The study of the functions of the human body, its reactions to both chemical and physical elements and how this understanding can be put to use in solving health problems in humans is what biomedical physiology is all about. And from time to time, students studying science related courses may be asked write essays on biomedical physiology which can be somewhat difficult due to the amount of research that must be put in to ensure accuracy.
This article is written to serve as a guiding light to those who are entirely in the dark on how to go about writing an essay on biomedical physiology. Here, a diverse list of cause and effect essay topics on biomedical physiology will be provided in order to help students create a writing structure from scratch. Also, a sample essay using one of the listed topics will be included and can be viewed as a road map on writing cause and effects essay.
20 Cause and Effect Essay Topics on Biomedical Physiology:
- Investigating Biomedical Innovations and the Role Physiology Plays in its Growth
- The Role of Biomedical Physiology in the Advancement of Bionics
- Understanding the Effects of External Pressure to Human Organs
- The Study of Human Physiology and its Importance in Developing Biomedical Devices
- Exploring the Role of Biomedical Physiology in Biomedical Engineering
- Juxtaposing the Fields of Biomedical Physiology and Biomedical Engineering in Advance Medicine
- How Understanding the Mechanical Functions of the Human Body Aids Biomedical Innovation
- The Human Body, Biomedical Physiology and Improving Medical Health Care
- How an Understanding of the Human Body and its Control System aids Biomedical Science
- Biomedical Engineering and the Role of Human Cells in Developing Health Solutions
- What Heat Acclimatization in Humans can Teach Biomedical Scientists about Fluid Transfer
- Physiological Knowledge of the Human Skin and its Role in Surgery Procedures
- The Muscular System of the Human Body and the Development of Prosthetic Aid
- The Role of Biomedical Physiology in Developing Corrective Surgery Equipment
- Exploring the Gains of Biomedical Physiology in the Field of Biotechnology
- Making a Case for Biomedical Physiology and the Opportunity it Creates for Women
- Discussing the Great Strides Biomedical Physiology has Engineered in Medical Procedures
- The Future of Human Health and the Role of Biomedical Physiology
- The Future of Biotechnology and How Biomedical Physiology Drives it
- The Biomedical Engineering Revolution and why Physiology has a Part to Play
Now that we have our 20 cause and effect topics on biomedical physiology, the next step as earlier discussed is providing you with a sample essay. This essay will be provided in the following paragraphs and we also implore you to take advantage of these topics by developing one yourself or using them as a form of inspiration in choosing a topic for your custom essay. Our task is to simplify yours and we intend to do this with every article in the biomedical physiology essay series.
Sample Essay: Investigating Biomedical Innovations and the Role Biomedical Physiology Plays in its Growth
Knowledge precedes invention. Therefore, before anything can be invented, a thorough knowledge of the laws and mechanisms governing the inventor’s niche must be thoroughly understood before innovation can take place. In this essay, I will attempt to show how medical health issues became the cause for scientist seeking knowledge on the human physiology and how this acquired knowledge has been used effectively to create biomedical devices in modern medicine.
In the 18th century, science struggled with solving medical issues relating to aging, affecting surgical procedures due to a lack of adequate equipment. These difficulties in treating patients led to rapid experiments which were done for the sole purpose of understanding the human body system and the mechanics behind its function. As these studies became more specialized, the field of biomedical physiology was born. During the 19th century, enough knowledge had been gathered concerning the human anatomy to help scientist work on developing procedures, equipment and health aides dedicated in reducing the suffering of patients.
Examples of such strides made in science due to the study of biomedical physiology include the creation of the first bionic arm in Edinburgh circa 1993. By the 21st century science had gone further in simplifying corrective surgery and other health defects with the use of insightful medical procedures and techniques which were spearheaded by advances in biomedical physiology. An apt example is the use laser surgery to correct simple eye defects by employing a completely non-invasive approach in treating a patient. Another example is the use of spinal gels in treating joint and spinal issues in aging humans.
These great strides were in effect made possible due to scientist gaining a more complete understanding of how the body functions and the external pressures that affect the body’s system. Therefore, it is safe to say that difficulties in treating patients was the cause which led to scientist seeking more knowledge to combat diseases and the effect of the acquired knowledge can be seen today in the form of prosthetic limbs, laser surgery, pace setters and surgery equipment that ensure we receive better health care.
The field of biomedical physiology is not done as more and more experiments and medical breakthroughs are still expected to occur in the near future. This is due to the number of scientist specializing in the field of biomedical science as well as engineers taking part in the new revolution. Consequently, advancement in stem cell research is moving at a pace which may see science regenerate dead cells or create new ones to take the place of dead cells. If successfully harnessed, stem cells can be used to solve previously untreatable medical conditions such as paralysis, loss of tissues, cancer and other malignant diseases. In conclusion, man has risen to the challenge of battling diseases by seeking enough knowledge to counter them and this process is currently working effectively for the human population.
For further reading, do not hesitate to check our 10 facts for a cause and effect essay on biomedical physiology as well as a writing guide on the making of a cause and effect essay on biomedical physiology.
Scribner, M. (2010). Imaging Innovations Lead to Advances in Radiation Therapy. Biomedical Instrumentation & Technology, 44(4), 325-327.
Malberg, H. and Wolf, W. (2006). Biosignal Processing: the Pacemaker for Innovations in Biomedical Engineering – State, Developments, Trends. Biomedizinische Technik/Biomedical Engineering, 51(2), pp.39-40.
Ursino, M. (2003). Cerebrovascular Modelling: A Union of Physiology, Clinical Medicine and Biomedical Engineering. Medical Engineering & Physics, 25(8).
Sieck, G. (2015). Transforming Medicine Through Physiology. Physiology, 30(3), pp.173-174.
Malberg, H. and Wolf, W. (2006). Biosignal Processing: The Pacemaker for Innovations in Biomedical Engineering – State, Developments, Trends. Biomedizinische Technik/Biomedical Engineering, 51(2).
Storz, J. (2016). Gene Duplication and Evolutionary Innovations in Hemoglobin-Oxygen Transport. Physiology, 31(3).
Newell, J. (2012). The Development of Biomedical Engineering as Experienced by one Biomedical Engineer. BioMedical Engineering OnLine, 11(1).