Focus and Scope
About the Journal
The International Journal of Biomedical Engineering is a peer-reviewed academic journal that aims to advance and disseminate knowledge in the field of biomedical engineering. The journal focuses on original research, technical developments, and innovative applications related to the intersection of engineering principles and medical sciences. It covers a wide range of topics within biomedical engineering, fostering interdisciplinary collaboration between engineers, scientists, and medical professionals.
Focus and Scope
- Medical Imaging and Signal Processing: Image acquisition and processing techniques (MRI, CT, ultrasound, PET, etc.), Signal processing for medical diagnostics and monitoring, Image segmentation, feature extraction, pattern recognition, and Medical image analysis for disease detection and assessment.
- Biomechanics and Biomaterials: Mechanics of biological tissues and systems, Modeling and simulation of physiological processes, Biomechanical analysis of human movement and ergonomics, Development, and characterization of biomaterials for medical applications.
- Biomedical Instrumentation: Design and development of medical devices and instruments, Sensor technologies for healthcare monitoring, Wearable devices for continuous health tracking, Rehabilitation, and assistive technologies.
- Bioinformatics and Computational Biology: Computational methods for analyzing biological data, Genomic, proteomic, and metabolomic data analysis, Systems biology, and modeling of biological systems, and Data-driven approaches to personalized medicine.
- Biomedical Systems and Control: Control systems for medical devices and therapies, Automation, and robotics in surgical procedures, Physiological feedback, closed-loop control, Integration of engineering systems into clinical practice.
- Medical Informatics and Health Information Systems: Electronic health records and clinical information systems, Healthcare data management and interoperability, Telemedicine and remote patient monitoring, Privacy and security in healthcare data exchange.
- Neuroengineering and Neural Systems: Neural interface technologies (BCIs, neuroprosthetics), Neuroimaging techniques and analysis, Neural modeling and understanding brain function, Neurological disorder diagnosis and treatment.
- Tissue Engineering and Regenerative Medicine: Design and fabrication of engineered tissues and organs, Cellular and molecular approaches to tissue regeneration, Biomaterial scaffolds and tissue culture techniques, Translational research for clinical applications.
Keywords
- Biomedical Engineering
- Medical Imaging
- Signal Processing
- Biomechanics
- Biomaterials
- Biomedical Instrumentation
- Bioinformatics
- Computational Biology
- Medical Devices
- Health Informatics
- Neuroengineering
- Neural Systems
- Tissue Engineering
- Regenerative Medicine
- Medical Informatics
- Telemedicine
- Rehabilitation Engineering
- Wearable Devices
- Genetic Engineering
- Systems Biology
- Biomedical Systems
- Medical Robotics
- Biomechanical Modeling
- Biomedical Data Analysis
- Medical Sensors
- Medical Imaging Analysis
- Medical Signal Analysis
- Bioelectric Signals
- Artificial Organs
- Prosthetics and Orthotics
- Medical Data Privacy
- Healthcare Informatics
- Medical Device Design
- Biomedical Ethics
- Personalized Medicine
- Healthcare Monitoring
- Cellular Engineering
- Biofeedback Systems
- Rehabilitation Technologies
- Neural Interfaces
- Neuroprosthetics
- Biomaterial Characterization
- Implantable Devices
- Health Monitoring Systems
- Genetic Diagnostics
- Clinical Data Management
- Medical Robotics
- Physiological Modeling
- Drug Delivery Systems
- Molecular Imaging