Teamwork, interprofessional practice and learning are integral to current interdisciplinary research and health care – such approach can maximize professional resources and optimize outcomes. The development of modern technologies associated with medical sciences, and the variability of possible neurological deficits, interventions, and even scales makes this task very difficult. The key problem is regarded successful transition of students to competent work-ready professionals. Current models of education and cooperation within interdisciplinary teams may be not enough flexible. This chapter, based on own experiences from InteRDoCTor project, tries to answer the question: how shape interdisciplinary education and how their results may be wider incorporated into research and clinical practice?
Recent demographic prognoses show tendencies toward a significant increase in the number of elderly people, especially in developed countries. This makes geriatric therapy, rehabilitation, and care difficult, especially with maintaining as long as possible the highest quality of life and independence in activities of daily living. Lack of specialized personnel and financial shortages may cause increased application of Assistive Technology (AT) and associated control devices. The most advanced current devices for diagnosis, communication, and control purposes are perceived Brain-Computer Interfaces (BCIs). BCIs use brain-derived bioelectrical signals as an input to enable diagnosis, communication, and/or control (e.g. neuroprostheses, medical robots, wheelchairs, whole integrated environments) without any movement. BCIs are regarded as novel solutions offering another breakthrough in everyday life, care, therapy, and rehabilitation in patients with severe sensory and neuropsychological deficits. However, particular issues in the area of BCIs use in elderly people should be emphasized, including influence of neurodegenerative disorders accompanied with secondary changes resulting from other medical problems (e.g. heart diseases, hypertension, diabetes mellitus, and osteoporosis), co-occurence of various drug therapies, etc. This chapter investigates the extent to which the available opportunities are being exploited, including both chances and limitations, medical, technical, psychological, societal, ethical, and legal issues.
Recent demographic prognoses show tendencies toward a significant increase in the number of elderly people, especially in developed countries. This makes geriatric therapy, rehabilitation, and care difficult, especially with maintaining as long as possible the highest quality of life and independence in activities of daily living. Lack of specialized personnel and financial shortages may cause increased application of Assistive Technology (AT) and associated control devices. The most advanced current devices for diagnosis, communication, and control purposes are perceived Brain-Computer Interfaces (BCIs). BCIs use brain-derived bioelectrical signals as an input to enable diagnosis, communication, and/or control (e.g. neuroprostheses, medical robots, wheelchairs, whole integrated environments) without any movement. BCIs are regarded as novel solutions offering another breakthrough in everyday life, care, therapy, and rehabilitation in patients with severe sensory and neuropsychological deficits. However, particular issues in the area of BCIs use in elderly people should be emphasized, including influence of neurodegenerative disorders accompanied with secondary changes resulting from other medical problems (e.g. heart diseases, hypertension, diabetes mellitus, and osteoporosis), co-occurence of various drug therapies, etc. This chapter investigates the extent to which the available opportunities are being exploited, including both chances and limitations, medical, technical, psychological, societal, ethical, and legal issues.
Information technology becomes important part of the current state of the art within health sciences. It allows to gather and analyze biomedical signals and data sets in the more efficient way, and provide better insight into evidences due to metabases and decision support systems based on computational intelligence. Social changes, development of IT systems and shortages in number of specialists, specialistic equipment and budget can stimulate quicker development of cheaper semi-automated solutions increasing both accurateness of the diagnosis and the safety of patients. This chapter aims to describe the concept of the development of the heath care and professional training based on current achievements within technology, education, E-Health and patient-tailored therapy. The authors try to answer the question: how current results can be developed and incorporated into scientific research and clinical practice?
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