Peer Review Process
- All abstracts or papers will be peer-reviewed. The review recommendation shall be based on the novelty of the ideas, scientific merits and suitability to this conference. The conference encourages presentations discussing novel ideas;
- Multiple reviewers may be approached for technical and editorial reports. Conference Chairmen make the final decision.
Archive Access Policy
The presentations that make up the current and archived conferences on this site have been made open access and are freely available for viewing, for the benefit of authors and interested readers.
Conference Themes
Topics of the conference including but not limited to:
Area 1. Mechanics
1.1. Tissue mechanics
1.2. Constitutive modeling of biomaterials
1.3. Cardiovascular fluid mechanics
1.4. Hemodynamics
1.5. Fluid-tissue interactions
1.6. Orthopaedic Biomechanics
1.7. Artificial heart and cardiac devices
1.8. Dental implants and mechanics
1.9. Cellular process and mechanics
1.10. Molecular behavior and mechanics
1.11. Mechanobiology
1.12. Human Movement Biomechanics
Area 2. Bio-materials
2.1. Biomaterial formation mechanisms
2.2. Biomaterial processing and fabrication
2.3. Biomaterial characterization
2.4. Bio-inspired materials
2.5. Artificial organ biomaterials
2.6. Nanotechnology and tissue engineering
2.7. Remodeling of various bio-materials
2.8. Molecular mechanisms and mechanics
2.9. Functional tissue engineering
2.10. 3D printing for organs
Area 3. Bio-structures and components
3.1. Bio-structure and environment
3.2. Structural mechanism and mechanics
3.3. Bio-structure evolution
3.4. Structure optimization
3.5. Multi-scale hierarchical structures
3.6. Robotics and Mechatronics
Area 4. Imaging
4.1. Digital imaging techniques
4.2. Proper orthogonal decomposition
4.3. Micro-imaging and microscopy
4.4. Computer-assisted tomography
4.5. Image processing and visualization
4.6. Big-data handling techniques
Area 5. Drug delivering physical treatments
5.1. Drug diffusion and transportation
5.2. Targeting and controlled release
5.3. Mass and heat transfer for target ablation
5.4. Hyperthermia therapy
5.5. Laser and light therapy
5.6. Nanotechnology in drug delivering
Area 6. Computer aided surgery
6.1. Image-guided devices and systems
6.2. Virtual reality techniques
6.3. Navigation in vessels and soft tissues
6.4. Robots and manipulators
6.5. Micro invasive surgery instruments
6.6. Movement modelling and simulation
Area 7. Bio-devices and biosensor
7.1. Biosensors and micro- nano-biosensors
7.2. Nanoparticles for bio-applications
7.3. Lab-on-chip for bio-systems
7.4. Hydrogels for bio-systems
7.5. Scaffold fabrication
7.6. System sensor networks
7.7. Laser and ultrasound interventions
7.8. Material design techniques and standards
Area 8. Bio-signal processing
8.1. Physiological modelling
8.2. Dynamic analysis of bio-signals
8.3. Signal pattern classification
8.4. Time-frequency analysis of bio-signals
8.5. Magnetism for bio-systems
Area 9. Sports and rehabilitation technology
9.1. Rehabilitation devices and robotics
9.2. Sports mechanics
9.3. Sports and remodeling
9.4. Prosthetic techniques
Area 10. Neuro and brain research
10.1. Neural interfaces and regeneration
10.2. Brain modeling and stimulation
10.3. Brain-computer
10.4. Brain-machine interfaces
10.5. Neuro prostheses
10.6. Neural signal processing
10.7. Transcranial magnetic and electric field
Area 11. Modelling and simulation
11.1. Model creation and meshing techniques
11.2. Methods for soft-tissues
11.3. Methods for porous media
11.4. Capillary effects in bio-systems
11.5. Methods for non-Newtonian flows
11.6. Methods for fluid-tissue interactions
11.7. Optimization techniques
11.8. Genetic Algorithms
11.9. Neuro-Networks
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