research suggests that the Mindfulness-Based Stress Reduction program has positive effects on health, but little is known about the immediate physiological effects of different components of the program. Purpose: To examine the short-term autonomic and cardiovascular effects of one of the techniques employed in mindfulness meditation training, a basic body scan meditation. Methods: In Study 1, 32 healthy young adults (23 women, 9 men) were assigned randomly to either a meditation, progressive muscular relaxation or wait-list control group. Each participated in two laboratory sessions 4 weeks apart in which they practiced their assigned technique. In Study 2, using a within-subjects design, 30 healthy young adults (15 women, 15 men) participated in two laboratory sessions in which they practiced meditation or listened to an audiotape of a popular novel in counterbalanced order. Heart rate, cardiac respiratory sinus arrhythmia (RSA), and blood pressure were measured in both studies. Additional measures derived from impedance cardiography were obtained in Study 2. Results: In both studies, participants displayed significantly greater increases in RSA while meditating than while engaging in other relaxing activities. A significant decrease in cardiac pre-ejection period was observed while participants meditated in Study 2. This suggests that simultaneous increases in cardiac parasympathetic and sympathetic activity may explain the lack of an effect on heart rate. Female participants in Study 2 exhibited a significantly larger decrease in diastolic blood pressure during meditation than the novel, whereas men had greater increases in cardiac output during meditation compared to the novel. Conclusions: The results indicate both similarities and differences in the physiological responses to body scan meditation and other relaxing activities.

Via Mind Hacks

Synesthete.org is a website where you can test yourself for synaesthesia - the condition where senses are crossed so, for example, you might be able to taste shapes or see colours associated with specific numbers. The site is run by the Eagleman Lab at the Baylor College of Medicine.

Via the Neurophilosopher

Josh Bongard, Victor Zykov and Hod Limpton of Cornell University’s Computational Synthesis Laboratory have designed and built the Black Starfish, a four-legged robot which “automatically synthesizes a predictive model of its own topology (where and how its body parts are connected) through limited yet self-directed interaction with its environment, and then uses this model to synthesize successful new locomotive behavior before and after damage.”

Via Neurobot 

Brain-machine interfaces promise to aid paralyzed patients by re-routing movement-related signals around damaged parts of the nervous system.

a web focus by Nature