Nurses wearing gloves sprinkled them with glow-in-the-dark powder and went about their work. In the dark, they could see the powder ended up everywhere, including on their faces, the same way germs spread.
As the number of world travelers increases, so does the opportunity for diseases to travel from people and hospitals in one country to another. Superbugs with super names, like methlcillin-resistant Straphylococcus aureus (MRSA) and carbapenem-resistant Enterobacteriaceae (CRE), are most dangerous. They resist the antibiotics that usually can cure bacterial infections in wounds, blood, and the gut, for example.
Using antibiotics to cure a virus, such as coronavirus, known as COVID-19, is actually harmful. Not only are they ineffective against viruses, but they also help build up resistance to the best drugs for fighting bacterial infections.
Viruses are extremely tiny. They consist of a packet of DNA or RNA messengers within a protein and fatty-like envelope that does not dissolve in water. Some viruses, such as COVID-19, include spikes able to fasten themselves to living human, animal, and plant cells. Although viruses cannot exist outside a living host cell, once their chemical compounds penetrate and infect a cell, they compromise the cell's immune system. Unless an antiviral drug stops them, virus-infected cells can each reproduce a million copies ready to infect more hosts.
It is all too easy for children (and adults) to transfer germs that can remain harmless on skin and around nostrils into their noses and mouths where they cause disease. Prevention can be relatively easy, if hand sanitizers are accessible in handy locations. Children who are around animals especially need to wash their hands, and even doctors need to be reminded of the need to wash their hands between routine patient contacts.
Earlier posts stress the importance of reducing resistance to antibiotics by using these drugs sparingly. See "Global Search for New Antibiotics" and "Diseases and Cures Travel the Globe."
Showing posts with label infections. Show all posts
Showing posts with label infections. Show all posts
Wednesday, January 8, 2020
Friday, October 26, 2018
Disabilities Need Not Define Anyone
Nobel prizes do not begin to recognize all the scientific advances overcoming human frailties. Actually, scientists and others have a lot to work with: the capabilities of the human body, including its immune system, and brains.
From a wheelchair-accessible igloo built by a Dad to robotic legs that enabled a veteran to walk for the first time in 30 years, people are not giving up on those with infirmities. A performer with no feet can be "Dancing with the Stars" on TV, a young lady with Downs Syndrome has modeled a gown on a designer's catwalk, a sightless artist's paintings hang in a gallery, a former spy recovered from being poisoned by foreign agents. Google's 2019 Super Bowl commercial showed how video game controllers can be adapted for those with disabilities. Users can open packaging for games with their teeth, if necessary.
Around the world, people are figuring out how to provide the little boost some need to keep connected with society. That's always been done. Ben Franklin realized older people needed bifocals when their eyes' focus changed. Someone came up with white canes to help sighted people look out for the blind. FDR could become President with the help of leg braces, a wheelchair, and a car's driver. And Dr. Salk created a cure for polio so victims of the disease no longer needed these assists.
At abledata.com, check out "assistive technology information" about the wide range of products available to overcome walking, sitting, personal care, communication, hearing, and other limitations.Also see usicd.org (the U.S. International Council on Disabilities), the authors at disabilityinkidlit.com, and read The Unbeatable Squirrel Girl 2 Fuzzy, 2 Furious by Shannon and Dean Hale. A teen character wears a hearing aid.
Several special projects deserve mention. In Washington, D.C., deaf, hard-of-hearing, and hearing employees run a Starbucks using American Sign Language. In Brazil, trendwatching.com tells how a foundation for the blind and a beer institute teamed up to teach blind students to employ their enhanced smell and taste in service to the sensory analysis of beer. The first of "The 50 Best Inventions of 2018" featured by TIME magazine this year (Nov.28/Dec.3, 2018 issue) is a robotic arm that updated the artificial arm, shown on PBS's "Antique Roadshow," that was invented for injured soldiers in the American Civil War.
While helping an 80-year-old friend navigate a luncheon outing, I saw how easily she converted her walker to a wheelchair, locked a brake, and hung her purse on the handle. If she wanted to take any of what she didn't eat home, she had a bag hanging ready on the other handle. To fit in my car, the unlocked walker/chair easily collapsed. In his final years, a therapy dog helped former President George H. W. Bush the way animals, including a horse, assist and comfort ill, blind, and other disabled people.
According to TIME magazine's section on 2018's innovations (Nov. 26/Dec. 3, 2018), three million Americans need to get around in wheelchairs. Whill's new $4,000 electric Model C1 wheelchair, available in different colors, can travel 10 miles indoors and out, climb 2-inch obstacles, maneuver in cramped spaces, and disassemble for transport in minutes.
Elsewhere, scientists work to discover what can help us and what can hurt us. Glyphosate was hailed as a way to rid fields of weeds but it also was discovered to be a possible cancer-causing agent for humans. The same gene editing that promises to rid the world of malaria-carrying mosquitoes can inject dangerous mutations into generations of humans. Controversy continues to fuel debate over how cellphone radiation might contribute to memory loss, brain cancer and sperm damage. The manufacturer of Truvada tries to warn those who use the pill that reduces the risk of contracting HIV through sex that additional safe sex practices are still needed to prevent pregnancy, syphilis and other sexually transmitted infections. Besides, for Truvada or its generic equivalents to work, those who need it have to come forward.
The good news is: young people always will have an opportunity to create ways to overcome human limitations, and all of us humans know there are folks thinking up ways to make our lives better.
From a wheelchair-accessible igloo built by a Dad to robotic legs that enabled a veteran to walk for the first time in 30 years, people are not giving up on those with infirmities. A performer with no feet can be "Dancing with the Stars" on TV, a young lady with Downs Syndrome has modeled a gown on a designer's catwalk, a sightless artist's paintings hang in a gallery, a former spy recovered from being poisoned by foreign agents. Google's 2019 Super Bowl commercial showed how video game controllers can be adapted for those with disabilities. Users can open packaging for games with their teeth, if necessary.
Around the world, people are figuring out how to provide the little boost some need to keep connected with society. That's always been done. Ben Franklin realized older people needed bifocals when their eyes' focus changed. Someone came up with white canes to help sighted people look out for the blind. FDR could become President with the help of leg braces, a wheelchair, and a car's driver. And Dr. Salk created a cure for polio so victims of the disease no longer needed these assists.
At abledata.com, check out "assistive technology information" about the wide range of products available to overcome walking, sitting, personal care, communication, hearing, and other limitations.Also see usicd.org (the U.S. International Council on Disabilities), the authors at disabilityinkidlit.com, and read The Unbeatable Squirrel Girl 2 Fuzzy, 2 Furious by Shannon and Dean Hale. A teen character wears a hearing aid.
Several special projects deserve mention. In Washington, D.C., deaf, hard-of-hearing, and hearing employees run a Starbucks using American Sign Language. In Brazil, trendwatching.com tells how a foundation for the blind and a beer institute teamed up to teach blind students to employ their enhanced smell and taste in service to the sensory analysis of beer. The first of "The 50 Best Inventions of 2018" featured by TIME magazine this year (Nov.28/Dec.3, 2018 issue) is a robotic arm that updated the artificial arm, shown on PBS's "Antique Roadshow," that was invented for injured soldiers in the American Civil War.
While helping an 80-year-old friend navigate a luncheon outing, I saw how easily she converted her walker to a wheelchair, locked a brake, and hung her purse on the handle. If she wanted to take any of what she didn't eat home, she had a bag hanging ready on the other handle. To fit in my car, the unlocked walker/chair easily collapsed. In his final years, a therapy dog helped former President George H. W. Bush the way animals, including a horse, assist and comfort ill, blind, and other disabled people.
According to TIME magazine's section on 2018's innovations (Nov. 26/Dec. 3, 2018), three million Americans need to get around in wheelchairs. Whill's new $4,000 electric Model C1 wheelchair, available in different colors, can travel 10 miles indoors and out, climb 2-inch obstacles, maneuver in cramped spaces, and disassemble for transport in minutes.
Elsewhere, scientists work to discover what can help us and what can hurt us. Glyphosate was hailed as a way to rid fields of weeds but it also was discovered to be a possible cancer-causing agent for humans. The same gene editing that promises to rid the world of malaria-carrying mosquitoes can inject dangerous mutations into generations of humans. Controversy continues to fuel debate over how cellphone radiation might contribute to memory loss, brain cancer and sperm damage. The manufacturer of Truvada tries to warn those who use the pill that reduces the risk of contracting HIV through sex that additional safe sex practices are still needed to prevent pregnancy, syphilis and other sexually transmitted infections. Besides, for Truvada or its generic equivalents to work, those who need it have to come forward.
The good news is: young people always will have an opportunity to create ways to overcome human limitations, and all of us humans know there are folks thinking up ways to make our lives better.
Wednesday, February 3, 2016
Bacteria Talk to Each Other
Although the mosquito-borne Zika disease is a virus, its spread draws attention to how quickly illnesses from viruses or bacteria can be carried throughout the world. As many have observed, walls cannot keep diseases from entering any country.
Earlier posts, "Infection-Killing Bugs and Antibiotics" and "Global Search for New Antibiotics," have looked at various ideas for overcoming the growing resistance infections are showing to cures from existing antibiotics. Research by Helen E. Blackwell, a chemistry professor at the University of Wisconsin, adds to these findings.
Blackwell has learned bacteria send chemical signals to each other. These signals can cause bacteria, which are simple, tiny organisms with short life spans, to sense a quorum, meaning to form a group big enough to infect an animal or help a plant.
Once Blackwell discovered the communication properties of bacteria, she began tinkering with their signals in order to block their ability to cause infections. She also notes it could be possible to cause bacteria to start conversations that would do good things for their hosts.
I was interested to read in The Guardian (November 20, 2015) that, not only can one person catch an infection from another, but Chinese scientists have discovered a gene in a ring of DNA that passes resistance to the antibiotic, colistin, along with bacterial infections. In other words, in this case, humans infected with bacteria from other humans also are infected with resistance to one particular antibiotic cure.
Earlier posts, "Infection-Killing Bugs and Antibiotics" and "Global Search for New Antibiotics," have looked at various ideas for overcoming the growing resistance infections are showing to cures from existing antibiotics. Research by Helen E. Blackwell, a chemistry professor at the University of Wisconsin, adds to these findings.
Blackwell has learned bacteria send chemical signals to each other. These signals can cause bacteria, which are simple, tiny organisms with short life spans, to sense a quorum, meaning to form a group big enough to infect an animal or help a plant.
Once Blackwell discovered the communication properties of bacteria, she began tinkering with their signals in order to block their ability to cause infections. She also notes it could be possible to cause bacteria to start conversations that would do good things for their hosts.
I was interested to read in The Guardian (November 20, 2015) that, not only can one person catch an infection from another, but Chinese scientists have discovered a gene in a ring of DNA that passes resistance to the antibiotic, colistin, along with bacterial infections. In other words, in this case, humans infected with bacteria from other humans also are infected with resistance to one particular antibiotic cure.
Saturday, April 4, 2015
Global Search for New Antibiotics
Throughout the world, as many as 700,000 people die from drug-resistant infections each year. Since so-called superbugs have become resistant to the antibiotics that have cured cholera, pneumonia, tuberculosis, and other infections from bacteria since the 1940s, there is a two-pronged approach: 1) to reduce the overuse of antibiotics which reduce their effectiveness and 2) to find new antibiotics.Antibiotics can be overused unless hospitals monitor the incidence of antibiotic-resistant cases, pharmacists supervise use of antibiotics, and patients are not tested to see if their infections are bacterial or viral. On viruses, antibiotics are useless. Even when infections are caused by bacteria, conventional oral antibiotics, such as penicillin, need to be tried first to cure staph skin infections, C diff bacteria infections in the gut, bronchial infections, and urinary tract infections. Other treatments, such as more expensive daily shots and IV hookups in the hospital, need to be used sparingly and held back as a last line of defense.
Since overuse of antibiotics contributes to their resistance, the antibiotics farmers use add to this overuse by humans through the food they eat. Because farmers have been using antibiotics as a way to stimulate faster growth of livestock and to prevent disease on factory farms where overcrowding spreads illnesses, under the Preservation of Antibiotics for Medical Treatment Act, proposed federal legislation would regulate antibiotic use on factory farms. A dozen or so manufacturers that produce antibiotics for livestock already have voluntarily agreed to change the directions on their labels to stipulate use for medicinal purposes not artificial growth.
Once new FDA guidelines are implemented by January, 2017, a licensed veterinarian will have to supervise the use of antibiotics in livestock feed and water to treat and prevent disease and to promote growth. Since treatment of some diseases in cattle and dairy cows now requires low-level feeding of antibiotics, farmers and veterinarians are working to keep animals healthy with improved sanitation and nutrition as well as new vaccines. Pear and apple growers who spray trees to prevent bacterial blight infections also are looking for alternatives to the antibiotics now in use.
Agricultural use of antibiotics, estimated to be 70% of all antibiotic use, has begun to cost farmers money. Denmark's ban on growth promoting animal antibiotics prevents beef imports from countries still using them. Since consumers are demanding meat and poultry free of routine antibiotic use, suppliers, such as Perdue, have stopped their use. While McDonald's plans to serve only antibiotic-free chicken in the US by the summer of 2017, consumers in other countries will not have this guarantee. Nowhere are McDonald's consumers guaranteed antibiotic free beef or pork.
Since patients take antibiotics only for a short time, pharmaceutical companies have a greater incentive to develop other drugs rather than new antibiotics to replace the older ones that have lost their effectiveness. To stimulate research for new antibiotics, the National Institutes of Health's Center of Excellence for Translational Research (CETR) has put a $16 million grant behind the effort. When soil studies no longer uncovered new antibiotic microbes, researchers found new sources among ants, plants, and sponges in Florida, Brazil, Puerto Rico, and Hawaii. For example, the microbes in the milky white bacteria that cover some ants produce antibiotic compounds that fight different causes of infection. In the lab, scientists look for compounds with chemical structures that are different from known ones. Genomic sequencing of bacteria also helps determine whether they contain antibiotic-producing microbes. Using CETR grant money, a team of investigators headed by Dr. David Andes, chief of the division of infectious diseases at the University of Wisconsin Hospital, and Cameron Currie, a University of Wisconsin bacteriology professor, have found 15 potential new antibiotics.
On a side note, the following are three games that teach how viruses spread:
Pandemic is a tabletop game for four players who experience success and failure as they work together to stop the spread of diseases.
Plague, Inc. is an app game where players can see graphs of how lethal contagions are considering health care systems in various countries and global travel.
Pox: Save the People is a board game that uses blue vaccinated and red infected chips.
(This post amplifies information in the earlier post, "Infection-Killing Bugs and Antibiotics.")
Wednesday, April 23, 2014
Infection-Killing Bugs and Antibiotics
Children who like to look under rocks for bugs (See the earlier blog post, "The Bees and the Birds.") have company in the scientific community that is searching for microbes to cure drug-resistant infections from bacteria and fungi in patients all over the world.
According to an article by David Wahlberg in the Wisconsin State Journal (April 14, 2014), soil-based microbes produced miracle antibiotics after World War II. In Alexander McCall Smith's book, The Minor Adjustment Beauty Salon, for example, a character in Botswana, Africa, attributes cures to the kgaba plant. But recent soil-based research keeps rediscovering the same antibiotics.
Consequently, kids can get in on the search for ants, beetles, bees, wasps, termites, sponges, and sea squirts that have found new microbes in bacteria that could act as antibiotics in humans.
At the moment, the U.S. National Institutes of Health is funding a $16 million, five-year study to discover bugs, marine life, and other species that could help produce the drugs needed to treat staph and other infections. (An earlier blog post, "Medical Profession Suffers from International Conflict," tells how blue light phototherapy is being used to treat staph infections.) In January, 2015, the teixobactin antibiotic which has been shown to foil infection resistance passed animal tests without side effects.
Young people interested in helping collect specimens or in doing a project involving the development of antibiotics from new microbes might get in touch with:
Dr. David Andes, Chief of Infectious Diseases at the University of Wisconsin School of Medicine and Public Health in Madison, Wisconsin
Cameron Currie, a bacteriology professor at the University of Wisconsin in Madison, Wisconsin, who is doing research in Florida, Wisconsin, and possibly in Hawaii
Tim Bugin, assistant professor of pharmaceutical sciences at the University of Wisconsin in Madison, Wisconsin, who is doing research in Puerto Rica and the Florida Keys.
Also see the later posts, "Global Search for New Antibiotics" and "Bacteria Talk to Each Other."
According to an article by David Wahlberg in the Wisconsin State Journal (April 14, 2014), soil-based microbes produced miracle antibiotics after World War II. In Alexander McCall Smith's book, The Minor Adjustment Beauty Salon, for example, a character in Botswana, Africa, attributes cures to the kgaba plant. But recent soil-based research keeps rediscovering the same antibiotics.Consequently, kids can get in on the search for ants, beetles, bees, wasps, termites, sponges, and sea squirts that have found new microbes in bacteria that could act as antibiotics in humans.
At the moment, the U.S. National Institutes of Health is funding a $16 million, five-year study to discover bugs, marine life, and other species that could help produce the drugs needed to treat staph and other infections. (An earlier blog post, "Medical Profession Suffers from International Conflict," tells how blue light phototherapy is being used to treat staph infections.) In January, 2015, the teixobactin antibiotic which has been shown to foil infection resistance passed animal tests without side effects.
Young people interested in helping collect specimens or in doing a project involving the development of antibiotics from new microbes might get in touch with:
Dr. David Andes, Chief of Infectious Diseases at the University of Wisconsin School of Medicine and Public Health in Madison, Wisconsin
Cameron Currie, a bacteriology professor at the University of Wisconsin in Madison, Wisconsin, who is doing research in Florida, Wisconsin, and possibly in Hawaii
Tim Bugin, assistant professor of pharmaceutical sciences at the University of Wisconsin in Madison, Wisconsin, who is doing research in Puerto Rica and the Florida Keys.
Also see the later posts, "Global Search for New Antibiotics" and "Bacteria Talk to Each Other."
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