About the Journal

About the Journal

The American Journal of Biomedical Engineering is an open-access, peer-reviewed journal dedicated to publishing high-quality research in the field of biomedical engineering. It serves as a platform for scholars and professionals to share innovative methodologies, applications, and case studies that advance the understanding and practice of biomedical engineering.

Aims and Scope:

The journal focuses on a wide range of topics, including:

  • Bioinformatics: Application of computational techniques to understand biological data.

  • Biomechanics: Study of the mechanical aspects of living organisms.

  • Biomedical Electronics: Development of electronic devices for medical applications.

  • Biomedical Imaging: Techniques for visualizing biological structures.

  • Biomedical Materials: Study and development of materials for medical use.

  • Bionanotechnology: Application of nanotechnology in biological systems.

  • Biophotonics: Interaction of light with biological materials.

  • Biosensors: Devices that detect biological information.

  • Cardiovascular Systems: Study of the heart and blood vessels.

  • Cell and Tissue Engineering: Development of biological tissues and organs.

  • Computational Biology: Use of computational methods to understand biological systems.

  • Electrophysiology: Study of the electrical properties of biological cells and tissues.

  • Imaging Systems: Development of systems for capturing images of biological structures.

  • Magnetic Resonance Imaging (MRI): Technique for imaging internal body structures.

  • Medical Engineering: Application of engineering principles to medicine.

  • Medical Imaging: Techniques for visualizing the interior of a body for clinical analysis.

  • Microfabrication: Process of fabricating small structures.

  • Molecular Engineering: Design and construction of molecular systems.

  • Musculoskeletal Mechanics: Study of the mechanical aspects of muscles and bones.

  • Neural Engineering: Application of engineering principles to the nervous system.

  • Optical Coherence Tomography: Imaging technique for capturing micrometer-resolution images.

  • Orthopaedics Research: Study of the musculoskeletal system.

  • Signal Processing: Analysis and manipulation of signals.

  • Stem Cell Engineering: Application of engineering principles to stem cell research.

  • Synthetic Biology: Design and construction of new biological parts and systems.

  • Systems Neuroscience: Study of the neural circuits underlying behavior.

  • Ultrasound Imaging: Technique for visualizing internal body structures using sound waves.