View clinical trials related to Neurological Diseases.
Filter by:This open label trial is conducted to investigate the efficacy and safety of allogeneic umbilical cord blood therapy for adult patients with neurological diseases.
The research will aim to evaluate biofeedback rehabilitation and optical oximetry assessment in neurological patients and the influence of blood parameters on the effect of the rehabilitation carried out. An additional aim will be to evaluate components of body weight, lifestyle, dietary habits, assessment of mental state, quality of life among the study subjects.
This project has focus on patients in palliation testing a digital platform TelePal.dk.
Learning a person's name, new words, or simply remembering where the last conversation with a friend was held are examples of associative memory, frequently disturbed in brain pathologies, but also by aging. Although typically dependent on the hippocampus in the brain, a series of findings suggest that associative memory may persist, under certain circumstances, despite hippocampal damage. The ANéRAVIMM project aims to reveal this learning system, its cognitive and cerebral bases, and to evaluate its potential in patients with memory disorders.
Parameters, sequences or paradigms optimisation in view of data quality and relevancy improvement.
White matter tracts connect cortical areas to other parts of the cortex, to basal ganglia and to the brain stem and spinal cord. These tracts form the internal part of the brain and transmit the nervous impulses. Changes in brain white matter may serve as biomarkers for numerous neurological diseases. Diffusion Weighted Imaging (DWI) is a non-invasive MRI (Magnetic Resonance Imaging) technique providing information on white matter tracts (tractography) by studying water diffusion. Since it is based on complex mathematical models that only indirectly evaluates the underlying anatomy, tractography need to be validated before being used for research and clinical purposes. Several validation techniques were previously proposed, none of them being fully convincing in human.
In Israel, because of special qualification in neurogenetics, during a 30 year career ,we have found, characterized and treated at least 13 novel neurological diseases. The genetic basis was elucidated with geneticist colleagues both in Israel and worldwide. The diseases we have found encompass all the fields of pediatric neurology including intellectual disability, epilepsy, muscle-nerve disorders, malformations of the brain, microcephaly, macrocephaly, cerebellar ataxia, chorea. dystonia, cerebral palsy and many other symptoms and signs. We are especially interested in consanguineous families, in whom the parents are first or second degree cousins. These families often bear autosomal - recessive diseases. If the family is informative - with 2 or more affected children - then with current genetic techniques there is a good chance of finding the causative gene to this specific disease. This is not only a theoretical - academic accomplishment. In practice, after discovering the gene, the family is given genetic counseling and in their further pregnancies the geneticists will examine either by preimplantation genetic diagnosis (PGD) or amniocentesis if the embryo is affected or not. In the early stages of the pregnancy if the embryo is indeed affected by the disease caused by the gene we have found and the religious official consents, genetic counseling can offer termination of pregnancy to the couple. Needless to say, we know the immense burden of an affected child on the family, community and society. The parents are guilt-ridden, the affected child draws extensive resources from educational, health and rehabilitation authorities. We can contribute to the well-being of the family and the clan (because many times the relatives are affected). We can perform sophisticated genetic studies such as Whole Genome Sequencing and Whole Exome Sequencing.After an informative family is recruited to the study, we will explain the aims of the research. The parents and eligible patients will sign informed consent forms, according to the local Helsinki Board. Blood samples will be taken in Israel, DNA extracted in the Israeli lab and then shipped coded to the researchers in USA or Germany. If the researchers will find a new gene the family will be notified and given appropriate genetic counseling. We will continue to follow and treat the family onwards.
The purpose of our study is to determine the safety and efficacy of the combination of erythropoietin (EPO) and granulocyte-colony stimulating factors (G-CSF) in patients with neurological diseases. To be specific, our clinical study is expected that the combination injection of EPO and G-CSF shows neurotrophic and neuroprotective effects by facilitating endogenous repair process in patients with neurological diseases including stroke, cerebral palsy, or atypical parkinsonism. Therefore, we will apply our original treatment technique in patients with neurological diseases, which is expected to overcome current ethical and technical limitations of less evidenced functional recovery, hematological changes, and side effects. Eventually, We will establish a comprehensive clinical background about neurotrophic and neuroprotective effects of this hematopoietic growth factors therapy.
All eligible patients who will have neurosurgery at Barrow Neurological Institute (BNI) between March 1, 2013 and February 28, 2014 will be enrolled as part of this study that will look at the flow of staff people in and out of the operating room during surgeries and the effect that the number of people may have on the rate of infections in the surgical sites.
This study examines the prognostic properties of immune parameters, clinical scores, electrophysiological tests (eeg, ssep, emg, eng) and functional imaging for the prediction of functional outcome one year after treatment on a neurological intensive care unit.