The BIME  publishes high-standard research papers on theoretical analysis, experimental studies and innovations regarding  bioinformatics and medical engineering. This journal is, therefore,  not only  a forum where researchers, scientists, engineers and vendors can exchange their knowledge and experience, but also serves as an educational channel for students and any others who would  like to learn more about the new  trends in this field of study.  The areas of BIME  research comprise genetics, genomics, and biotechnologies concern both humans and animals, plants, microorganisms and complex ecosystems. The BIME   journal publishes work that addresses the application of methods to real world scenes and seeks to strengthen a deeper understanding in the discipline by encouraging the qualitative and quantitative comparison and performance evaluation of the emerging subjects of bioinformatics and  medical engineering. The coverage includes:  

• Determining the gene's functionality
• Amino acid Structure
• Artificial hearts
• Selecting optimum DNA
• Mathematical modelling in genetic networks
• Computational structural and functional genomics
• Computational structural and functional proteomics
• Computational systemic biology
• Computational evolutionary biology
• Methods for analysis and simulation of biomolecular systems and processes
• Biomechanics of injury and wound healing: gait analysis, application of growth factors, etc.
• Bioinformatics and education
• DNA, RNA and Proteins
• Information systems for metabolic diseases
• Automated patient monitoring: during surgery or in intensive care, healthy persons in unusual environments, such as astronauts in space or underwater divers at great depth
• Immunogenomics and host-pathogen interactions
• Infection and inflammation genomics
• Transplantation genomics-MHC gene variety
• Chemical genomics, glycoimmunology and metabolomics
• Blood chemistry sensors: potassium, sodium, O2, CO2, and pH
• Allergy genomics
• Genomic strategies of  vaccination
• Immuno-cellomics
• Autoimmune genomics
• Genomic approaches in innate immunity and heat shock proteins
• Dermatogenomics
• Bioelectromagnetics
• Cardiovascular and neural control
• Public health information networks, education and training
• Advanced Therapeutic and Surgical Devices:  laser system for eye surgery, automated delivery of insulin, etc.
• Multimedia, virtual Reality, visualisation, advanced imaging and robotics in medicine
• Information technology issues: standards, security, and ethical and legal issues
• Digital libraries, data mining and distributed computing
• High performance computing, communications and next generation internet initiatives
• Medical imaging systems:  ultrasound, computer assisted tomography, magnetic resonance imaging, positron emission tomography, etc.
• Sports medicine: rehabilitation, external support devices, etc.

• Biological imaging and signaling
• Computing in biological systems
• Genetic and evolutionary computing
• DNA and GENOME databases
• Tissue engineering
• Fusion artificial devices in biological and living systems
• Natural language understanding in biological systems
• Learning in artificial and biological systems
• Perception in artificial and biological systems
• Engineering models in biomedicine
• Biological models and systems
• Robotics in biological engineering
• Conceptual data structures for semantic database integration
• Biological paradigms of computability
• Recognition of promoter sequences
• Modeling and simulation of metabolic processes
• Parallel computing for sequence analysis
• Multimedia implementation of virtual scenarios
• Bio-Medical knowledge processing
• Quantitative cell analysis and tissue engineering
• Biomedical imaging and systems
• Cardiovascular biomechanics
• Musculoskeletal biomechanics
• Biomaterials
• Musculoskeletal biomechanics
• Cardiovascular biomechanics
• Predicting human disease phenotypes
• Genomics of antigen receptors and co-receptors
• Hereditary immunodeficiencies
• Genomics of reproductive immunology
• Genomics of dendritic cells and macrophages
• Bioinformatics and genome analysis in immune research
• Genetic regulation of apoptosis in immune response
• Genomics of pulmonary diseases
• Signalling, genomics of adapter proteins and transcription factors
• Antigen processing and presentation
•  Mathematical models of the immune system
• Collaborative technologies: telemedicine, telehealth and home care delivery
• Web-based clinical and health information systems including electronic patient records
• Bioinformatics, genomics, biological pathways and systems modelling
• Biomaterials design:  mechanical, transport and biocompatibility properties of implantable artificial materials
• Application of expert systems and artificial intelligence to clinical decision making:  computer-based systems for diagnosing diseases
• Artificial Organs: hearing aids, cardiac pacemakers, artificial kidneys and hearts, blood oxygenators, synthetic blood vessels, joints, arms, and legs
• Design of optimal clinical laboratories:  computerized analyzer for blood samples, cardiac catheterization laboratory, etc.
• Computer modeling of physiologic systems:  blood pressure control, renal function, visual and auditory nervous circuits, etc.
• Bioinformatics and biomedicine technology
• Body's and cells bionatures

• Information about, how to submit a paper, the academic manuscript central (AMC), submission rules, registration fee, review notes, instructions and templates for paper editing can be found in (Submit - page)