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Apr 17, 2007

New technologies in stroke rehabilitation

New technologies and concepts for rehabilitation in the acute phase of stroke: a collaborative matrix.

Neurodegener Dis. 2007;4(1):57-69

Authors: Siekierka EM, Eng K, Bassetti C, Blickenstorfer A, Cameirao MS, Dietz V, Duff A, Erol F, Ettlin T, Hermann DM, Keller T, Keisker B, Kesselring J, Kleiser R, Kollias S, Kool JP, Kurre A, Mangold S, Nef T, Pyk P, Riener R, Schuster C, Tosi F, Verschure PF, Zimmerli L

The process of developing a successful stroke rehabilitation methodology requires four key components: a good understanding of the pathophysiological mechanisms underlying this brain disease, clear neuroscientific hypotheses to guide therapy, adequate clinical assessments of its efficacy on multiple timescales, and a systematic approach to the application of modern technologies to assist in the everyday work of therapists. Achieving this goal requires collaboration between neuroscientists, technologists and clinicians to develop well-founded systems and clinical protocols that are able to provide quantitatively validated improvements in patient rehabilitation outcomes. In this article we present three new applications of complementary technologies developed in an interdisciplinary matrix for acute-phase upper limb stroke rehabilitation - functional electrical stimulation, arm robot-assisted therapy and virtual reality-based cognitive therapy. We also outline the neuroscientific basis of our approach, present our detailed clinical assessment protocol and provide preliminary results from patient testing of each of the three systems showing their viability for patient use. Copyright (c) 2007 S. Karger AG, Basel.

20:23 Posted in Cybertherapy | Permalink | Comments (0) | Tags: cybertherapy

Virtual reality in mental health

Virtual reality in mental health: A review of the literature.

Soc Psychiatry Psychiatr Epidemiol. 2007 Mar 12;

Authors: Gregg L, Tarrier N

BACKGROUND: Several virtual reality (VR) applications for the understanding, assessment and treatment of mental health problems have been developed in the last 10 years. The purpose of this review is to outline the current state of virtual reality research in the treatment of mental health problems. METHODS: PubMed and PsycINFO were searched for all articles containing the words "virtual reality". In addition a manual search of the references contained in the papers resulting from this search was conducted and relevant periodicals were searched. Studies reporting the results of treatment utilizing VR in the mental health field and involving at least one patient were identified. RESULTS: More than 50 studies using VR were identified, the majority of which were case studies. Seventeen employed a between groups design: 4 involved patients with fear of flying; 3 involved patients with fear of heights; 3 involved patients with social phobia/public speaking anxiety; 2 involved people with spider phobia; 2 involved patients with agoraphobia; 2 involved patients with body image disturbance and 1 involved obese patients. There are both advantages in terms of delivery and disadvantages in terms of side effects to using VR. Although virtual reality based therapy appears to be superior to no treatment the effectiveness of VR therapy over traditional therapeutic approaches is not supported by the research currently available. CONCLUSIONS: There is a lack of good quality research on the effectiveness of VR therapy. Before clinicians will be able to make effective use of this emerging technology greater emphasis must be placed on controlled trials with clinically identified populations.

20:12 Posted in Cybertherapy | Permalink | Comments (0) | Tags: virtual worlds

Virtual reality and acupuncture research

Preliminary study on force feedback of acupuncture in virtual reality based on the visible human

Zhongguo Yi Liao Qi Xie Za Zhi. 2007 Jan;31(1):5-9

Authors: Cheng Z, Wang HS, Min YJ, Yan ZG, Hong ZT, Zhuang TG

This paper discusses the application of virtual reality technology in the 3-D visible human body and acupuncture research. Based on the 3-D visible human fused with the localization information and hierarchy of acupoints, the paper analyzes the force against the needle and haptic rendering during the needle manipulation according to the physical properties of different tissues. A haptic model is constructed to demonstrate the force behaviors during acupuncture, and the force will be produced and passed to the manipulator by a force feedback device. It enriches the contents of 3-D visible human project, provides a dynamic simulation instrument for acupuncture teaching, and supplies a platform for acupuncture research.

20:11 Posted in Virtual worlds | Permalink | Comments (0) | Tags: virtual worlds

Dandheld device for the diagnosis of brain injury

Via Medgadget

 

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From the Press Release: InfraScan Announces First Patients Enroll in Clinical Trial in Brain Hematoma Detection (PDF)

 

Infrascanner™ is a hand-held, non-invasive, near-infrared (NIR) based mobile imaging device to detect brain hematoma at the site of injury within the "golden hour". This refers to the period following head trauma when pre-hospital analysis is needed to rapidly assess the neurological condition of a victim. Pending FDA clearance, the Infrascanner™ will be an affordable, accurate and clinically effective screening solution for head trauma patients in settings where timely triage is critical. It is intended to aid the decision to proceed with other tests such as head Computed Tomography (CT) scans. In environments where access to CT scan is restricted or not available, Infrascanner™ will facilitate surgical intervention decisions. The InfraScanner™ can be a practical solution to the problem of early identification of intracranial hematomas because of the unique light-absorbing properties of hemoglobin and the non-invasive, non-ionizing nature of NIR technology. The basic method for Hematoma detection is based on the differential light absorption of the injured vs. the non-injured part of brain. Under normal circumstances, the brain's absorption should be symmetrical. When additional underlying extra vascular blood is present due to internal bleeding, there is a greater local concentration of hemoglobin and consequently the absorbance of the light is greater while the reflected component is commensurately less. This differential can be detected via sources and detectors placed on symmetrical lobes of the skull. The science of diffused optical tomography used by the Infrascanner™ enables the conversion of light differential data into interpretative scientific results. The Infrascanner™ unit is a small, portable handheld device based on a PDA platform with wireless detector probes.

19:59 Posted in Cybertherapy | Permalink | Comments (0) | Tags: cybertherapy