Abba mems pepar
Transcript of Abba mems pepar
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IBRAHIM ABBA
DEPARTMENT OF INSTRUMENTATION AND CONTROL ENGINEERING,
SRM UNIVERSITY
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MICROELECTROMECHANICAL (MEMS)
It is a technology of combining Electrical and Mechanical
components together on a chip, to produce a system of
miniature dimensions ..
By miniature, we mean dimensions less than the
thickness of human hair !!!!
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WHAT ARE MEMS
(Micro-electromechanical Systems)
Fabricated using micromachining technology
Used for sensing, actuation or are passive micro-structures
Usually integrated with electronic circuitry for control and/or
information processing
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Sequence of MEMS
Pressure sensor
Accelerometer
BioMEMS
IT MEMS for Telecommunication:
Other MEMS ( OptoMEMS and RF MEMS)
TECHNOLOGY DYNAMICS
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Medical 11%
Automotive 17%
Computer 26%
Communictions
21%
Industrial 22%
Consumer 3%
RECENT MARKET STATISTICS
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PROJECTED GLOBAL MEMS MARKET, 2008-2014
($ MILLIONS)
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HEALTH
The health is the level of functional or metabolic
efficiency of a living organism.
In humans, it is the general condition of a person’s
mind and body, being free from illness, injury or pain.
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WHY MEMS TECHNOLOGIES ARE APPLY TO MEDICAL
FIELD?
Miniaturization.
Many medical instrumentations are expensive, bulky, heavy and require
experienced technicians to operate. This is partially due to the
component sizes and the analysis methodology. MEMS can reduce the
component sizes significantly and enable new analysis methods so
portable, highly-sensitive diagnosis tools would become possible
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BENEFITS OF MEMS IN MEDIC AL APPLICATIONS
Small volume of reagent samples (like blood), required for analysis.
Low power consumption, hence lasts longer on the same battery.
Less invasive, hence less painful.
Integration permits a large number of systems to be built on a single chip.
Batch processing can lower costs significantly.
Existing IC technology can be used to make these devices.
Silicon, used in most MEMS devices, interferes lesser with body tissues.
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BioMEMS SET
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www.micralyne.com
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Biomedical MEMS – deals “in vivo”, within the host body.
→ precision surgery
→ Biotelemetry
→ Drug delivery
→ Biosensors and other physical sensors
Biotechnology MEMS – deals “in vitro”, with the biological samples obtained from the host body.
→ Diagnostics
→ gene sequencing
→ Drug discover
→ pathogen detection and elimination
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It is a diagnostic procedure which involves the introduction of a
flexible device into the lower or upper gastrointestinal tract for
diagnostic or therapeutic purposes.
Conventional endoscopes can be used to view only the first
third of the small intestine.
Require sedation of patient
Is an uncomfortable procedure
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Conventional
endoscope tools
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Size : 35mmComponents of lab on a pill Digital camera (CMOS Technology)Light sourceBatteryRadio transmitterSensors (MEMS Technology)
Requires no sedationCan show a view of the
entire small intestineCan aid in early d
Leters endoscopes technology
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WORKING OF THIS
MAGIC PILL !
The pill is intended to be swallowed like any normal pill.
Once within the body, the pill's sensors sample body fluids and pick
up "meaningful patient data" such as temperature, dissolved oxygen
levels and pH.
The pill is expected to retrieve all data over a 12-hour period and
disposed off, once excreted.
This data is transmitted wirelessly to a card attached
to the wrist of the individual.
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Smart pillA MEMS device that can be implanted in the human body.
Consists of
biosensors
Battery
Control circuitry
Drug reservoirs
The biosensors sense the substance to be measured, say insulin.
Once this quantity falls below a certain amount required by the body, the
pill releases the drug.
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MICRO-SURGICAL TOOLS
•Present day surgeons operate within a domain restricted by the
mobility and control of the surgical tools at hand.
•MEMS surgical tools provide the flexibility and accuracy to perform
precision surgery.
Examples of microsurgical tools include:
•MEMS driven scalpel
•Precise control of the scalpel is an important requirement in any
surgery.
•MEMS piezoelectric motor helps to accurately position the scalpel.
•MEMS pressure sensors incorporated on the scalpel, so that it can
help to measure the force exerted on the area operated upon.
Accordingly, the scalpel can he handled.
•Ultrasonic MEMS cutting tool
•These tools make use of piezoelectric materials attached to the
cutter.
•It consists of microchannels to flush out the fluid and debris while
cutting.
•Can be used to cut tough tissues, like the hardened lenses of patients
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MEMS SKIN RESURFACING TOOLS
Though still not commercially available, MEMS tools have been found
to overcome many drawbacks present in the conventional techniques.
They can be used to remove raised skin lesions as well as lesions upto
certain depths.
These MEMS structures are packaged onto rotary elements and used
over the affected areas.
The debris can then be sucked out using a suction pump.
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MEMS enables hundreds of hollow
microneedles to be fabricated on a single
patch of area, say a square centimeter.
This patch is applied to the skin and drug
is delivered to the body using
micropumps.
These micropumps can be electronically
controlled to allow specific amounts of
the drug and also deliver them at specific
intervals.
Microneedles are too small to reach and
stimulate the nerve endings, and hence
cause no pain to the body.
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MEMS MICRONEEDLES
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PATHOGEN DETECTION
AND ELIMINATION
These are micro/nano scale devices capable of detecting and
eliminating medical problems such as:
•Tumors,Life threatening blood clots ,Accumulation of scar
tissue,Arterial blockage,Plaque detection and Localized sites of
infection
Considerations before introducing the robots into the body
• The robot size should be smaller than the diameter of the
artery .
• The robot should not damage the arterial walls as it
traverses through it.
• The robot can be introduced into the body through the
circulatory system of the body.
• The femoral artery in the leg would be the most suited,
because it is a large diameter artery and is traditionally used
to introduce catheters in the body.
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www.e-spaces.com/portfolio/ trans/blood/
A Graphical Representation of nanorobots working in a blood
vessel, to remove a cancerous cell
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CONCLUSIONs
As MEMS technology reaches the biomedical field, complex,
implantable, tiny devices are emerging, whose goal is improved
healthcare. Life of the device, retrieving data out of the device and
drift resistance along with the body fluids remain the challenges to the
technology.Despite the great achievements recorded through the use
of these devices, many of them are not free from certain
complications such as device failure, attraction of harmful
microorganisms, rejection etc. Biocompatibility remains one of the
biggest hurdle for MEMS medical devices.
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