38 research outputs found
Does Pilocarpine-Induced Epilepsy in Adult Rats Require Status epilepticus?
Pilocarpine-induced seizures in rats provide a widely animal model of temporal lobe epilepsy. Some evidences reported in the literature suggest that at least 1 h of status epilepticus (SE) is required to produce subsequent chronic phase, due to the SE-related acute neuronal damage. However, recent data seems to indicate that neuro-inflammation plays a crucial role in epileptogenesis, modulating secondarily a neuronal insult. For this reason, we decided to test the following hypotheses: a) whether pilocarpine-injected rats that did not develop SE can exhibit long-term chronic spontaneous recurrent seizures (SRS) and b) whether acute neurodegeneration is mandatory to obtain chronic epilepsy. Therefore, we compared animals injected with the same dose of pilocarpine that developed or did not SE, and saline treated rats. We used telemetric acquisition of EEG as long-term monitoring system to evaluate the occurrence of seizures in non-SE pilocarpineinjected animals. Furthermore, histology and MRI analysis were applied in order to detect neuronal injury and neuropathological signs. Our observations indicate that non-SE rats exhibit SRS almost 8 (+/22) months after pilocarpine-injection, independently to the absence of initial acute neuronal injury. This is the first time reported that pilocarpine injected rats without developing SE, can experience SRS after a long latency period resembling human pathology. Thus, we strongly emphasize the important meaning of including these animals to model human epileptogenesis in pilocarpine induced epilepsy
Pilocarpine-Induced Status Epilepticus in Rats Involves Ischemic and Excitotoxic Mechanisms
The neuron loss characteristic of hippocampal sclerosis in temporal lobe epilepsy patients is thought to be the result of excitotoxic, rather than ischemic, injury. In this study, we assessed changes in vascular structure, gene expression, and the time course of neuronal degeneration in the cerebral cortex during the acute period after onset of pilocarpine-induced status epilepticus (SE). Immediately after 2 hr SE, the subgranular layers of somatosensory cortex exhibited a reduced vascular perfusion indicative of ischemia, whereas the immediately adjacent supragranular layers exhibited increased perfusion. Subgranular layers exhibited necrotic pathology, whereas the supergranular layers were characterized by a delayed (24 h after SE) degeneration apparently via programmed cell death. These results indicate that both excitotoxic and ischemic injuries occur during pilocarpine-induced SE. Both of these degenerative pathways, as well as the widespread and severe brain damage observed, should be considered when animal model-based data are compared to human pathology
Use of an innovative model to evaluate mobility in seniors with lower-limb amputations of vascular origin: a pilot study
<p>Abstract</p> <p>Background</p> <p>The mobility of older individuals has often been only partially assessed, without considering all important aspects such as potential (available) versus effective (used) mobilities and the physical and psychosocial factors that modulate them. This study proposes a new model for evaluating mobility that considers all important aspects, applied here to lower-limb amputees with vascular origin. This model integrates the concepts of potential mobility (e.g. balance, speed of movement), effective mobility (e.g. life habits, movements in living areas) and factors that modulate these two types of mobility (e.g. strength, sensitivity, social support, depression). The main objective was to characterize potential and effective mobility as well as mobility modulators in a small sample of people with lower-limb amputations of vascular origin with different characteristics. The second objective of this pilot study was to assess the feasibility of measuring all variables in the model in a residential context.</p> <p>Methods</p> <p>An observational and transversal design was used with a heterogeneous sample of 10 participants with a lower-limb amputation of vascular origin, aged 51 to 83, assessed between eight and 18 months after discharge from an acute care hospital. A questionnaire of participant characteristics and 16 reliable and valid measurements were used.</p> <p>Results</p> <p>The results show that the potential mobility indicators do not accurately predict effective mobility, i.e., participants who perform well on traditional measures done in the laboratory or clinic are not always those who perform well in the real world. The model generated 4 different profiles (categories) of participants ranging from reduced to excellent potential mobility and low to excellent effective mobility, and characterized the modulating factors. The evaluations were acceptable in terms of the time taken (three hours) and the overall measurements, with a few exceptions, which were modified to optimize the data collected and the classification of the participants. For the population assessed, the results showed that some of the negative modulators (particularly living alone, no rehabilitation, pain, limited social support, poor muscle strength) played an important role in reducing effective mobility.</p> <p>Conclusion</p> <p>The first use of the model revealed interesting data that add to our understanding of important aspects linked to potential and effective mobility as well as modulators. The feasibility of measuring all variables in the model in a residential context was demonstrated. A study with a large number of participants is now warranted to rigorously characterize mobility levels of lower-limb amputees with vascular origin.</p
Sensor technology for smart homes
A smart home is a residence equipped with technology that observes the residents and provides proactive services. Most recently, it has been introduced as a potential solution to support independent living of people with disabilities and older adults, as well as to relieve the workload from family caregivers and health providers. One of the key supporting features of a smart home is its ability to monitor the activities of daily living and safety of residents, and in detecting changes in their daily routines. With the availability of inexpensive low-power sensors, radios, and embedded processors, current smart homes are typically equipped with a large amount of networked sensors which collaboratively process and make deductions from the acquired data on the state of the home as well as the activities and behaviors of its residents. This article reviews sensor technology used in smart homes with a focus on direct environment sensing and infrastructure mediated sensing. The article also points out the strengths and limitations of different sensor technologies, as well as discusses challenges and opportunities from clinical, technical, and ethical perspectives. It is recommended that sensor technologies for smart homes address actual needs of all stake holders including end users, their family members and caregivers, and their doctors and therapists. More evidence on the appropriateness, usefulness, and cost benefits analysis of sensor technologies for smart homes is necessary before these sensors should be widely deployed into real-world residential settings and successfully integrated into everyday life and health care services. © 2011 Elsevier Ireland Ltd. All rights reserved
Using Architecture and Technology to Promote Improved Quality of Life for Military Service Members with Traumatic Brain Injury
Today, injured service members are surviving wounds that would have been fatal in previous wars. A recent RAND report estimates that approximately 320,000 service members may have experienced a traumatic brain injury (TBI) during deployment, and it is not uncommon for a soldier to sustain multiple associated injuries such as limb loss, paralysis, sensory loss, and psychological damage. As a result, many military service members and their families face significant challenges returning to a high quality of independent life. The architectural concepts of universal design (UD) and evidence-based design (EBD) are gaining interest as an integral part of the rehabilitation process of veterans with TBI. This article examines the possibilities presented by UD and EBD in accordance with the Americans with Disabilities Act of 1990, in terms of high-end building and interior design quality, and possible technological options for individuals with disabilities. © 2010 Elsevier Inc. All rights reserved
Review of research on prosthetic devices for lower extremity amputation
The literature on lower extremity prostheses from 1989 to 2006 has been reviewed in this article. New technologies, such as the microprocessor- controlled prosthetic knees and energy-storing/return prosthetic feet, are recent advances in the prosthetic field. Despite the extensive research to date in the areas of socket design and manufacturing, and alignment of prostheses for optimum gait analyses, problems persist in the field. Difficulties in obtaining a comfortable socket fit, prostheses weight and alignment guidelines, and the ability to rapidly manufacture a prosthetic socket that can accommodate the changing sizes of the residual limb persist. Furthermore, no prosthetic device can adjust to the typical movements of the human gait. These areas provide opportunities for further research and development. © 2006 by Begell House, Inc
Upper Limb Nerve Entrapment Syndromes in Veterans With Lower Limb Amputations
Objective: To examine the prevalence and severity of upper limb entrapment syndromes in a sample of veterans with lower limb amputations. Design: A descriptive survey, pilot study. Setting: 2008 National Disabled Veterans Winter Sports Clinic. Participants: Twenty participants with various lower limb amputations. Methods: All study participants completed a questionnaire that included symptoms of both upper limbs, medical history, time since amputation, medication history, use of assistive technology, and wheelchair characteristics. A physical examination and electrodiagnostic testing were then performed on each participant. The physical examination included an assessment of bilateral upper limb weakness or sensory abnormalities, thenar/hypothenar atrophy, deep tendon reflexes, Tinel test of the wrist and elbow, and the Phalen maneuver. All nerve conduction studies were performed by an American Board of Electrodiagnostic Medicine-certified physiatrist. Outcome Measures: Correlation between symptoms, examination findings, and electrodiagnostic findings with the participant's demographic data in the questionnaire. Results: Twenty participants (19 men and 1 woman) were enrolled in the study, with a total of 38 upper limbs evaluated. The mean age of the study population was 59 ± 13 years, with an average of 23 years since the amputation. Sixteen (80%) of 20 participants had electrodiagnostic findings consistent with median neuropathy across the wrist (26/38 affected limbs, 6 participants with unilateral and 10 with bilateral findings), and 14 (70%) of 20 participants had ulnar entrapment neuropathy across the elbow (22/38 affected limbs, 6 participants with unilateral and 8 with bilateral findings). Several participants (6 of 20, 30%) were found to have electrodiagnostic evidence of ulnar entrapment neuropathy across the wrist (10 of 38 affected limbs, 2 participants unilateral and 4 bilateral findings). Conclusion: A high number of veterans with lower limb amputations presented with upper limb nerve entrapment syndromes. Careful attention to these nerve entrapment syndromes in lower limb amputees is necessary because the symptoms may be confounded by other chronic pain-related disorders. © 2010 American Academy of Physical Medicine and Rehabilitation