2. What are biosensors?
A biosensor is an analytical device which converts a biological
signal into electrical signal.
An analytical device where immobilized layer of biological
material is in contact with sensor which analyses the
biological signal& convert it in to electrical signal
(Gronow,1984).
3. According to a recently proposed IUPAC definition , “ A biosensor is a
self-contained integrated device which is capable of providing specific
quantitative or semi-quantitative analytical information using a biological
recognition element (biochemical receptor) which is in direct spatial
contact with a transducer element.
4.
5. Dr. Leland Clark Jr
“Father of the biosensor”
History of Biosensors
First described in 1962 by Dr. Leland Clark
1969, a sensor was invented to detect urea
1972 ,the first glucose biosensor
commercialized by Yellow Springs Instruments
6. Components of the Biosensor
A) Biological components
1. Enzymes
2. Antibody
3. Microorganisms
4. Cell etc.
B) Physical components
1. Transducer
2. Detector
3. Signal processing unit
4. Amplifier
9. Methods of detection
1. Electrochemical method of detection-
Production of electrical potential due to change distribution of
the electrons.
2. Amperometric method of detection-
Movement of electrons due to redox reactions.
3. Thermistor method of detection-
Heat released or absorbed by the reactions.
4. Optical method of detection-
Light produced or absorbed by the reaction.
5. Piezoelectric method of detection-
Change in the mass of biological components as a result of the
reaction.
10.
11.
12. Piezo-Electric Biosensors
• Piezo-electric devices use gold to detect the specific angle at which
electron waves are emitted when the substance is exposed to laser
light or crystals, such as quartz, which vibrate under the influence of
an electric field.
13. Potentiometric Biosensor
• For voltage: Change in distribution of charge is detected using ion-
selective electrodes, such as pH-meters.
14. Calorimetric Biosensors
• If the enzyme catalyzed reaction is exothermic, two thermistors may
be used to measure the difference in resistance between reactant
and product and, hence, the analyte concentration.
15. Advantages:
Rapid detection
Small volumes of samples needed
Can be used by the patient (blood glucose monitor)
They can measure nonpolar molecules that do not respond to most measurement devices
Biosensors are specific due to the immobilized system used in them
Rapid and continuous control is possible with biosensors
Response time is short (typically less than a minute) and
Practical
16. Disadvantages;
Cost
May require expertise to use
Sample collection can be painful
Stability of biological material (such as enzyme, cell, antibody, tissue, etc.),
depends on the natural properties of the molecule that can be denaturalized
under environmental conditions (pH, temperature or ions)
The cells in the biosensor can become intoxicated by other molecules that
are capable of diffusing through the membrane.
21. Food Analysis
Study of biomolecules and their interaction
Drug Development
Crime detection
Medical diagnosis (both clinical and laboratory use)
Environmental field monitoring
Quality control
Industrial Process Control
Detection systems for biological warfare agents
Manufacturing of pharmaceuticals and replacement
organs
In military applications(gases used in chemical
Application of Biosensor
23. Biosensors can be used to measure the levels of pesticides, herbicide and
heavy metals in the soil and ground water.
Biosensors can also be used to forecast the possible occurrence of soil
disease, which has not been feasible with the existing technology.
• A biosensor has been developed for the detection of the fungus
Phakopsora pachyrhizi that causes Asian rust or Soybean rust.
• Biosensor for the detection of aflatoxin in olive oil has been developed
24. Biosensors in today’s world;
• Mostly they are tested only on non-real samples such as in distilled
water or buffer solutions, but few applied to real samples in recent
years.
• The application of biosensors to real samples must be a necessary step
before their commercialization, which is the aim of the device
development.
• Most commercial biosensors developed are needed to focus in clinical
applications, such as for glucose and lactate.
• Prospective biosensor market for food, pharmaceutical, agriculture,
military, veterinary and environment are still to be explored.
25. Requirements needed for successful commercialization of biosensors
Insensitive
to
temperatur
e
Insensitive to
environmental
interference
The accuracy
and
reproducibility
The
response
rate
Costs and
capital
Biosensor
Prevention of
pollution
26. Reference;
• ‘Research and development in biosensors’ by F.W. Scheller, U.
Wollenberger, A. Warsinke
• Biosensors by Ralph P. Cavalieri and Jose I. Reyes De Corcuera
• Research paper on‘ Biosensor; use in agriculture’in International
journal of scientific research.
Notas do Editor
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The bioreceptor is a biomolecule that recognizes the target analyte
The transducer converts the recognition event into a measurable signal.
<number>
Human chorionic gonadotrophin (hCG), a hormone that is secreted in urine during pregnancy.Read more: http://www.madehow.com/Volume-4/Home-Pregnancy-Test.html#ixzz4BcQtcJC3
<number>
Aflatoxins produced by molds Aspergillus
flavus and Aspergillus parasiticus are carcinogenic to humans.
Aflatoxin has inhibitory effect on acetylcholinesterase (AchE)
and its detection is coupled with the decrease in the activity of
AchE which is measured using a choline oxidase amperometric
biosensor.
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