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6th International Conference on Medical Informatics & Telemedicine, will be organized around the theme “Innovative information technologies for the improvement of patient care”

Medical Informatics 2018 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Medical Informatics 2018

Submit your abstract to any of the mentioned tracks.

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Medical informatics is the application of computers, communications and information technology and systems to all fields of medicine - medical caremedical education and medical research. The definition of Medical Informatics is dynamic due to the rapidly changing nature of both medicine and technology the sharing of a variety of information back and forth between people and healthcare entities. Medical Informatics is a new, exciting and evolving field. New specialties and careers are now possible. The expectation is that information technology will improve medical quality, patient safety, educational resources and patient-physician communication, while decreasing cost. Applied Medical Informatics studies the dispensation of medical statistics, the potent, management of information using computer technology, and the impact of such methods on medical research, education.To more details: Telemedicine Conferences

  • Track 1-1Behavioural science
  • Track 1-2Clinical Internet applications
  • Track 1-3Statistical methods in medicine
  • Track 1-4Computing methodology and software systems
  • Track 1-5Evaluation of clinical practice
  • Track 1-6Primary Care Epidemiology
  • Track 1-7Scientific fundamentals of processing data
  • Track 1-8Cellular engineering and molecular imaging
  • Track 1-9Biometric Technologies

Telemedicine is the use of telecommunication and information technologies to provide clinical and medical health care at a distance. It helps to eliminate distance barriers and can improve access to clinical services that would often not be consistently available in distant rural communities. It is also used to save lives in critical care and emergency situations. Although there were distant precursors to telemedicine, it is essentially a product of 20th century telecommunication and information technologies. These technologies permit communications between patient and medical staff with both convenience and loyalty, as well as the transmission of medical, imaging and health informatics data from one site to another. It is a process for accurate data collection in digital format and an electronic medical record for data incorporation and remote transmission Telemedicine is a system for automatically flagging and providing feedback for outlier data.To more details: Telemedicine Conferences

  • Track 2-1Telemedicine and Medicare
  • Track 2-2Telemedicine and Dermatology
  • Track 2-3Telemedicine and Cardiology
  • Track 2-4Telemedicine and Ophthalmology
  • Track 2-5Telemedicine and Oncology
  • Track 2-6Telemedicine and Obstetrics
  • Track 2-7Telehealth and behavioural treatment

Biomedical Informatics is the field that is concerned with the optimal use of information, often aided by the use of technology and people, to improve individual health, health care, public health, and biomedical research. Biomedical technology broadly refers to the application of engineering and technology principles to the domain of living or biological systems. Usually inclusion of the term biomedical denotes a principal emphasis on problems related to human health and diseases, whereas terms like "biotechnology" can be medical, environmental, or agricultural in application. But most terms in this general realm still lack clear boundaries. Biomedical engineering and Biotechnology  alike are often loosely called Biomedical Technology or Bioengineering. Biomedical Informatics is the field that is concerned with the optimal use of information, often aided by the use of technology and people, to improve the individual health, health care, public health, and biomedical research.To more details: Telemedicine Conferences

  • Track 3-1Machine learning in Bioinformatics
  • Track 3-2Biomedical services and outcomes Research
  • Track 3-3Biomedical healthcare and nursing
  • Track 3-4Advances in Biomedical Technology
  • Track 3-5Biomedical materials research
  • Track 3-6Biomedical Device Design and Standards
  • Track 3-7Biomedical Signal/Image Analysis
  • Track 3-8Biomedical Computing

Health Systems informatics (HSI) is a healthcare consulting firm and mainly focused on delivering high-quality consulting and support services enabling healthcare institutions to meet the ARRA and HITECH requirementsthrough efficient Electronic Medical Record (EMR) accomplishment and optimization resulting in relevant Use. Built on a justification of strapping, diverse, healthcare talent and a “clients as partners” business criteria, HIS was started   to provide   support in today’s ever-changing healthcare society.To more details: Telemedicine Conferences

  • Track 4-1Health Services
  • Track 4-2Nutrition and Biological Systems
  • Track 4-3Nutrition and Metabolism
  • Track 4-4Health Nutrition
  • Track 4-5Nutrition and Infectious Diseases
  • Track 4-6Nutrition and Health Education
  • Track 4-7Nutrition and Health Polices
  • Track 5-1Electronic Information and Telecommunication
  • Track 5-2patient/clinician contact and care
  • Track 5-3robotic surgery
  • Track 5-4eHealth Diagnosis

The application of informatics to the practice of medicine and clinical care Providing clinicians, patients or individuals with knowledge and person-specific or population information, intelligently filtered or presented at appropriate times, to foster better health processes, better individual patient care, and better population health Clinical Informatics is to use modern technologies to advance our ability understand health and health problems, support translational research, develop effective interventions for healthcare delivery. Clinical informatics is so broad and touches so many different aspects of the practice of medicine that each of us comes at it from a slightly different perspective Clinical informaticians use their knowledge of patient care combined with their understanding of informatics concepts, methods, and medical informatics. The information and clinical choice backing included in this field are produced for and utilized by clinicians, patients, and guardians.To more details: Telemedicine Conferences

  • Track 6-1Nutrition Informatics
  • Track 6-2Clinical Data Warehouses
  • Track 6-3Clinical Informatics Factors
  • Track 6-4Clinical Research Informatics
  • Track 6-5Clinical Informatics Application
  • Track 6-6Medical Health Informatics

Health informatics is informatics in health care. It is a multidisciplinary field that uses health information technology (HIT) to improve health care via any combination of higher quality, higher efficiency (spurring lower cost and thus greater availability), and new opportunities. The disciplines involved include information science, computer science, social science, behavioral science, management science, and others. The NLM defines health informatics as "the interdisciplinary study of the design, development, adoption and application of IT-based innovations in healthcare services delivery, management and planning." To more details: Telemedicine Conferences

  • Track 7-1Healthcare Informatics Financial applications
  • Track 7-2Healthcare Informatics Alternative medicine
  • Track 7-3Healthcare Informatics and Medical Technology
  • Track 7-4Healthcare Informatics Flu
  • Track 7-5Healthcare Informatics Emerging Technology
  • Track 7-6Healthcare Informatics Advance Practices

Electronic Medical Record (EMR) implementation and optimization resulting in Meaningful Use. Built on a foundation of robust, diverse, healthcare talent and a “clients as partners” business philosophy, HSi was created to provide value and support in today’s ever-changing healthcare market. Electronic medical record (EMR) systems, defined as "an electronic record of health-related information on an individual that can be created, gathered, managed, and consulted by authorized clinicians and staff within one health care organization," have the potential to provide substantial benefits to physicians, clinic practices, and health care organizations. Health record is a gathering of data relating to a person’s physical and psychological wellness, ordered from distinctive sources. Despite these benefits, widespread adoption of EMRs in the United States is low; a recent survey indicated that only 4 percent of ambulatory physicians reported having an extensive, fully functional electronic records system and 13 percent reported having a basic system. To more details: Telemedicine Conferences

  • Track 8-1EHR Reports
  • Track 8-2Data Mining
  • Track 8-3EHR Implementation
  • Track 8-4EHR software
  • Track 8-5EHR Systems
  • Track 8-6Electronic Health Records

Nursing informatics is the specialty that integrates nursing science with multiple information management and analytical sciences to identify, define, manage, and communicate data, information, knowledge, and wisdom in nursing practice. NI supports nurses, consumers, patients, the inter professional healthcare team, and other stakeholders in their decision-making in all roles and settings to achieve desired outcomes. This support is accomplished through the use of information structures, information processes, and information technology. Nurse Practitioners are educated and trained to acquire knowledge for the promotion of health, diagnosis, primary health care and treatment of chronic conditions. To more details: Telemedicine Conferences

  • Track 9-1Nursing Informatics Research
  • Track 9-2E-Health and Nursing Informatics
  • Track 9-3Nursing Informatics Practice
  • Track 9-4Nursing Informatics Implementation
  • Track 9-5Nursing Informatics Methodology
  • Track 9-6Nursing Informatics Methodology
  • Track 9-7Nursing Informatics Management

Neuroinformatics is a research field concerned with the organization of neuroscience data by the application of computational models and analytical tools. These areas of research are important for the integration and analysis of increasingly large-volume, high-dimensional, and fine-grain experiment data. Neuroinformaticiansprovide computational tools, mathematical models, and create interoperable databases for clinicians and research scientists. Neuroscience is a heterogeneous field, consisting of many and various sub-disciplines (e.g., Cognitive Psychology, Behavioral Neuroscience, and Behavioral Genetics). In order for our understanding of the brain to continue to deepen, it is necessary that these sub-disciplines are able to share data and findings in a meaningful way; Neuroinformaticians facilitate this. Neural network a branch which deals with the brain studies, inspired with the branch new studies came to existence i.e. Artificial Neural Network. Neural network with its broad scope deals with Computer and brain interaction. To more details: Telemedicine Conferences

  • Track 10-1Computational Neuroscience
  • Track 10-2Neurotechnology
  • Track 10-3Brain Computer Interfaces
  • Track 10-4Electrophysiology
  • Track 10-5Molecular Biology
  • Track 10-6Neurological Diseases
  • Track 10-7Neuroscience Imaging
  • Track 10-8Behavioural Neurology
  • Track 10-9Neurosurgery

Public health refers to "the science and art of preventing disease, prolonging life and promoting health through organized efforts and informed choices of society, organizations, public and private, communities and individuals."  It is concerned with threats to health based on population health analysis. The population in question can be as small as a handful of people, or as large as all the inhabitants of several continents. Public health incorporates the interdisciplinary approaches of epidemiology, biostatistics and health services. Environmental health, community health, behavioral health, health economics, public policy, insurance medicine and occupational safety and health are other important subfields. To more details: Telemedicine Conferences

  • Track 11-1Public Health Informatics Types
  • Track 11-2Consumer Health Informatics
  • Track 11-3Population Health Informatics
  • Track 11-4Geographical Health Informatics
  • Track 11-5Epidemiology and Tropical Diseases
  • Track 11-6Epidemiology and Cancers
  • Track 11-7Epidemiology and Health Care
  • Track 11-8Epidemiology and Genomic Research

Health care technology implies application of formulated knowledge and skills in the form of devices, drugs, medicines, vaccines, procedures and systems developed to solve a health issues and improve quality of lives. This includes the pharmaceuticals, devices, procedures and organizational systems used in health care technology. It encompasses a wide range of healthcare products and mainly used to diagnose, monitor, treat diseases or medical conditions affecting humans. Earlier diagnostic methods, very low invasive treatment options and reductions in hospital stays are the   applications of health science which are intended to improve the quality of health care delivered. There are recent trends in health technology and the proliferation of health care is increasing day by day mainly they have also focused on cost reduction. Medical technology may be classified into medical devices, information technology and healthcare servicesTo more details: Telemedicine Conferences

  • Track 12-1Health Education
  • Track 12-2Biomedical Investigation
  • Track 12-3Computing
  • Track 12-4communications technology
  • Track 12-5Healthcare Industry
  • Track 12-6Healthcare Engineering
  • Track 12-7Healthcare Outsourcing

Biostatistics is the application of statistics to a wide range of topics in biology. The science of biostatistics encompasses the design of biological experiments, especially in medicine, pharmacy, agriculture and fishery; the collection, summarization, and analysis of data from those experiments; and the interpretation of, and inference from, the results. A major branch of this is medical biostatistics, which is exclusively concerned with medicine and health. They are most often found in schools of public health, affiliated with schools of medicine, forestry, or agriculture, or as a focus of application in departments of statistics. To more details: Telemedicine Conferences

  • Track 13-1Biostatistics in Clinical research
  • Track 13-2Biostatistics research and methodology
  • Track 13-3Statistical methods in diagnostic medicine
  • Track 13-4Basic Statistics of Biomarkers and Clinical Trials
  • Track 13-5Biostatistical methods in epidemiology
  • Track 13-6Biomedical Statistics
  • Track 13-7Biostatistics in healthcare
  • Track 13-8Ecological statistics
  • Track 13-9Biostatistics in genetics

Medical Informatics in Obstetrics and Gynecology provides industry knowledge and insight to challenges in the areas of informatics that are important to women's health. Covering topics such as ethical and legal issues, imaging and communication systems, and electronic health records, this Medical Information Science Reference publication provides medical libraries and researchers, as well as medical students, health technology specialists, and practicing physicians and nurses with unrivalled data on the role of technology in obstetrics and genecology. To more details: Telemedicine Conferences

  • Track 14-1Uro- Gynecology
  • Track 14-2Gynecological Endocrinology
  • Track 14-3Gynecological Oncology
  • Track 14-4Reproductive Medicine
  • Track 14-5Family Planning
  • Track 14-6Health-Related Behaviors In Women
  • Track 14-7Infertility
  • Track 14-8Prenatal Diagnosis

Health information technology (HIT) is information technology applied to health and health care. It supports health information management across computerized systems and the secure exchange of health information between consumers, providers, payers, and quality monitors. Based on an often-cited 2008 report on a small series of studies conducted at four sites that provide ambulatory care–three U.S. medical centers and one in the Netherlands– the use of Electronic Health Records (EHRs) was viewed as the most promising tool for improving the overall quality, safety and efficiency of the health delivery system.

  • Track 15-1Healthcare and Information Technology
  • Track 15-2Healthcare and Medical Technology
  • Track 15-3Healthcare and Emerging Technologies
  • Track 15-4Healthcare and Wearable Technologies

Ehealth indicates the healthcare practice by the use of electronic technologies and communication. The main developed method of application in eHealth is Video Conferencing where Doctor-Patient interaction is done online through electronic devices. Clinical education services gave awareness to the people of rural areas and Electronic Data storage helped in studying the medical histories of a subject. Aging can also be defined as a progressive functional decline, or a gradual deterioration of physiological function with age, including a decrease in fecundity, or the intrinsic, inevitable and irreversible aging process of loss of viability and increase in vulnerability. Physiological changes occur slowly over time in all body systems. These changes are influenced by life events, illnesses, genetic traits and socioeconomic factors. Aging Physiology. To more details: Telemedicine Conferences

  • Track 16-1Aging Statistics
  • Track 16-2Aging Research
  • Track 16-3Active Aging
  • Track 16-4Electronic and Data storage
  • Track 16-5Patient and clinical education services
  • Track 16-6Video Conferencing

Medical Informatics Research  takes the core foundations, principles, and technologies related to Health Informatics and apply these to clinical research contexts. As such, CRI is a sub-discipline of Health Informatics, and interest and activities in CRI have increased greatly in recent years given the overwhelming problems associated with the explosive growth of clinical research data and information. It also involves research of proteomes from the level of intracellular protein composition, structure, and its unique activity patterns. It is an important component of functional genomics.

  • Track 17-1Translational Research
  • Track 17-2Genomic and Proteomic Data
  • Track 17-3Clinical Predictive Modeling
  • Track 17-4clinical medicine and patient care

Medical Informatics Engineering targets the delivery of healthcare over the entire patient care cycle, which includes screening, vaccination, preventive medicine, diagnosis, treatment, medications, monitoring and checkups. Model-based decision tools create engineered innovations in clinical operations, individual treatment choice and supporting supply chains to advance safe, high-quality, consistent and accessible healthcare while avoiding unnecessary costs. HSE focuses on the design of engineered processes to combine resources and support clinical decision making to assure its effective implementation over the entire course of a patient’s care.

  • Track 18-1Health Systems Engineering Implementation
  • Track 18-2Healthcare Systems Technology and Techniques
  • Track 18-3Health Systems Engineering Interference
  • Track 18-4Healthcare Applications
  • Track 18-5Health Information systems

Medical Informatics application is organized knowledge and skills in the form of devices, medicines, vaccines, procedures and systems developed to solve a health problem and improve quality of lives. This includes the pharmaceuticals, devices, procedures and organizational systems used in health care. Medical technology, which is a proper subset of health technology, encompasses a wide range of healthcare products and is used to diagnose, monitor or treat diseases or medical conditions affecting humans. Such technologies are intended to improve the quality of healthcare delivered through earlier diagnosis, less invasive  treatment options and reductions in hospital stays and rehabilitation times. The main aim of social services are provide better health services in rural and urban areas

  • Track 19-1Mobile Health care
  • Track 19-2Healthcare Telemetry
  • Track 19-3Healthcare Wireless Systems
  • Track 19-4Healthcare Software Systems
  • Track 19-5e-Health Informatics

Imaging Informatics, also known as Radiology Informatics or Medical Imaging Informatics, is a subspecialty of Biomedical Informatics that aims to improve the efficiency, accuracy, usability and reliability of medical imaging services within the healthcare enterprise.  It is devoted to the study of how information about and contained within medical images is retrieved, analyzed, enhanced, and exchanged throughout the medical enterprise. As radiology is an inherently data-intensive and technology-driven specialty of medicine, radiologists have become leaders in Imaging Informatics. However, with the proliferation of digitized images across the practice of medicine to include fields such as cardiology, ophthalmology, dermatology, surgery, gastroenterology, obstetrics, gynecology and pathology, the advances in Imaging Informatics are also being tested and applied in other areas of medicine

  • Track 20-1Image Processing
  • Track 20-2Computer-Aided Diagnosis
  • Track 20-3Image-Guided Procedures
  • Track 20-4Robotic Interventions and Modeling
  • Track 20-5Biomedical Applications in Molecular, Structural, and Functional Imaging
  • Track 20-6PACS and Imaging Informatics: Next Generation and Innovations
  • Track 20-7Ultrasonic Imaging and Tomography
  • Track 20-8Digital Pathology

Medical Informatics and Information Management (HIIM) professionals are experts in managing the collection, storage, retrieval, analysis and interpretation of health care data and information. To provide the highest quality health care delivery, health care information is used not only for patient care, but also for medical legal issues, reimbursement, research, planning and evaluation.  Opportunities for employment are found in a variety of settings, including hospitals, clinics, rehabilitation centers, home health agencies, health maintenance organizations, insurance agencies, governmental agencies, educational institutions and research centers.

  • Track 21-1Foundations of Computer Science
  • Track 21-2Social Networks and Social Aspects of Information Technology
  • Track 21-3Information & Knowledge Management, Big Data Computing
  • Track 21-4Database Technology and Design
  • Track 21-5Sensor Networks
  • Track 21-6Parallel Computing and Cloud Computing
  • Track 21-7Mobile Computing & Telecommunication
  • Track 21-8Software Agents and Intelligent Agents in Artificial Intelligence
  • Track 21-9Computing Hardware

Ethics is a component of the education of health care managers and supervisors. Recent advances in the technologies of medical informatics present these leaders with new ethical challenges. Holding the promise of beneficence, these technologies are purported to increase access, improve quality, and decrease the costs of care. Aspects of these technologies, however, create conflicts with the ethical principles of autonomy, fidelity, and justice. Info ethics is suggested as a means to examine these conflicts. A multipronged solution that incorporates adherence to regulations and standards, promotion of codes of conduct and ethics, and creation of a culture of info ethics is recommended. To more details: Telemedicine Conferences

  • Track 22-1Health Informatics Clinical practice
  • Track 22-2Health Informatics Clinical practice
  • Track 22-3Healthcare Ethical Issues
  • Track 22-4Healthcare workforce of the future
  • Track 22-5Health Care quality and efficiency