About Biomedical Engineering (BME)
If you like Biomedical Engineering (BME) you should have this app. Our passion to BME drove us to develop this android application which contains study notes that summarize all the BME branches.
What are the Specialization Areas?
Some of the well established specialty areas within the field of biomedical engineering are bioinstrumentation, biomechanics, systems physiology and rehabilitation engineering.
Bioinstrumentation is the application of electronics and measurement principles and techniques to develop devices used in diagnosis and treatment of disease.
Biomechanics is the mechanics applied to biological or medical problems. It includes the study of motion, of material deformation, of flow within the body and in devices and transport of chemical constituents across biological and synthetic media and membranes.
Biomaterials describes both living tissue and materials used for implantation. Understanding the properties of the living material is vital in the design of implant materials.
Systems physiology is the term used to describe that aspect of biomedical engineering in which engineering strategies, techniques and tools are used to gain a comprehensive and integrated understanding of the function of living organisms ranging from bacteria to humans. Modeling is used in analysis of experimental data and in formulating mathematical descriptions of physiological events.
Clinical engineering is the application of technology for health care in hospitals. The clinical engineer is a member of the health care team along with physicians, nurses and other hospital staff. Rehabilitation engineering is a new and growing specialty area of biomedical engineering. Rehabilitation engineers expand capabilities and improve the quality of life for individuals with physical impairments.
You could revise and prepare your exam efficiently and guaranty a better score by using excellent app.
this BME exam review app contains the following sections:
1="Lets' start with some definitions",
2="BME Historical Perspective",
3="BME Ethics",
4="Anatomy & Physiology for BME",
5="BioMechanics",
6="Bio Materials Part1: Metals",
7="BioMaterials Part2: Polymers",
8="BioMaterials Part3: Ceramics",
9="Physiology For Biomedical Engineering: CH1",
10="Physiology For Biomedical Engineering:CH2",
11="Physiology For Biomedical Engineering:CH3",
12="Physiology For BME:CH4",
13="Physiology For BME:CH5",
14="Physiology For BME:CH6",
15="Physiology For BME:CH7",
16="Biomaterials For BME: CH1",
17="Biomaterials For BME: CH2",
18="Bio-materials For BME: CH3",
19="Bio materials For BME: CH4",
20="BME Review",
21="BME Exam Questions",
This app is suitable for USMLE and LPN candidates.
Biomedical engineering (BME) is the application of engineering principles and design concepts to medicine and biology for healthcare purposes (e.g. diagnostic or therapeutic). This field seeks to close the gap between engineering and medicine: It combines the design and problem solving skills of engineering with medical and biological sciences to advance health care treatment, including diagnosis, monitoring, and therapy. Science engineering has evolved manufacturing environmental engineering technology to master pollution control and chemical engineering.
bioengineering, the application of engineering knowledge to the fields of medicine , biology and History
Much of the increase in bioengineering activity can be credited to electrical engineers.
Bioengineering developed out of specific desires or needs:
Medical engineering.
Agricultural engineering.
Biochemical engineering.
Human-factors engineering.
Environmental health engineering. Also called bioenvironmental engineering, t
Genetic engineering.
by T####:
I want to become biomedical engineer