International Journal of Biomedical and Bioinformatics Research and Applications  has been conceptualized for effective dissemination and promulgation of original research in all fields of Biomedical and Bioinformatics Research and Applications. With a relentless pursuit of excellence, it aims at providing immaculate and superior research material, thus fostering the spirit of non-conformity, experimentation and de novo intellection among researchers in different parts of the world.

IJBBRA strives ardently to present inceptive, innovative and invaluable research developments, both application oriented and theoretical, in all possible domains of Biomedical and Bioinformatics Research and Applications to a broad audience of academic researchers and industry practitioners in all major faculties - research and development, management, strategic planning, purchasing, design & styling, marketing, human resources etc.

Ingeniousness and research impaction are the main parameters for evaluation of theoretical papers. Applications based on advanced theory and case studies aid in bridging the gap between theory and practice, and are particularly welcome.

General approaches, formalism's, algorithms or techniques should be complemented with lucid illustrations allowing easy comprehension and subsequent suitable applicability. Although the main emphasis of IJBBRA is on original research papers, theoretical and integrative review articles, book reviews, and high-quality position papers are also published to keep readers up-to-date on the latest ideas, designs, and developments in these allied fields. Special review articles will be granted consideration based on the stage of evolvement of their respective fields.

Although there is no restriction on the length of contributions, brevity will always be preferred. Brief articles will merit attention depending on their technical proficiency.

Discussions of previously published papers are also welcome.

Focus & Scope

Topics of relevance include all aspects of the scientific foundations, techniques, and applications of Biomedical and Bioinformatics such as:

BiomedicalScience and Engineering:

  • Applied Biomaterials
  • Bioelectrical and Neural Engineering
  • Bioinformatics and Computational Biology
  • Biomechanics and Biotransport
  • Biomedical and Environmental Sciences
  • Biomedical Chemistry
  • Biomedical Chromatography
  • Biomedical Devices, Sensors, Artificial Organs and Nano Technologies
  • Biomedical Engineering
  • Biomedical Imaging, Processing and Visualization
  • Biomedical Informatics
  • Biomedical Materials
  • Biomedical Microdevices
  • Biomedical Modeling
  • Biomedical Sciences and Applications
  • Biomedical Semantics
  • Biomedical Signal Processing and Control
  • Biomedicine and Biotechnology
  • Biomedicine and Pharmacotherapy
  • Clinical Engineering, Wearable and Real-Time Health Monitoring Systems
  • Computer Methods and Programs in Biomedicine
  • Genetic Engineering
  • Genomics
  • History and Philosophy of Biomedical Sciences
  • Mechanical Behavior of Biomedical Materials
  • Medical Biochemistry
  • Medical Cell Biology
  • Molecular and Genetic Medicine
  • Nano-Bio-Analysis
  • Negative Results in Biomedicine
  • NMR in Biomedicine
  • NMR/CT/ECG Technologies and Electromagnetic Field Simulation
  • Nonlinear Biomedical Physics
  • Numerical Methods in Biomedical Engineering
  • Pharmaceutical and Biomedical Analysis
  • Physiological Signal Processing
  • Proteomics
  • Software, Tools and Application in Medical Engineering
  • Structure-Based Drug Design

 Bioinformatics:

  • Artificial Intelligence in Biomedicine
  • Bioinformatics
  • Bio-imaging
  • Bio-ontology
  • Bioinformatics Algorithms and Databases
  • Biomarkers of Toxicity
  • Biostatistics and Stochastic Models
  • Computational Biology
  • Clinical Case Reports
  • Databases and Data Management
  • Data Mining and Machine Learning in Bioinformatics
  • Data Visualization
  • Drug Discovery
  • Functional Genomics and Proteomics
  • Genes and their Regulation
  • Gene Expression Analysis
  • Health Informatics
  • Immuno- and Chemo-informatics
  • Medical Statistics and Informatics
  • Model Design and Evaluation
  • Molecular Evolution and Phylogeny
  • Pharmaceutical Applications
  • Protein Structure Prediction and Molecular Simulation
  • Sequence Search and Alignment
  • Sequence Analysis
  • Simulation and Modeling
  • Structural Bioinformatics
  • Systems Biology
  • Transcriptomics
  • Visualization
  • Web Services in Bioinformatics

Computing Technologies Used for Biomedical and Bioinformatics:

  • Artificial Intelligence and Expert Systems
  • Augmented Reality and Virtual Reality
  • Computer Animation
  • Computer Architecture and Embedded Systems
  • Computer Games
  • Computer Graphics and Multimedia
  • Computer Modeling and Simulation
  • Computer Vision
  • Computer-aided Design/Manufacturing
  • Data Compression
  • Data Mining and Machine Learning
  • Digital Image Processing
  • Digital Signal Processing
  • High Performance Computing
  • Human Computer Interaction
  • Information Retrieval
  • Internet and Web Applications
  • Knowledge Data Engineering
  • Natural Language Processing
  • Neural Networks
  • Parallel and Distributed Computing.
  • Pattern Recognition, Clustering and Classification
  • Performance Evaluation
  • Reconfigurable Computing Systems
  • Robotics and Automation
  • Security and Cryptography
  • Technology in Education
  • Ubiquitous Computing
  • Wireless Sensor Networks
  • Wireless Communication and Mobile Computing