A biomaterial is a substance that has been created to engage with biological processes for diagnostic or therapeutic uses. In medical applications, natural or synthetic biomaterials are used to support, augment, or heal damaged tissue or biological activities. Biomaterials can be made from metals, ceramics, plastic, glass, and even biological cells and tissue. For usage in biomedical products and devices, they can be re-engineered into moulded or machined parts, coatings, fibres, films, foams, and textiles.
The application of engineering principles and problem-solving methodologies to biology and medicine is known as biomedical engineering. This is clearly apparent throughout healthcare, from diagnosis and monitoring for treatment and rehabilitation, and has made its way into the public consciousness through the emergence of implantable medical devices such as pacemakers and artificial hips, as well as more futuristic technologies like artificial intelligence.
Biomaterials are synthetic or natural materials designed to interact with the biological system as part of a medical device or to replace or heal any damaged organs or tissues. Biomaterials are materials that are either naturally occurred or can be synthesized. With increased collaboration between engineers, chemists, and biologists, biomaterials science has improved considerably in the last 50 years.
Bio-nanomaterials are molecular materials made up largely or entirely of biological molecules. Functional Bio-nanomaterials contain information that can be used to build advanced treatment approaches and materials for the use of nanotechnology in medicine and drug delivery. The bio-nanomaterials that result could be used as new fibres, sensors, or adhesion materials.
Natural tissues and biocompatible synthetic materials are used to replace decaying, broken, or shattered teeth in dental biomaterials. Metals, ceramics, polymers, and composite structures are examples of biocompatible synthetic dental materials. To minimize stresses in the restorations under occlusal loading, the designs of ceramic dental bridges and cavity shapes were optimized utilizing nature-inspired structural optimization approaches.
Bioinformatics is an interdisciplinary science that offers methods and software tools for analyzing biological data, particularly large and complicated data sets. Computer software packages like BLAST and Ensembl, which rely on internet access, are part of the bioinformatics toolbox. One of the most significant breakthroughs of bioinformatics to date is the study of genome sequence data, particularly the analysis of the human genome project.
The health monitoring system offers a variety of alternatives to traditional patient management. Furthermore, this solution provides a remote health-monitoring system, as well as minimizes healthcare costs, and assists the hospital in improving the treatment process. In safety-critical and limited contexts, such as aviation, space, car, and heavy industrial machinery operation, biomedical signal monitoring can reduce the risk of human error due to inattention or fatigue.
Medical image processing is the use and investigation of 3D image files of the human body, typically collected from a Computed Tomography (CT) or Magnetic Resonance Imaging (MRI) scanner, to diagnose disorders, guide medical procedures such as surgery planning, or for research purposes. Radiologists, engineers, and physicians work together to improve medical image processing. Obtaining raw data from CT or MRI images and reconstructing them into a format appropriate for usage in applicable software is the first step in medical image processing
Biophotonics is a word that combines biology and photonics, where photonics being the science and technology of producing, manipulating, and detecting photons, which are quantum units of light. Photonics is a branch of science that deals with photons and electronics. Photons, like electrons in electronics, play a crucial part in information technologies like fiber optics. Biophotonics is an optical process in the biological system.
Biomedical optics in medicine pivots on blood and tissue to treat, diagnose, and detect diseases non-invasively. This meeting will focus on optical technology applications, design, and instrumentation in natural sciences. This meeting provides a chance for engineers and researchers from industry and academia to talk about application, fabrication, instrumentation, and design of biomedical optical and photonics technologies for natural science.
Biomaterials involve artificial materials and living tissue. They are used for replacement, repair, and stimulation of biological systems. Nanotechnology includes the use and development of technologies that work around the size of a large biomolecule, on the nanometer length scale. Nanotechnology examines frameworks and manages matter on nuclear, supramolecular and sub-atomic scales.
Biomaterials play a vital role in the drug delivery system. Various kinds of drug delivery systems, surgical implants, wound closure devices, artificial organs generally depend on biomaterials. Biomaterials help in RNA transport that takes place in transgenic expression along with the regeneration of tissues and tissue growth. Nowadays, Hydrogels are entitled as the smart drug delivery systems which are usually used as sustained drug release systems that have importance in healing cancer.
Polymer biomaterials can be employed within biological environments over a long or short time. This property approves their use for the substitute of several sorts of tissues. Polymers are the macromolecules attained by the repetition of a basic chemical unit numerous times. Several polymers are biocompatible so that they can be used as biomaterials.
Computational biology is the study of biological, ecological, behavioural, and social systems through the development and implementation of mathematical modelling, data-analytical, computational simulation approaches and theoretical methodologies. Analytical approaches, mathematical modelling, and simulation are among the computational methods employed. International Conference on Biomaterials and Biomedical Engineering brings together researchers and research scholars, leading academic scientists to exchange and share their experiences and research results on Computational Biology.
Telehealth encompasses a wide range of electronic and telecommunications technologies and services that are used to deliver care and services over long distances. Telemedicine is a medical practice that uses technology to provide care to patients who are located far away. A telecommunications infrastructure allows a physician in one location to provide care to a patient in another location. Telehealth differs from telemedicine in that it covers a wider spectrum of remote medical services.
- Biomedical Engineering
- Advanced Biomaterials
- Dental Biomaterials
- Health monitoring devices
- Medical Imaging and Image Processing
- Biomedical Optics
- Biomaterials and Nanotechnology
- Biomaterials in drug delivery system
- Polymer Biomaterials
- Computational Biology
- Telehealth and Telemedicine