European Home Mechanical Ventilation Registry
Pulmonary DiseaseChronic Obstructive9 moreThe European Home Mechanical Ventilation Registry (EHMVR) will enable a thorough evaluation of HMV by documenting the characteristics of HMV patients and their treatment. This will facilitate a prospective, observational study to identify the primary indications for HMV, describe patterns of HMV use in European countries, and characterize changes in the initiation and utilization of HMV over time. The registry will target all adult individuals who have an indication for HMV. In the EHMVR, patient data from routine clinical care will be documented using an electronic case report form (eCRF). The eCRF will record: patient demographic data; diagnostic information (including primary diagnosis, 6-minute walk time, the presence of depression, and quality of life); blood gases; ventilation treatment (including type of ventilator, modes and settings, interfaces used); follow-up data (including failure rates, side effects, technical issues). An initial Pilot Phase will be launched with the aim to enrol at least 200 patients over a 6-month period to determine the feasibility of the registry. Steering committee members and their institutions will be the main participants in the Pilot Phase. After completion of the Pilot Phase, the registry will be expanded across Europe with the goal of enrolling approximately 10,000 patients over 5 years.
Reciprocating Gait Orthoses for Paraplegia Patients
MyelomeningoceleSpinal Cord Injury1 moreAmbulation would bring many physiological and psychological benefits and getting up and walking has been a dream for paraplegia patients.The reciprocating gait orthoses (RGOs) for paraplegics particularly draws research attentions because it mimics human gait pattern.But, the high energy consumption and low walking speeds caused the frequent abandonment or the low utilization of the reciprocating gait orthoses.To improve the design reducing the energy expenditure, it requires biomechanical analysis of the pathological gait such that the gait deviations and energy consuming mechanisms can be identified and remedial means can be implemented. The investigators hypotheses will include that there would exist an energy saving mechanism of human reciprocating locomotion based on the principle of conservation of mechanical energy.Secondly, kinematic and kinetic gait determinants could be derived from the energy saving mechanism. Finally, the control of knee joint coordinating with the hip joint movements would facilitate the gait progression and further reduce the energy consumption. The objective of this clinical trial is to evaluate the gait of paraplegic patients with reciprocating gait orthoses and to support the investigators research in biomechanical analysis, design and control of reciprocating gait orthoses for paraplegia patients. An experiment to study the pathological gait of paraplegia patients with an existing reciprocating gait orthosis will be carried out.
Autologous Mesenchymal Stem Cells Transplantation in Cervical Chronic and Complete Spinal Cord Injury...
Spinal Cord InjuryThe purpose of this study is to analyze the safety and efficacy of autologous bone marrow mesenchymal stem cell transplantation in patients with cervical chronic and complete spinal cord injury.
Autologous Mesenchymal Stem Cells Transplantation in Thoracolumbar Chronic and Complete Spinal Cord...
Spinal Cord InjuryThe purpose of this study is to analyze the safety and efficacy of autologous bone marrow mesenchymal stem cell transplantation in patients with thoracolumbar chronic and complete spinal cord injury.
The Reversal of Neuromuscular Adaptation in Human With Spinal Cord Injury II
Spinal Cord Injury(SCI)Following injury to the spinal cord, the spinal circuit undergoes a series of adaptations. In parallel with the spinal circuit adaptation, the muscular properties also adapt. In human and animal studies, histochemical and physiological evidences showed that the paralyzed muscle transferred from slow, fatigue-resistant to fast, fatigable after injury. Reversal of neuromuscular property for persons with SCI needs to be resolved. Studies using high load electrical stimulations showed a reverse change of muscular properties, such as hypertrophy and reversal of fiber type transformations but failed to show a reversal of spinal circuitry function. Previous studies found that fast continuous passive motion (CPM) altered the H reflex excitability in human. Animal studies found that passive cycling and passive stretching delayed atrophy and influenced the transition of type I and IIa MHC. Theses findings lead to a hypothesis that mechanical stimulation might be able to reverse both spinal circuitry and muscular properties after SCI but it has not been confirmed in human study. The purpose of this project is to investigate the effect of mechanical stimulation by fast CPM on the reversing adaptation of human paralyzed muscle after SCI.
Monoaminergic Modulation of Motor Function in Subacute Incomplete Spinal Cord Injury (SCI)
Spinal Cord InjuryThe primary goal of the proposed clinical trial is to investigate the combined effects of walking training and monoaminergic agents (SSRIs and TIZ) on motor function of individuals in sub-acute (2-7 mo) human motor incomplete Spinal Cord Injury (SCI), with a primary emphasis on improvement in locomotor capability. We hypothesize that the use of these drugs applied early following SCI may facilitate independent stepping ability, and its combination with intensive stepping training will result in improved locomotor recovery following incomplete SCI. Loss of descending control via norepinephrine inputs following spinal cord injury can impair normal sensorimotor function through depressing motor excitability and impairing walking capacity. Replacing these inputs with drugs can alter the excitability and assist with reorganization of locomotor circuits. Assessment of single-dose administration of these agents has been tested in patients with motor incomplete spinal cord injury; only limited changes in walking performance have been noted. The resultant onset of weakness and increase in involuntary reflexes following motor incomplete SCI may partly be a result of damage to descending pathways to the spinal cord that control the release of serotonin. In models of SCI, for example, application of agents that simulate serotonin has been shown to change voluntary motor behaviors, including improvement of walking recovery. In humans following neurological injury, the effects of 5HT agents are unclear. Few previous reports indicate improved motor function following administration of agents which enhance the available serotonin in the brain, although some data suggests that increased serotonin may be beneficial. In this application, we propose to study the effects of clinically used agents that increase or decrease intrinsic serotonin activity in the brain on strength and walking ability following human motor incomplete SCI. Using detailed electrophysiological recordings, and biomechanical and behavioral measures, we will determine the effects of single or chronic doses of these drugs on voluntary and involuntary motor behaviors during clinical measures and walking measures. The novelty of this proposed research is the expectation that agents that increase serotonin activity may increase abnormal reflexes in SCI, but simultaneously help to facilitate motor and walking recovery. Despite potential improvements in voluntary function, the use of pharmacological agents that may enhance spastic motor behaviors following SCI is in marked contrast to the way in which drugs are typically used in the clinical setting.
Respiratory Event-Related Potentials in Patients With Spinal Cord Injury
Spinal Cord InjuryDyspnea is "a subjective experience of breathing discomfort that consists of qualitatively distinct sensations that vary in intensity". It is known that sensory information from the respiratory system activates regions of the cerebral cortex to produce the perception of dyspnea but far less is known about the neurophysiology of dyspnea than about vision, hearing, or even pain. Dyspnea likely arises from multiple nervous system sources, but the exact locations have not been well identified. Investigations of the mechanisms underlying respiratory sensations have included studies of airway anesthesia, chest wall strapping, exercise, heart-lung transplantation, hyperventilation, and opioid use. Study of the perception of breathing sensations in individuals with a spinal cord injury presents additional opportunity. The goal of the proposed project is to examine the effects of increasingly severe levels of spinal cord injury on the perception of breathing sensations in participants who are able to breathe without the use of a ventilator. The investigators hypothesize that the perception of breathing varies with the extent of somatosensory information that reaches cerebral cortex.
Neural Stem Cell Transplantation in Traumatic Spinal Cord Injury
Spinal Cord InjuryThis research investigates the use of autologous neural stem cells in patients with complete traumatic spinal cord injury.
Use of Prokinetics During Inpatient Bowel Care for SCI Patients
Spinal Cord InjuryNeurogenic BowelBowel care (BC) is a time-consuming and cumbersome activity of daily living for most individuals with SCI. Previous studies have reported that the average time to complete a BC routine is 45 minutes; 10-20% of SCI individuals report BC routines lasting for more than 1 hour. In past studies, the investigators have shown that a medication called neostigmine can increase bowel activity and thus, promote bowel movement. The investigators have successfully used this medication with traditional and novel methods of colonoscopic preparations, and have shown that it improves the quality of these preparations. In this study, we would like to test the applicability of this medication to bowel care routines. The investigators believe that the addition of this medication to the beginning of regular bowel regiments will significantly decrease the time and effort needed to complete BC, thus improving patient perception of their BC routines and quality of life. SCI individuals followed by the James J Peters VA Medical Center (JJPVAMC) SCI Medical Service are admitted on a routine basis for inpatient respite care, therapy, and/or annual physicals. Such inpatient stays typically range in duration from 1 week to 3 weeks, during which the patient undergo BC routines assisted by the inpatient care team. BC routines are typically performed every other day, or thrice weekly (Monday, Wednesday, Friday) in "Blue Rooms" located on the inpatient SCI wards (IE and ID). The bowel care routine, including duration of procedure, use of assistive medications or devices, and completeness of bowel care are documented in the patients' electronic medical chart (CPRS) by care providers. The investigators propose to perform the described protocol in individuals who have been admitted to the hospital for routine care and are otherwise healthy. In doing so, the investigators can ensure that patients are vigilantly monitored during each BC session, and that any changes in BC pattern are accurately observed and documented. Furthermore, by performing these procedures on an inpatient basis, study investigators can ensure the consistency of care and daily routine, allowing for better control of study conditions.
Medical Device for Magnetic Therapy for Spinal Cord Injuries (SCI)
Spinal Cord InjuryStrokeA medical device for magnetic therapy for spinal cord injuries (SCI) will be disclosed. The apparatus comprises a combination of several magnets enclosed in a supportive cover. The magnets are placed in a proper position and their polarity can be changed at any time without any difficulty.