AIMS and SCOPE | Advances and Applications of Bioengineering

AIMS and SCOPES (750 words):

Advances and Applications of Bioengineering aims to publish original research articles, reviews, and commentaries in all areas of bioengineering, including but not limited to the following sub-topics:

Biomedical engineering
Biomaterials and tissue engineering
Biosensors and bioelectronics
Computational bioengineering
Drug delivery and pharmacology
Genetic engineering and synthetic biology
Microfluidics and lab-on-a-chip systems
Nanotechnology and nanobiotechnology
Neuroengineering and rehabilitation engineering
Regenerative medicine
Systems and synthetic biology
Biomechanics and mechanobiology

Our scope also includes research that applies bioengineering principles to the development of novel technologies and solutions for societal challenges, such as:

Healthcare and medicine
Environmental sustainability
Energy and biofuels
Agriculture and food production
Biomanufacturing and industrial biotechnology

Advances and Applications of Bioengineering welcomes submissions from researchers, scientists, engineers, and industry professionals from all over the world. We encourage authors to submit their work that represents original and significant contributions to the field of bioengineering. We also welcome submissions that integrate interdisciplinary perspectives and promote cross-disciplinary collaborations. Manuscripts that report on negative results or replicate previous findings with new insights and methodologies are also welcomed.

To ensure the highest quality of published articles, Advances and Applications of Bioengineering has strict ethical and scientific guidelines that all authors, editors, and reviewers are required to follow. We adhere to the guidelines set forth by the Committee on Publication Ethics (COPE) and require all authors to submit their work for ethical review and approval from their institutional review board (IRB) or equivalent ethics committee. Our editorial team ensures that all submitted articles undergo rigorous peer-review by experts in the field and are evaluated for their scientific rigor, novelty, and impact.

Advances and Applications of Bioengineering is an open-access journal, meaning that all published articles are freely available to readers without any subscription or paywall barriers. We believe that this open access model promotes greater dissemination of knowledge and encourages greater global participation in scientific research. We also support the open data movement and encourage authors to deposit their research data in publicly accessible repositories.

To maintain the financial sustainability of our open-access model, Advances and Applications of Bioengineering charges a publication fee for all accepted articles. However, we offer waivers or discounts for authors from low-income countries or those who face financial barriers. We also offer a fast-track review process for urgent and time-sensitive manuscripts, and expedited publication for those accepted.

In summary, Advances and Applications of Bioengineering is a leading open-access journal dedicated to publishing high-quality research in bioengineering and its applications. Our mission is to promote the development and dissemination of innovative research, foster a culture of collaboration, and support the advancement of bioengineering research. Our vision is to be a trusted source of information and a catalyst for the development of novel solutions to global challenges. Our scope encompasses all areas of bioengineering, and we welcome submissions from authors worldwide. We adhere to the highest ethical and scientific standards and promote open access to scientific knowledge.

Keywords/ Subtopics:

Biomaterials
Biomechanics
Biomedical imaging
Biomedical instrumentation
Biomedical optics
Biomedical signal processing
Biosensors
Biotechnology
Cell and tissue engineering
Computational biology
Drug delivery systems
Medical devices
Nanomedicine
Neuroengineering
Synthetic biology
Regenerative medicine
Bioinformatics
Biophysics
Biochemistry
Biostatistics
Cardiovascular engineering
Clinical engineering
Dental engineering
Diagnostic imaging
Electrical engineering
Environmental engineering
Food engineering
Genetic engineering
Industrial engineering
Mechanical engineering
Medical imaging
Medical physics
Microfluidics
Molecular biology

Neural engineering

Orthopedic engineering

Pharmaceutical engineering
Rehabilitation engineering
Respiratory engineering

Stem cell engineering
Surgical instrumentation
Telemedicine
Ultrasound imaging
Bio-inspired design
Biocompatibility
Bioreactors
Biosimulation
Biomechatronics
Biopharmaceuticals
Biosurgery
Brain-computer interface
Cell therapy

Chemical engineering

Clinical trials
Computer-aided diagnosis

Controlled release systems

DNA sequencing
Drug discovery
Electrochemical sensors
Electromyography
Environmental monitoring
Ethics in bioengineering
Fluorescence imaging
Gene therapy

Genetic testing

Healthcare technology

High-throughput screening
Implantable devices
In vitro models

In vivo models
Medical robotics
Microfabrication

Microscopy

Molecular imaging
Multiscale modeling

Musculoskeletal engineering

Natural biomaterials
Non-invasive imaging
Optical coherence tomography
Personalized medicine
Pharmacokinetics
Point-of-care diagnostics

Precision medicine

Protein engineering
Proteomics

Quantum biology

Rehabilitation technology
Resonance imaging
RNA interference
Smart materials
Spectroscopy
Surface engineering

Synthetic biomaterials

Synthetic cells
Targeted drug delivery

Telehealth

Tissue scaffolds
Topical drug delivery
Translational medicine
Wearable devices
Wound healing
3D printing
Adaptive systems
Ageing research
Agriculture engineering
Analytical chemistry
Artificial intelligence
Bio-inspired robotics
BioMEMS
Biosimilars
Cell culture systems
Chemical biology
Clinical genetics
Clinical informatics
Computer vision
CRISPR technology
Cybernetics
Data analysis
Dental materials
Developmental biology
Digital health
Drug design
Electrospinning
Embryonic stem cells
Energy harvesting
Enzyme engineering
Epidemiology
Epigenetics
Evolutionary biology
Fabrication techniques
Forensic engineering
Gene editing
Genetic
Genome engineering
Genomics
Glycobiology
Health informatics
Human genetics
Human-machine interfaces
Immunoengineering
Inflammation research
Machine learning
Materials science
Medical informatics
Medical nanotechnology
Medical sensors
Metabolic engineering
Microbial engineering
Microbiome engineering
Microfluidic systems
Molecular diagnostics
Multidisciplinary research
Nanofabrication
Nanoparticles
Nanotechnology
Neuroscience
Nutraceuticals
Optical imaging
Organ-on-a-chip
Personalized diagnostics
Pharmacogenomics
Protein structure prediction
Quantum computing
Quantitative biology
Radiology
RNA sequencing
Robotics
Scaffold-free tissue engineering
Scientific computing
Signal transduction
Single-cell analysis
Soft robotics
Systems biology
Tissue engineering and regeneration
Transcriptomics
Transport phenomena
Vascular engineering
Veterinary medicine
Virtual reality
Whole genome sequencing
X-ray imaging
Yeast engineering
Big data analysis
Bioactuators
Bioelectronics
Bioenergy
Biofilms
Bioinformatics tools
Biologic drugs
Biomarker discovery
Biomimicry
Biopharmaceutical production
Bioprinting
Bioremediation
Biosynthetic pathways
Biotechnology education
Cancer diagnostics
Cardiovascular devices
Catalysis
Cell biology
Cell membrane engineering
Cell migration
Cell signaling
Cell surface engineering
Chemical sensors
Chromatin engineering
Chronic disease management
Clinical engineering standards
Clinical guidelines
Clinical trials design
Computational neuroscience
Computer-aided drug design
CRISPR diagnostics
Crop engineering
Data privacy and security
Decision support systems
Dental implants
Device design and prototyping
Digital twins
DNA engineering
DNA synthesis
Drug metabolism
Drug repurposing
Electroceuticals
Emergency medicine technology