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2013
06. Safe fragrances
05. DNA mass information store
04. Garden mounds for permaculture
03. Silver as high-tech material
02. Micro needle transmits medications and light
01. Electricity storage in gravity systems

2012
12. An eye on space hazards
11. Water purification through freezing
10. Solar shingles
09. Trinary code
08. Vegetation-based battery materials
07. Indoor position location
06. The interface industry
05. Hypersonic aircraft
04. Re-usable glass packaging
03. Vein patterns as personal ID
02. Magnet making bacteria
01. Ultra-light solids

2011
12. Ultrasound in water
11. Projected touchscreen
10. Electric airplane
08. Glass hard disc
04. Nuclear hazard
03. Clearing “sewer soap”
02. Water harvesting
01. Tea bag size personal water filter

2010
12. Human powered water transport
11. The Technium
08. Bio-remediation of oil spills
07. Cleaner coal
05. Oil spill remediation
04. Solar towers
03. Brain-computer
02. Biodiesel producing bacteria
01. Hydrogen producing bacteria

2009
12. Levitating living organisms
11. A new blue
10. Polymer magnets
09. Electric vehicle batteries
08. Implantable cancer monitors
07. Algal biofuel
06. Geo-Thermal Heat Pump
05. Battery powered roadster
04. Fenestration
03. Text to voice
02. Implantable ID chips
01. Air cleansing building material

2008
12. ebooks
11. Energy Harvesting
10. Private space-flights
09. Virus identification chip
08. Bio-fuels
07. Electronic financial trading
06. Bio-remediation
05. New tech agriculture
04. Manufactured Hotels
03. Magnetic Induction
02. Genetic Vaults
01. Solid-state lighting

2007
12 Bacteria in agriculture and industry
11. Blue revolution
10. Electronic nose
09. Nuclear sarcophagus
08. Shape shifting technology
07. Thought activated technology
06. Green is cool - make me look green
05. Electronic 'drugs'
04. Super-canals and super-ships
03. Environmentally friendly technology: greens versus grays
02. Agriculture: food,fiber and fuel
01. FPGA floating-point performance surpasses microprocessor

2006
08. Energy sources for electricity compete
07. Universal interface (UI)
06. Magnetic levitation
05. Light pipes
04. Storage of electricity
03. Automotive engines
02. Molecular assembly
01. Introducing Technoscan Newsbriefs


Vol. 4, No. 8, August 31, 2009
ISSN 1932-3018

Implantable cancer monitors
Positioning this technology in the
Functionality Grid
  Output
Matter
(M)
Energy
(E)
Information
(I)
A
C
T
I
O
N
Process
Transport
Storage
Reformatted from: Van Wyk, Rias J: Technology - A Unifying Code, 2004, SMG, Cape Town, p.34. Based on: Ropohl, Gunter: Eine Systemtheorie der Technik, 1979, Carl Hanser Verlag, Munich and Vienna, p.178.
This Newsbrief deals with cancer monitors. More particularly it deals with implantable devices, used for monitoring bio-markers within the human body. In terms of the Atlas of Technological Megatrends it is concerned with two functionalities, i.e., information processing and transmission.
In an earlier Newsbrief, (Vol. 4, No. 2) dealing with implantable ID chips, technology explorers were alerted to "the vast potential for linking this device to implantable health care devices". An article in the New York Times of August 30, 2009, reports on a development that moves one step forward in this direction. It discusses an implantable monitor for cancer. (Eisenberg, Anne: "Beyond the Biopsy: A Tiny Monitor for Cancer", page BU3).
The implantable device has four features:
  • It uses a unique sensor system - tiny nano-sized particles
  • It is small - the size of a grain of rice
  • It can be inserted readily - by means of a needle no thicker than a biopsy needle
  • It can be located close to the tumor
The device is in the prototype phase. It is attributed to Dr Michael J. Cima of MIT, and consists of a small plastic container with a reservoir that contains magnetic nano particles. Molecules linked to cancer enter the container and bind with the nano particles. Compounds are formed that can be detected by means of an external scanning device like a magnetic resonance imaging (MRI) machine. In this way cancer sites can be continuously monitored to trace the development of cancer and to observe the impact of treatment.
Technology explorers should keep track of this technology and anticipate further progress. This could include an improvement in the way in which the monitor is read - a hand held receiver is foreseen - and a linking of the device to a drug delivery system.

© Rias J. van Wyk, 2013. Editor.