Biomedical Engineering Paper TopicsBiomedical engineering is a branch of science that focuses on the structural and functional components of human tissues and cells. With an increase in population and the need for new tools and treatments, biomedical engineers are a must in the medical world. They are able to develop and manufacture procedures and products that have the ability to improve the quality of life.
Biomedical engineering can be broken down into five sub-disciplines, including biofabrication, bioengineering, cell biology, tissue engineering, and virology. Each discipline is designed to study specific parts of the process. The framework will consist of writing papers, demonstrating proficiency in experiments, writing a thesis, and/or assisting in doctoral programs. The courses will also include biology, chemistry, microbiology, physics, and biology and chemistry.
In order to perform well in a paper topic in biomedical engineering, students must be able to articulate their thoughts clearly. To aid with this, the writing should be done on a clear subject matter with diagrams and charts. The subject should also not be too technical. It should also be clear and concise so as to make sense to readers.
One of the paper topics commonly included in biomedical engineering involves bioreactors. These devices are utilized in virtually every biomedical setting and they can be thought of as energy converters. They utilize high-energy proton exchange to pump and circulate oxygen and other materials. There are other topics such as metabolic engineering, microbial engineering, and fluid dynamic.
Several topics that are highly sought after in paper topics in biomedical engineering are the use of microorganisms in biomedical applications, genomics and genetic engineering, and therapies using the natural world. Most papers will focus on the growth and functionality of living organisms. Additionally, there are other areas such as genomics, cytogenetics, genomics and molecular biology, and nano-imaging.
Genomics is the science of genetic information. It refers to how an organism gets that information, how the information is transcribed into information for the cell, and how the information is packaged for storage and transfer back to the cell. Other research areas that focus on genomics are chromatin organization, RNA, transcriptional regulation, and exons and introns.
Chromatin is a structure that encodes genes and is found within the nucleus of every cell and it is involved in the regulation of gene expression. It is also known as the master transcription factor. On the other hand, the RNA or ribonucleic acid can encode one or more genes and serves as messenger RNA between the DNA and the proteins. Thus, these terms are a combination of the letters that form the alphabet.
Genetic engineering uses genetic information from other organisms to alter, manipulate, or otherwise alter the characteristics of an organism. This could be for therapeutic purposes or for improving plant growth. Various topics that are handled by genetic engineering are oncogenesis, hematogenesis, organogenesis, and primate embryogenesis.