Biosensor Working & Application
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May 01, 2021
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About This Presentation
Pharmaceutical Biotechnology B. Pharmacy 6 semester UNIT I
Working & Application of Biosensor in Pharmaceutical Industries
Slide Content
Biosensors
Mr. Anirudha Munde
Assistant Professor
SVP College of Pharmacy
Mr. Anirudha Munde
Assistant Professor
SVP College of Pharmacy
BIOSENSOR
BIO : Biological Substance/Molecule
Sensor: Sensitivity / Concentration
BIO : Biological Substance/Molecule
Sensor: Sensitivity / Concentration
A biosensor is a device that has the potential to
detect a particular substance or analyte with high
specificity.
Examples of such analytes include glucose,
lactate, glutamate and glutamine.
Most biosensors are capable of measuring the
concentration of an analyte in an aqueous
solution, generally producing an electrical signal,
which is considered to be proportional to the
analyte’s concentration in its measuring range.
detect a particular substance or analyte with high
specificity.
Examples of such analytes include glucose,
lactate, glutamate and glutamine.
Most biosensors are capable of measuring the
concentration of an analyte in an aqueous
solution, generally producing an electrical signal,
which is considered to be proportional to the
analyte’s concentration in its measuring range.
These are analytical devices which
measures concentration of an
analyte. In biosensor biological
material interact with an analyte,
thus interaction produce some
detectable physical change which is
measured & converted in to
electrical signal by a transducer
measures concentration of an
analyte. In biosensor biological
material interact with an analyte,
thus interaction produce some
detectable physical change which is
measured & converted in to
electrical signal by a transducer
Father of Biosensor
Prof. Leland C Clark
invented the clark
oxygen electrode,
the device that allow
real time monitoring
of patient blood
oxygen level
Prof. Leland C Clark
invented the clark
oxygen electrode,
the device that allow
real time monitoring
of patient blood
oxygen level
A. Analyte : These are the substance which
are measured
Eg. Molecule, Blood, Urine, Vit. Protein, Gas.
B. Biomolecules: These are the substance which
react with Analyte
Eg. Enzyme, antibody, Cells, Nucleic acid
are measured
Eg. Molecule, Blood, Urine, Vit. Protein, Gas.
B. Biomolecules: These are the substance which
react with Analyte
Eg. Enzyme, antibody, Cells, Nucleic acid
C. Transducer : These are the substance
which generate electrical impulses
It convert the physical changes in to electrical
impulses
Thermal impulses, Magnetic changes, optical
changes, Chemical, etc .
which generate electrical impulses
It convert the physical changes in to electrical
impulses
Thermal impulses, Magnetic changes, optical
changes, Chemical, etc .
1. Heat released or absorbed by reaction
(Calorimetric biosensors )
2. Production of an electrical potential due to
the changes electrons distribution
(potentiometric biosensor )
3. Movement of electrons due to redox
reaction (Amperiometric biosensor )
(Calorimetric biosensors )
2. Production of an electrical potential due to
the changes electrons distribution
(potentiometric biosensor )
3. Movement of electrons due to redox
reaction (Amperiometric biosensor )
4.Light Produced or absorbed during reaction
(optical biosensors)
5. Changes in mass of the biological
components as a result of reaction ( acoustic
wave)
(optical biosensors)
5. Changes in mass of the biological
components as a result of reaction ( acoustic
wave)
1. calorimetric biosensor : They measures
change in temperature due to release or
absorb of heat
2. Potentiometric Biosensors : They measures
potential difference arising during a redox
reaction eg. Urea biosensor
3. Amperiometric biosensor : They measure
current ( flow of electrons) arising duriang a
reaction eg. Glucose biosensor
change in temperature due to release or
absorb of heat
2. Potentiometric Biosensors : They measures
potential difference arising during a redox
reaction eg. Urea biosensor
3. Amperiometric biosensor : They measure
current ( flow of electrons) arising duriang a
reaction eg. Glucose biosensor
4. Conductometric biosensors: They measure
change in electrical conductivity during
reaction eg. Urea biosensors
5. Acoustic wave biosensors : They measures
Changes in mass of the biological
components as a result of reaction eg. Cocain
biosensor
6. Optical biosensors: They measures light
arising from the reaction of enzyme luciferase
change in electrical conductivity during
reaction eg. Urea biosensors
5. Acoustic wave biosensors : They measures
Changes in mass of the biological
components as a result of reaction eg. Cocain
biosensor
6. Optical biosensors: They measures light
arising from the reaction of enzyme luciferase
Food analyse FDA
Medical diagnosis
Study of biomolecules
Virus analysis
Pharmaceutical & drug Analysis
Drug adulteration analysis
Pollution control & monitoring
Medical diagnosis
Study of biomolecules
Virus analysis
Pharmaceutical & drug Analysis
Drug adulteration analysis
Pollution control & monitoring
1.Highly specific
2. Easy to use
3. Durable
4. Required small quantity of sample
5. Less irritating
2. Easy to use
3. Durable
4. Required small quantity of sample
5. Less irritating
In enzyme electrode an enzyme can be combined
with an electrochemical sensor.
In enzyme electrode is a combination of any
electrochemical probe ( Amperiometric
potentiometric or conductometer ) with a thin layer
(10-200mm) of immobilized enzyme
The enzyme located in the membrane produce such
as H ions, O2, NH4 ions Co2 or other molecules
which are detected by electrode
with an electrochemical sensor.
In enzyme electrode is a combination of any
electrochemical probe ( Amperiometric
potentiometric or conductometer ) with a thin layer
(10-200mm) of immobilized enzyme
The enzyme located in the membrane produce such
as H ions, O2, NH4 ions Co2 or other molecules
which are detected by electrode
Eg. In Urea electrode Urease Enzyme covert
the urea in to NH4 Ions these ions can be
detected by ions electrode. The ammonia
concentration recorded
The potential recorded is proportional to the
concentration of urea in to sample solution
the urea in to NH4 Ions these ions can be
detected by ions electrode. The ammonia
concentration recorded
The potential recorded is proportional to the
concentration of urea in to sample solution
A. Amperiometric :
B Conductometric :
C Potentiometric :
B Conductometric :
C Potentiometric :
Principle : Based on a thin layer glucose
oxidase on an oxygen electrode
Glucose + Glucose oxidase Gluconic
acid + Glucose Oxidase (Reduced form)
Reduced GOD + Surrounding Oxygen +
electrodes H2O2 + Glucose oxidase
* H202 Concentration can be detected by
platinum electrode
oxidase on an oxygen electrode
Glucose + Glucose oxidase Gluconic
acid + Glucose Oxidase (Reduced form)
Reduced GOD + Surrounding Oxygen +
electrodes H2O2 + Glucose oxidase
* H202 Concentration can be detected by
platinum electrode
THANK YOU
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