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'''Bioinstrumentation''' is an application of Biomedical Engineering, which focuses on the devices and mechanics used to measure and evaluate biological systems. It is a new and upcoming field, concentrating on treating diseases and bridging together the engineering and medical worlds. The majority of innovations within the field have occurred in the past 15-20 years. Bioinstrumentation has revolutionized the medical field, and has made treating patients much easier. The instruments/sensors convert signals found within the body into electrical signals.<ref>{{cite web|title=Bioinstrumentation|url=http://bioeng.berkeley.edu/research/bioinstrumentation|website=Berkeley Bioengineering|publisher=University of California|accessdate=28 March 2018|ref=1}}</ref> There are many subfields within bioinstrumentation, they include: biomedical options, creation of sensor, genetic testing, and drug delivery. <ref name="What is Bioinstrumentation?">{{cite web|title=What is Bioinstrumentation?|url=http://www.wisegeek.com/what-is-bioinstrumentation.htm|website=wiseGEEK|publisher=Conjecture Corporation|accessdate=30 March 2018|ref=2}}</ref> Other fields of engineering, such as electrical engineering and computer science, are related to bioinstrumentation. <ref name="What is Bioinstrumentation?" />
'''Bioinstrumentation''' is an application of Biomedical Engineering, which focuses on the devices and mechanics used to measure and evaluate biological systems. It is a new and upcoming field, concentrating on treating diseases and bridging together the engineering and medical worlds. The majority of innovations within the field have occurred in the past 15-20 years. Bioinstrumentation has revolutionized the medical field, and has made treating patients much easier. The instruments/sensors convert signals found within the body into electrical signals.<ref name="Bioinstrumentation?">{{cite web|title=Bioinstrumentation|url=http://bioeng.berkeley.edu/research/bioinstrumentation|website=Berkeley Bioengineering|publisher=University of California|accessdate=28 March 2018|ref=1}}</ref> There are many subfields within bioinstrumentation, they include: biomedical options, creation of sensor, genetic testing, and drug delivery. <ref name="What is Bioinstrumentation?">{{cite web|title=What is Bioinstrumentation?|url=http://www.wisegeek.com/what-is-bioinstrumentation.htm|website=wiseGEEK|publisher=Conjecture Corporation|accessdate=30 March 2018|ref=2}}</ref> Other fields of engineering, such as electrical engineering and computer science, are related to bioinstrumentation. <ref name="Bioinstrumentation" />


==Start of the Field==
==Start of the Field==

Revision as of 04:32, 30 March 2018

Bioinstrumentation is an application of Biomedical Engineering, which focuses on the devices and mechanics used to measure and evaluate biological systems. It is a new and upcoming field, concentrating on treating diseases and bridging together the engineering and medical worlds. The majority of innovations within the field have occurred in the past 15-20 years. Bioinstrumentation has revolutionized the medical field, and has made treating patients much easier. The instruments/sensors convert signals found within the body into electrical signals.[1] There are many subfields within bioinstrumentation, they include: biomedical options, creation of sensor, genetic testing, and drug delivery. [2] Other fields of engineering, such as electrical engineering and computer science, are related to bioinstrumentation. [3]

Start of the Field

Biomedical Optics

Circuits/Creation of Sensors

Genetic Testing

Drug Delivery

Future Plans

Notes

  1. ^ "Bioinstrumentation". Berkeley Bioengineering. University of California. Retrieved 28 March 2018.
  2. ^ "What is Bioinstrumentation?". wiseGEEK. Conjecture Corporation. Retrieved 30 March 2018.
  3. ^ Cite error: The named reference Bioinstrumentation was invoked but never defined (see the help page).