 |
|
The lethal fourth state
April 24, 2003The use of toxic chemicals to sterilise medical instruments may soon be a thing of the past, according to researchers at Old Dominion University in Norfolk, Virginia, and the University of California in San Diego. Their work, released on 30 April 2003 in New Journal of Physics, published jointly by the Institute of Physics and the German Physical Society, tests a new way of killing bacteria using a plasma at room temperature and pressure, which could have applications in decontamination of biological warfare agents and sterilisation.
A plasma is a collection of electrically charged particles such as electrons, and non-charged particles such as radicals (a type of chemically reactive atom or molecule). Plasma is often called the fourth state of matter – you can have matter as a solid, a liquid, a gas, or as a plasma. In the same way that you can turn water (a liquid) into steam (a gas) by heating it, you can also change a gas into a plasma by heating it up even more. Because of this, most plasmas at atmospheric pressure are thousands of degrees Centigrade, and so are impractical for everyday use. However, Dr Laroussi, Dr Mendis and Dr Rosenberg used a ‘cold plasma’ that was close to room temperature and atmospheric pressure in their experiments.
A successful way to make this kind of cold plasma was only developed in the nineteen-nineties. Dr Laroussi and his colleagues can now create cold plasma using two flat electrodes (plates of metal covered with a layer of poorly conducting material, visible in the image above) which have a variable gap between them, up to 5cm. A mixture of 97% helium and 3% oxygen is injected to this gap, and the electrodes are supplied with between 50 and 300 W of power – less than many food processors use. This creates a new type of plasma, which is cheaper and easier to use than previous kinds because it is at room temperature and pressure and uses little power.
The researchers tested the effects that this plasma had on two types of bacteria – one type that forms spores, and one type that does not. This distinction between these two types is important, as bacterial spores are tougher and therefore much harder to kill than the normal ‘vegetative’ bacterial cells. The spore-forming bacterium they used was Bacillus subtilis, which is similar to anthrax, but not dangerous. The other bacterium tested was Escherichia coli, which does not form spores, and is one cause of food poisoning.
After being exposed to the cold plasma, the researchers found that both types of bacteria had been killed. The ultra violet radiation and radicals in the plasma both directly damage many parts of the bacteria, including the DNA. In addition, the charged particles within the plasma can cause structural damage to the outer cell membranes in non-spore-forming bacteria. This happens because electrical charge collects on the outside of the cells, giving rise to an electrical force acting on the cell membrane, which can tear it. Spore-forming bacteria have a rigid membrane with a smooth outer surface, whereas non-spore-forming bacteria have a thin and bumpy outer surface. Thicker and smoother membranes can better withstand the electric forces, so only the non-spore-forming bacteria end up with damaged membranes. The combination of all these factors make cold plasmas lethal to both types of bacteria.
It is likely that cold plasmas would not only kill other kinds of more dangerous bacteria, but also viruses. Although viruses have a different structure from bacteria, they would also become damaged by the charged particles. The possible applications for sterilisation using cold plasmas range from the food industry to planetary space missions. Using plasmas to sterilise food packaging would give the food a longer shelf life than at present. The same technique could also be used on spacecraft leaving Earth to avoid transporting micro-organisms from Earth to other planets or moons.
Dr Laroussi is confident of the potential for applications in the medical field:
“The use of cold plasma to sterilise heat-sensitive reusable medical tools in a rapid, safe, and effective way is bound to replace the present method which uses a toxic gas, ethylene oxide,” he said. “Plasma is also being seriously considered for the decontamination of biological warfare agents.”
Institute of Physics
The researchers tested the effects that this plasma had on two types of bacteria – one type that forms spores, and one type that does not. This distinction between these two types is important, as bacterial spores are tougher and therefore much harder to kill than the normal ‘vegetative’ bacterial cells. The spore-forming bacterium they used was Bacillus subtilis, which is similar to anthrax, but not dangerous. The other bacterium tested was Escherichia coli, which does not form spores, and is one cause of food poisoning.
After being exposed to the cold plasma, the researchers found that both types of bacteria had been killed. The ultra violet radiation and radicals in the plasma both directly damage many parts of the bacteria, including the DNA. In addition, the charged particles within the plasma can cause structural damage to the outer cell membranes in non-spore-forming bacteria. This happens because electrical charge collects on the outside of the cells, giving rise to an electrical force acting on the cell membrane, which can tear it. Spore-forming bacteria have a rigid membrane with a smooth outer surface, whereas non-spore-forming bacteria have a thin and bumpy outer surface. Thicker and smoother membranes can better withstand the electric forces, so only the non-spore-forming bacteria end up with damaged membranes. The combination of all these factors make cold plasmas lethal to both types of bacteria.
It is likely that cold plasmas would not only kill other kinds of more dangerous bacteria, but also viruses. Although viruses have a different structure from bacteria, they would also become damaged by the charged particles. The possible applications for sterilisation using cold plasmas range from the food industry to planetary space missions. Using plasmas to sterilise food packaging would give the food a longer shelf life than at present. The same technique could also be used on spacecraft leaving Earth to avoid transporting micro-organisms from Earth to other planets or moons.
Dr Laroussi is confident of the potential for applications in the medical field:
“The use of cold plasma to sterilise heat-sensitive reusable medical tools in a rapid, safe, and effective way is bound to replace the present method which uses a toxic gas, ethylene oxide,” he said. “Plasma is also being seriously considered for the decontamination of biological warfare agents.”
Institute of Physics
Bacteria Current Events and Bacteria News RSSPlasma produces KO cocktail for MRSA
MRSA (methicillin-resistant Staphylococcus Aureus) and other drug-resistant bacteria could face annihilation as low-temperature plasma prototype devices have been developed to offer safe, quick, easy and unfailing bactericidal cocktails.
Knockouts in human cells point to pathogenic targets
Whitehead researchers have developed a new type of genetic screen for human cells to pinpoint specific genes and proteins used by pathogens, according to their paper in Science.
First-ever blueprint of a minimal cell is more complex than expected
What are the bare essentials of life, the indispensable ingredients required to produce a cell that can survive on its own?
Factors from common human bacteria may trigger multiple sclerosis
Current research suggests that a common oral bacterium may exacerbate autoimmune disease. The related report by Nichols et al, "Unique Lipids from a Common Human Bacterium Represent a New Class of TLR2 Ligands Capable of Enhancing Autoimmunity," appears in the December 2009 issue of The American Journal of Pathology.
Exposure to both traffic, indoor pollutants puts some kids at higher risk for asthma later
New research presents strong evidence that the "synergistic" effect of early-life exposure to both outdoor traffic-related pollution and indoor endotoxin causes more harm to developing lungs than one or the other exposure alone.
New study finds MRSA on the rise in hospital outpatients
The community-associated strain of the deadly superbug MRSA-an infection-causing bacteria resistant to most common antibiotics-poses a far greater health threat than previously known and is making its way into hospitals, according to a study in the December issue of Emerging Infectious Diseases.
Researchers establish common seasonal pattern among bacterial communities in Arctic rivers
New research on bacterial communities throughout six large Arctic river ecosystems reveals predictable temporal patterns, suggesting that scientists could use these communities as markers for monitoring climate change in the polar regions.
Biologists discover bacterial defense mechanism against aggressive oxygen
Bacteria possess an ingenious mechanism for preventing oxygen from harming the building blocks of the cell.
Saving the single cysteine: new antioxidant system found
We've all read studies about the health benefits of having a life partner. The same thing is true at the molecular level, where amino acids known as cysteines are much more vulnerable to damage when single than when paired up with other cysteines.
Beyond sunlight: Explorers census 17,650 ocean species between edge of darkness and black abyss
Census of Marine Life scientists have inventoried an astonishing abundance, diversity and distribution of deep sea species that have never known sunlight - creatures that somehow manage a living in a frigid black world down to 5,000 meters (~3 miles) below the ocean waves.
More Bacteria Current Events and Bacteria News Articles
 |
A Field Guide to Bacteria (Comstock Book) by Betsey Dexter Dyer (Author) Pocket-guide to observing bacteria without a laboratory or fancy equipment. Presents all the major taxonomic groups of bacteria in a useable, accessible format for amateur naturalists who may or may not have access to a microscope. Includes ideas for planning field trips to explore bacteria in their natural environments. Illustrated, some color. Softcover, hardcover available. |
 |
Ein-O Science BioSigns Bacteria by Tedco The hands on cell and microbiology models provide magnified and cross section details. The set includes Virus, Bacteria, Plant Cell, White Blood Cell, Red Blood Cell and Animal Cell. Ein-O's I Know Guides and storage box are included. Consider using these models with a display of your own making - featuring the intricacies of cell structure, comparing and contrasting differences, investigating functions & interactions, or describing the efforts of modern medicine... a neat Science Fair Project. Virus - This hands-on interactive model provides magnified and cross-sectioned detailing of a Virus. Animal Cell - This hands-on interactive model provides magnified and cross-sectioned detailing of an Animal Cell. White Blood Cell - This hands-on interactive model provides... |
 |
Bacteria (Discovery Channel School Science) by Lynn Brunelle (Author), Barbara Ravage (Author), Lynn Brunelle (Editor), Barbara Ravage (Editor), Gareth Stevens Publishing (Editor) |
 |
Good Germs, Bad Germs: Health and Survival in a Bacterial World by Jessica Snyder Sachs (Author) Making Peace with Microbes Public sanitation and antibiotic drugs have brought about historic increases in the human life span; they have also unintentionally produced new health crises by disrupting the intimate, age-old balance between humans and the microorganisms that inhabit our bodies and our environment. As a result, antibiotic resistance now ranks among the gravest medical problems of modern times. Good Germs, Bad Germs addresses not only this issue but also what has become known as the “hygiene hypothesis”— an argument that links the over-sanitation of modern life to now-epidemic increases in immune and other disorders. In telling the story of what went terribly wrong in our war on germs, Jessica Snyder Sachs explores our emerging understanding of the symbiotic... |
 |
60 Minutes - Superbug (November 11, 2007) Airdate 11/11/07 MRSA is a superbug, a staff infection that has moved out of hospitals and nursing homes and is now infecting healthy people, sometimes killing them. That's because once the MRSA infection gets into the blood stream, it is largely resistant to antibiotics. For now, the best medicine is prevention. What does this mean? Scrubbing down school desks? Hosing down team locker rooms? Sending infected kids home? Lesley Stahl reports. This product is manufactured on demand using DVD-R recordable media. Amazon.com's standard return policy will apply. |
 |
Molecular Genetics of Bacteria (Snyder, Molecular Genetics of Bacteria) by Larry Snyder (Author), Wendy Champness (Author) This landmark volume provides the single most comprehensive and authoritative textbook on bacterial molecular genetics. Perfect for advanced undergraduate and graduate-level courses, the text presents the latest research on the subject in a clearly written and well-illustrated style. It provides descriptive background information, detailed experimental methods, examples of genetic analyses, and advanced material relevant to current applications of molecular genetics. While providing a deep understanding of bacterial molecular genetics, the material is integrated with biochemical, genomic, and structural information to broaden understanding. The approach centers on the most-studied bacteria, Escherichia coli and Bacillus subtilis. In addition, examples from other bacteria with... |
 |
Magic School Bus World of Germs Science Kit by Young Scientist Club The World of Germs- Magic School Bus Science Kit FUN |
 |
Essick Air #1970 Quart Bacteria Treatment by ESSICK AIR PRODUCTS QT, Humidifier Bacteria Treatment, Helps Fight Bacteria & Algae Build Up, Keeps Water Smelling Clean, EPA Registered, For Use In All Evaporative Console & Room Size Humidifiers. |
 |
Disposable EARLOOP Face MASK, Filters Bacteria 3 Ply - (Box of 50) by EVERREADY FIRST AID Tie-on surgical face mask with high bacterial filtration efficiency (BFE), low breathing resistance, soft, odorless, non-irritating, comfortable superior fit, fiberglass free. |
 |
Enzymatic Therapy Acidophilus Pearls (90 Pearls) by Enzymatic This formula provides a combination of Acidophilus and Bididiobacterium species to support the overall health of the intestinal tract. |
| © 2009 BrightSurf.com |