Saturday, September 28, 2013

Brad Szollose, Liquid Leadership, Immune System Mind, IBS, Nullification, Ritalin, Selenium + on The Robert Scott Bell Show May 12, 2011




Brad Szollose, author of Liquid Leadership, stops by to explain the challenges facing the Baby Boomers, Generation X and Gen Y. I have been digging for answers regarding how 21st century America has become so authoritarian in so many ways – and Brad’s got ‘em. We’ll talk pop culture, medicine, economics and politics. Who will pay for the Boomers’ social security? Gen Y may have some cold water for you. What is Obamacare, really? How free are we when we may have been marketed to think the way that we do? It promises to be an intellectually stimulating experience. http://www.liquidleadership.blogspot.com/ and http://amzn.to/3999i and http://amzn.to/jl0Unz





There’s a lot more to healing than physiology. Time to explore more of the biology of belief and the realities of healing rarely coSelenium, Congressman Ron Paul, J&J, HIV, Health Ranger, biology belief, Liquid Leadership, Brad Szollose, Social Security, vered in the old media!




Can you get rid of IBS symptoms by the power of your mind? http://www.webmd.com/ibs/news/20110510/mindfulness-meditation-may-cut-ibs-symptoms?src=RSS_PUBLIC




Is immunity all in the mind? There’s a lot more than touch, smell, taste, sight and sound. The immune system is way more than they admit. http://www.medicalnewstoday.com/articles/224890.php




Health Ranger unveils The God Within documentary, exposes the false philosophical foundations of modern science. Awesome! http://www.naturalnews.com/032359_The_God_Within_documentary.html#ixzz1M5R36Jg8



Have you called yet? 1-866-939-BELL.



Peaceful, non-violent revolution? The political establishment does not much like the idea of that. Nullify Now! http://www.nullifynow.com/2011/05/heritage-foundation-to-nullifiers-drop-dead/



Ewwwww, that smell! J&J has another recall. This time it’s an HIV drug. Maybe they can make the recall permanent? http://www.pharmalot.com/2011/05/whats-that-smell-another-johnson-johnson-recall/?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+Pharmalot+%28Pharmalot%29



Is there a Ritalin shortage? Could children be so lucky? http://www.medicalnewstoday.com/articles/224848.php



Moment of Duh got you psychotic? Or is that just grandma? http://www.nytimes.com/2011/05/10/health/policy/10drug.html?_r=1&partner=rss&emc=rss



Uh-oh. The medical authorities are trying to dissuade you from taking your selenium. I wonder why… http://www.medicalnewstoday.com/articles/224665.php



Limited time offer! Peace-of-Mind Homeopathic medicine kit, including remedies for radiation exposure! Call 1-800-543-3245. Now available for $ 89.99 price (includes free shipping) for RSB Show listeners: http://www.kingbio.com/store/product.php?productid=16375&cat=0&page=1



When is the next Ron Paul Money Bomb Radio Marathon? http://ronpaulmoneybombradio.com/



Listen live here:http://www.naturalnews.com/NNRN-LiveStream.asp


or here: http://www.talkstreamlive.com/talk_radio/robert_scott_bell.stream


In case you missed my interview with Chris Barr (Magnesium and B6, GTF Chromium, Silica and Selenium) from this past Sunday, you can still listen to it here: http://www.gcnlive.com/programs/robertScottBell/


Sign up for email alerts here: www.NaturalNews.com/RobertScottBell


Previous episodes of the Robert Scott Bell Show: http://www.naturalnews.com/NNRN-Archive.asp


Can COPD be inherited?

Every day at MyAsthmaCentral.com we get lots of asthma related questions. Below are some questions I thought my readers at the RT Cave would enjoy.


Your Question: Can COPD be inherited?


My humble answer: That’s a great question. Actually, about 98% of COPD cases are not inherited. However, your parents can give you the genetic disposition whereby if you smoke you will have a greater chance of getting COPD. For example, if you have the asthma gene, and you smoke, you are much more likely to get COPD as, say, someone who does not have the asthma gene.


A very small percentage of people, like 2% of COPD patients or 0.2% of the U.S. population, have what is called an antitrypsin deficiency. These people are predisposed to developing emphysema, a type of COPD, before the age of 45.


If you have any further questions email me, or Visit COPDConnection.com Q&A section.


Hudson Youth Leadership Academy at RCC



Ramapo, NY – The Hudson Youth Leadership Academy, a three day social justice – themed day camp will be held at RCC from June 26 – June 28, with a kick-off event on Sunday June 26. Designed to give middle school, high school and college freshman the leadership skills and confidence to create change, and the opportunity to become active participants with their local communities, the components of the program include character and civic education, leadership training, and community service.  To register for the Leadership Academy please call 845. 353. 1796.  Registration will close on June 17.




Sunday June 26Cultural Arts Center
Barbecue at 3 pm – Cost is $ 30 – free for HYLA participants
Please RSVP by 6/20 – call 845. 353. 1796
kosher and vegetarian menu available upon request




5 pmCultural Arts Theater
Free and open to the public – RSVP recommended




A kick-off event will be held on Sunday June 26.  Raymond Ablack (Sav) and Dalmar Abuzeid (Danny) of Degrassi, will be on hand signing autographs.  An RSVP is required, and tickets are $ 30, but free for HYLA participants. Entertainment will be provided by Motherland Rhythms African drumming and music, and INVECTIVE, an alternative rock group.   



After 5, there will be additional entertainment in the Cultural Arts Theater. Attendance is free and open to the public, but an RSVP is still advised as seating is limited. Chiku Awali African dance and drumming will perform, and there will be a traditional African Invocation – an offer of libation and blessing. 


The Hudson Youth Leadership Academy is collaborated by the Kurz Family Foundation, Creative Response To Conflict, and Rockland Community College



Applications and more information about the Hudson Youth Leadership Academy are available at www.crc-global.org.



For more information please call Doreen Zarcone at: 845.574.4323


Asthma: percentage of members 5 to 50 years of age during the measurement year who were identified as having persistent asthma and who were appropriately prescribed medication during the measurement year.


TITLE
Asthma: percentage of members 5 to 50 years of age during the measurement year who were identified as having persistent asthma and who were appropriately prescribed medication during the measurement year.

SOURCE(S)
National Committee for Quality Assurance (NCQA). HEDIS® 2010: Healthcare Effectiveness Data & Information Set. Vol. 2, Technical Specifications. Washington (DC): National Committee for Quality Assurance (NCQA); 2009 Jul. 417 p.




open here to see the full-text:
Asthma: percentage of members 5 to 50 years of age during the measurement year who were identified as having persistent asthma and who were appropriately prescribed medication during the measurement year.


Nitric Oxide may help pregnant women manage asthma

Asthma is among the most prevalent chronic conditions that afflict pregnant women.  Fear about the effects of asthma medicine on the unborn babies makes treating asthma in pregnancy a major challenge.  Yet a recent study shows nitric oxide might help doctors manage asthma in pregnant women.


According to medindia.net about eight percent of women experience asthma during pregnancy.  Studies show that during the first six months of gestation asthma symptoms increase, and symptoms decrease during the final months of pregnancy.


Studies also show hospitalizations due to asthma increase during pregnancy, and other studies show a link between worsening asthma and decreased fetal growth.  Studies also link asthma in pregnancy with high blood pressure, preterm delivery, and all sorts of other complications.


These studies shed light on the need of finding a method to help these women better manage their asthma. Asthma experts in Australia believe they’ve found the solution.


Asianscientist.com reports on a program being trialed in Australia to help control and prevent asthma among pregnant women that has been rather successful.  The program is based on an algorithm that helps asthma doctors titrate asthma medicine to manage inflammation in the air passages.


The program was sparked by a study published in the Lancet that showed that asthma exacerbations in pregnant women could be “halved” if inflammation was “closely monitored.”  Yet due to fears of women and doctors about the effects of asthma medicine on the unborn baby, many cases of asthma among pregnant women go untreated.


However, as I wrote in this post, most asthma experts believe that it’s important to control asthma in pregnant women, and the advantages of taking asthma medicine should be based on weighing the advantages against the disadvantages.


Inhaled steroids are a proven and effective way of treating the chronic inflammation in asthmatic lungs.  When it comes to pregnant women, you want to have the least amount of the medicine needed to control inflammation.  Yet you don’t want too little inhaled steroid in your system because then the medicine won’t be doing the job.


So Australian experts came up with a Managing Asthma in Pregnancy (MAP) study whereby they monitor inflammation in the lungs by measuring the Fraction of Exhaled Nitric Oxide (FENO).  This is a test that is growing in acceptance because it directly measures how much inflammation is in the lungs.


Based on the FENO results, an algorithm is used to help doctors determine the best dose of inhaled steroid to use.


The study consisted of 220 pregnant women, half had their inhaled steroid adjusted using the algorithm and clinical symptoms, and the other half had their inhaled steroids adjusted using clinical symptoms alone.  The results concluded that those who used the both the algorithm and clinical symptoms to titrate their inhaled steroid were 50 percent less likely to have an asthma flare up.


Researchers surmised the women who used the algorithm to control their asthma used their inhaled steroid more often, although at a lower dose.  This group was also introduced to long-acting asthma preventative medicine sooner than the other group.  Their inflammation was therefore better controlled.


American Cancer Society

Today the Recommended by DeBarra Mayo Award goes to the American Cancer Society.


This organization does wonderful work. The American Cancer Society (ACS) is a nationwide, community-based voluntary health organization.


Congratulations American Cancer Society!


You can visit their website at: http://www.cancer.org/docroot/home/index.asp


Tantas alergias e intolerancias en la polbación tienen que tener un foco. "Annals of Allergy, Asthma & Immunology" puede tener la respuesta: El agua del grifo.". Los pesticidas del agua del grifo pueden tener parte de culpa en el aumento de las alergias a los alimentos, según un nuevo estudio publicado en la revista "Annals of Allergy, Asthma & Immunology". Los investigadores detectaron que los altos niveles de diclorofenoles, un químico usado en pesticidas y para clorar el agua, cuando se encuentran en el cuerpo humano, están asociados con alergias alimentarias. "Nuestra investigación muestra que los niveles elevados de diclorofenol que contienen los pesticidas posiblemente pueden debilitar la tolerancia alimentaria en algunas personas, causando alergia a los alimentos", dijo la especialista en alergias Elina Jerschow, miembro del Colegio Americano de Alergia, Asma e Inmunología (ACAAI, en sus siglas en inglés) y autora principal de la investigación. Diclorofenol es una sustancia química que se encuentra comúnmente en los pesticidas utilizados por los agricultores y los consumidores de insectos y productos de control de malezas, así como en el agua del grifo, según explica Jerschow. Entre los 10.348 participantes en la Encuesta Nacional sobre Salud y Nutrición de Estados Unidos de 2005-2006, 2.548 tenían diclorofenoles medidos en la orina, de los cuales, 2.211 se incluyeron en este estudio. En 411 de estos participantes se encontró que tenían alergia alimentaria, mientras que 1.016 tenían una alergia ambiental. "Los resultados de nuestro estudio sugieren que estas dos tendencias podrían estar vinculadas y que el uso creciente de pesticidas y otros productos químicos se asocia con una mayor prevalencia de alergias a los alimentos", añade la investigadora principal. Aunque pudiera parecer que optar por agua embotellada en lugar de agua del grifo podría ser una manera de reducir el riesgo de desarrollar una alergia, existen otras fuentes de diclorofenol, como plaguicidas para frutas y verduras, que, según los científicos, "pueden jugar un papel más importante en la causa de alergia a los alimentos". Según los Centros para el Control y Prevención de Enfermedades de Estados Unidos, se observó un aumento de alergia a los alimentos de un 18 por ciento entre 1997 y 2007, siendo los alérgenos alimentarios más comunes la leche, los cacahuetes, los huevos, el trigo, las nueces, la soja, el pescado y los mariscos. Los síntomas de alergia a alimentos pueden variar desde una erupción leve hasta una reacción potencialmente mortal llamada anafilaxia, por lo que la ACAAI aconseja a todos aquellos que padezcan alguna alergia de comida que lleven siempre dos dosis de epinefrina recetada por el alergólogo, ya que un retraso en su administración es común en las muertes por reacciones alérgicas alimentarias severas.( fuente del texto/ EP)

Tantas alergias e intolerancias en la polbación tienen que tener un foco. “Annals of Allergy, Asthma & Immunology” puede tener la respuesta: El agua del grifo.’.





Los pesticidas del agua del grifo pueden tener parte de culpa en el aumento de las alergias a los alimentos, según un nuevo estudio publicado en la revista ‘Annals of Allergy, Asthma & Immunology’. Los investigadores detectaron que los altos niveles de diclorofenoles, un químico usado en pesticidas y para clorar el agua, cuando se encuentran en el cuerpo humano, están asociados con alergias alimentarias.






“Nuestra investigación muestra que los niveles elevados de diclorofenol que contienen los pesticidas posiblemente pueden debilitar la tolerancia alimentaria en algunas personas, causando alergia a los alimentos”, dijo la especialista en alergias Elina Jerschow, miembro del Colegio Americano de Alergia, Asma e Inmunología (ACAAI, en sus siglas en inglés) y autora principal de la investigación.






Diclorofenol es una sustancia química que se encuentra comúnmente en los pesticidas utilizados por los agricultores y los consumidores de insectos y productos de control de malezas, así como en el agua del grifo, según explica Jerschow.






Entre los 10.348 participantes en la Encuesta Nacional sobre Salud y Nutrición de Estados Unidos de 2005-2006, 2.548 tenían diclorofenoles medidos en la orina, de los cuales, 2.211 se incluyeron en este estudio. En 411 de estos participantes se encontró que tenían alergia alimentaria, mientras que 1.016 tenían una alergia ambiental.






“Los resultados de nuestro estudio sugieren que estas dos tendencias podrían estar vinculadas y que el uso creciente de pesticidas y otros productos químicos se asocia con una mayor prevalencia de alergias a los alimentos”, añade la investigadora principal.






Aunque pudiera parecer que optar por agua embotellada en lugar de agua del grifo podría ser una manera de reducir el riesgo de desarrollar una alergia, existen otras fuentes de diclorofenol, como plaguicidas para frutas y verduras, que, según los científicos, “pueden jugar un papel más importante en la causa de alergia a los alimentos”.






Según los Centros para el Control y Prevención de Enfermedades de Estados Unidos, se observó un aumento de alergia a los alimentos de un 18 por ciento entre 1997 y 2007, siendo los alérgenos alimentarios más comunes la leche, los cacahuetes, los huevos, el trigo, las nueces, la soja, el pescado y los mariscos.






Los síntomas de alergia a alimentos pueden variar desde una erupción leve hasta una reacción potencialmente mortal llamada anafilaxia, por lo que la ACAAI aconseja a todos aquellos que padezcan alguna alergia de comida que lleven siempre dos dosis de epinefrina recetada por el alergólogo, ya que un retraso en su administración es común en las muertes por reacciones alérgicas alimentarias severas.( fuente del texto/ EP)

What is the microflora hypothesis of asthma?

The following post is from healthcentral/asthma.


The microflora hypothesis of asthma and allergies.”  (Originally published


It’s a proven fact asthma rates are on the rise in Western nations like the U.S. and U.K.  In the past pollution was blamed.  Yet with pollution on the decline and asthma rates still rising, many experts are looking at other theories.


Two theories gaining acceptance are the hygiene hypothesis and the microflora hypothesis.


The hygiene hypothesis pretty much proposes allergies and allergic are caused because we’re too clean.  In the absence of bacteria our immune system gets bored and attacks things we consider normal — like allergens.


I simplified the hygiene hypothesis in a previous post.  If you’re not familiar with it I recommend you click here.  In this post I’d like to introduce you to the microflora hypothesis.


First a few definitions:


Normal Flora:  According to the Online Textbook of Bacteriology these are tiny little microbes that cover the surface areas of your body, including your skin and mucus membranes.  This consists of some fungi, but mostly bacteria.  Their main job is to prevent the growth of bad bacteria.


Microflora:  According to thefreedictionary.com these are normal flora of a specific location, such as the intestines.


Probiotics:  This is simply a synonym for normal flora.


So what is the microflora hypothesis?


It’s actually similar to the hygiene hypothesis only it goes a step further.  It states microbes in your intestinal tract (microflora) work together with your immune system to keep your immune system working right.


An imbalance of these microbes any time in your life can cause your immune system to develop an inappropriate response.  This may best explain why asthma can be developed at any time in your life.


So what causes microflora to become imbalanced?


Two things in our modern, industrialized way of life are suspected to cause such an imbalance:



  • 1. Antibiotics

  • 2. Dietary changes


So, how might antibiotics cause an imbalance of microflora?


Antibiotics:  These were considered to be a godsend to the medical field when they hit the market in 1944, as they allowed doctors to treat and prevent infection. While these are good, there are consequences to antibiotic abuse:




  • Some bacteria are smart: They catch on and develop resistance to antibiotics and this forces us to invent more powerful antibiotics.


  • Some antibiotics kill too much: Instead of killing just the infecting bacteria we were also killing the good bacteria we need to maintain balance


  • Antibiotics only kill bacteria: Actually we knew this all along, but I just thought I’d add it here to make a point.


While antibiotics are only able to treat bacterial infections, they were — and often still are – prescribed to treat any infection, even viral.  Often they are ordered just so you think the doctor is doing something.  You have asthma symptoms; you have a cold, so you expect antibiotics.


In fact, this study shows that way too many asthmatic kids are being prescribed antibiotics to treat asthma even though doctors know they aren’t recommended in the treatment of asthma.  It’s expected many doctors order them just to “cover their bases.”


Yet it’s a common fact the most common asthma triggers are viral infections.  So treating your sickness with an antibiotic is useless unless you really have a bacterial infection.


The most common antibiotic prescribed would be broad spectrum antibiotics.  These kill more than one type of bacteria, yet the hope is they’d kill the culprit.  The problem with these is they kill the good along with the bad.


Narrow spectrum antibiotics can also be prescribed.  These are antibiotics that only kill the desired bacteria.  Yet to prescribe them in the office without further testing would be a crap shoot.  To pick the right one you’re sputum must be tested to identify the bacteria.  If no bacteria are identified, antibiotics will be useless.


If bacteria are identified further testing can be done to see what antibiotic kills it.  In this case, a broad spectrum antibiotic can be selected.  The problem with all this is it takes time and money.


So most often your doctor will skip all this testing and just give you the antibiotics you want.  You’re happy, he’s covered all his bases, and you eventually get better.


The solution to this problem might be simple:



  • Avoid antibiotics use.

  • If antibiotics are needed,narrow spectrum antibiotics should be used.


Modern diet:  According to The Probiotic Revolution, “people in industrialized countries eat significantly more fast food and refined foods, and much less fiber.  They’re also less likely than people in the developing world to rely on fermentation to preserve goods — thus depriving themselves of a ready source of probiotics.”


The solution to this problem might also be simple.  Eat more of the following:



  • Whole grains

  • Nuts

  • Fruits

  • Vegetables

  • Probiotic supplementation


Probiotic supplementation:  As far as a cure for asthma and allergies, some studies have been ongoing to determine certain therapies can be done to restore the imbalance of probiotics in the gut. Studies are ongoing to see if this prevents or treats allergies.


Since 75 percent of asthmatics also have allergies, the hope is probiotic supplementation will also prevent and treat asthma as well.  Studies are ongoing, and we’ll have to wait and see how they turn out.


So there you have it:  the microflora hypothesis.  It’s one of several theories of what might cause one to develop asthma.  What do you think?


Click here for a more in depth discussion of this hypothesis. 


The modest asthmatic

Yesterday we discussed rare and irresponsible Actor Asthmatic. Today I would like to bring light to the Doubting Thomas Asthmatic.


Most RTs and RNs can recognize them as soon as they walk into the door. Usually they are men who come to the ER with their wives because, “she made me come in. I didn’t even want to be here. I’m fine.”


Then you listen to them and they have all the tel-tale signs of asthma. We really shouldn’t limit Doubting Thomas’s to just asthma either, as we know there are a ton more COPD and chest pain patients who are simply too modest to come into the ER.


There’s a saying we like to use in the ER where I work, “The modest patient stayed home with chest pain and died.”


Over on my asthma blog I wrote about the modest patient, of which we aptly titled the Doubting Thomas. For more information about the Doubting Thomas click here and I will morph you over to my other blog.


The Doubting Thomas Asthmatics
by Rick Frea Wednesday, November 19, 2008
See the accompanying comic!


Thomas was the apostle who did not believe Jesus had been resurrected. According to the Bible, (John 20:24-29) he was not convinced until he actually saw and felt the scars of Jesus.


Since then, anyone who refuses to believe something without direct physical proof is called a Doubting Thomas. And, therefore, an asthmatic that refuses to believe he has asthma is rightfully dubbed a Doubting Thomas.


Believe it or not, I’ve seen my fair share of these folks in my 11 years as an RT. It’s neat, because they will come into the ER for an unrelated reason, the doctor will listen to them and order a breathing treatment, and then I enter the patient’s room thinking I’m going to do another breathing treatment just because the doctor didn’t know what else to do.


Just recently I had a pudgy, balding male named Carl, mid 30s, lying supine on the ER bed. He appeared to be breathing normally. I gave him my usual line, “Hi. I’m Rick from Respiratory Therapy. Are you having trouble breathing?”


“No,” he said, “I feel fine.”


“Okay, so why am I giving you a breathing treatment,” I think to myself. Then I say, “How come you came to the ER tonight?”


“Um… because I was just not feeling right. I also have a little chest pain.”


I pulled my stethoscope from my lab coat and pressed the bell on the patient’s anterior chest. I hear wheezes. “Can you please sit up so I can listen to your back?” I listen to his back. “You definitely have wheezes in there. Do you have asthma?”


“Not that I know.”


I hand the patient a nebulizer that I had already filled with one amp of albuterol.


“What’s this for?” The patient looked at me awkwardly.


“This is for people with breathing trouble,” I said, “The doctor thinks it might help you breathe better.”


“Well, I’ll take it, but I’m not having trouble breathing.”


I plug the nebulizer tubing to the flowmeter and the neb sputters to life, releasing its cool white mist into the room, and hand it to the patient who spends several minutes inhaling the mist.


I stand coolly by until the nebulizer sputters, a tell-tale sign that it’s finished. I turn off the flowmeter, and pluck the nebulizer from the patient’s mouth. “So, how do you feel now?”


“You know what?” he said, taking in a deep breath and smiling, “I think I feel great. Wow! I don’t think I’ve ever felt this good in my life.”


Ah, and that last sentence — “I have never felt this good in my life”– following a bronchodilator breathing treatment — is a tell-tale sign of a Doubting Thomas asthmatic.


“I bet you’ve been short-of-breath for days and you didn’t even know it.” If you ever hear an RT or doctor ask this question, you know he is thinking Doubting Thomas.


“Actually,” the patient said, “I’ve had this regular cough for years, especially after exercising. It got so bad I had to quit exercising a few months ago. I just thought being a little short-of-breath was a normal part of aging.”


Bingo! That last sentence confirmed it for me: This man is definitely a Doubting Thomas.

“You should never have trouble breathing,” I said. “If you do you should always see your doctor, because there’s no reason anyone should ever have to suffer this day and age.”


“What will my doctor do?” Carl asked.


“First of all, the ER doctor is going to prescribe a rescue inhaler that works just as well as the breathing treatment you just had. You can use it up to every 4-6 hours for asthma symptoms.


“Then he’s going to recommend you see your family physician so to get you on an asthma management plan that’s right for you. This plan may include prescribing long term relief medications that actually work to prevent asthma.”


The New York Times wrote a story, “Asthma Medications: Not a Clear Advantage,” about former Olympian gold medal swimmer Dara Tores. She had all the classic signs of asthma, even a family history, and yet she chose to ignore the signs.


One day a friend told her she had all the classic signs of asthma, and she went to the doctor. Once on all the right asthma medicines and her asthma was controlled, the article states, she realized “how much, and how needlessly, she had been suffering.”


Carl was lucky his asthma was discovered before he had a life threatening attack. If you think you are a Doubting Thomas like Carl, don’t wait until something really bad happens before getting help.


The first key to getting help is admitting you have a problem. The second key is to see a qualified asthma physician and getting yourself on a program to manage your asthma.


According to the Gospel of John, after Thomas touched the scars of Jesus, he professed his love of Jesus and was later known as Thomas the believer.


Similarly, any Doubting Thomas who faces his illness, seeks to learn the truth, and is treated accordingly, will no longer “needlessly” suffer.


Friday, September 27, 2013

SAMTER"S TRIAD - INFORMATION TO KNOW

The disorder is caused by an anomaly in the arachidonic acid cascade, which causes undue production of leukotrienes, a series of chemicals involved in the body’s inflammatory response. When prostaglandin production is blocked by NSAIDS like aspirin, the cascade shunts entirely to leukotrienes, causing overproduction of LT-4 and producing the severe allergy-like effects.
There may be a relationship between aspirin-induced asthma and TBX21, PTGER2, and LTC4S.[3]
In addition to aspirin, other vaso-dilators may induce the same reaction, such as alcohol.


Medication
The preferred treatment now is desensitization to aspirin, undertaken at a clinic specializing in such treatment. Patients who are desensitized then take a maintenance dose of aspirin daily; they have reduced need for supporting medications and fewer asthma and sinusitis symptoms than previously; many have an improved sense of smell.
Treatment formerly focused on relieving the symptoms. Even desensitized people may continue to use nasal steroids, inhaled steroids, and leukotriene antagonists.
Leukotriene antagonists and inhibitors (montelukast, zafirlukast, and zileuton) are helpful in treating Samter’s.
Some patients require oral steroids to alleviate asthma and congestion, and most patients will have recurring or chronic sinusitis due to the nasal inflammation. Desensitization reduces the chance of recurrence.



[edit] Surgery


Occasionally surgery may be required to remove polyps,[4] although they typically recur, particularly if desensitization is not undertaken.



[edit] Diet


A diet low in omega-6 oils (precursors of arachidonic acid), and high in omega-3 oils, may also help.[citation needed]
Some people find relief of symptoms by following a low-salicylate diet such as the Feingold diet. They may need to eliminate the other salicylate-containing foods identified by Swain in 1985 as well.[5] For those who need them, these salicylates are listed in charts in the Feingold Handbook based on level of salicylate measured in the item. Unfortunately, any such list is only a rough guideline since amounts will vary depending on fruit/vegetable variety and where grown; in fact, organic foods have been shown to contain more salicylate than conventional produce because the plant is more likely to be under attack from pests, and salicylate is produced by the plant as protection


Why do people die of asthma?

Your question:  Why do people die of asthma

 

My humble answer:  For most people, I’d guestimate about 90-99% percent, asthma is more annoying than something that kills.  Asthma is a disease that’s reversible with either time or medicine, and can inflict poeple of any age at any time. You don’t even need to have the asthma gene to get it.  Usually asthma doesn’t become life threatening until it’s mixed with other disease conditions, such as pneumonia, influenza, heart failure, kidney failure, etc.  Age can also be a factor here as well.  But, from my knowledge, asthma in and of itself has a very low death rate (less than 1% of asthmatics).  Smoking can also complicate asthma, as well as second hand smoke.  You haven’t provided this information, so I’m just rattling off some possibilities here. 

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Home Remedies For Ankle Swelling | How To Treat Ankle Sprains Naturally


Swelling of the lower leg and ankle is a common problem. Determining the cause of ankle swelling is the first step to finding effective treatment. Once the cause of the ankle swelling is determined, effective treatment can be initiated. Painless swelling of the feet and ankles is a common problem, particularly in older people. It may affect both legs and may include the calves or even the thighs.

Swollen ankles, feet and legs often referred to medically as edema usually occurs when fluid is retained in the spaces between body cells. Some home remedy for ankle swelling may take the following processes. First of all the ankle should be lifted so that the leg is straight in front as this is very necessary and as such should be done.


Home remedies such as coconut and garlic oil help reduce pain and swelling when they soak directly into the skin. Mix 3 table spoon of coconut and garlic oil into a container and heat in the microwave for ten seconds, slightly warming the mixture. Generously massage the oil directly onto your ankle for ten minutes, allowing the oils to soak into your skin.


Lecithin seeds are yet another effective home remedy for the treatment of swelling of feet during pregnancy. Usually a tablespoon of about 3-4 is taken every day for about2-3 month. This is noted to have a magical effect and also manifests good results within 2-3 months.


Ice is another very important and effective treatment material for sprained ankles. If you get a sprained ankle and use ice in the injured area within the first hour of your injury, you levels of pain and swelling ids supposed to be very low. It helps your injury to recover soon too. Medical studies have found that if ice can be used properly in time, the possibility of your recovery increased by 50%.


If the affected area is read and swollen, you may apply a mild steroid cream like 1% hydrocortisone cream. This should be easily available from any pharmacy without the need of a prescription. Hydrocortisone helps in reducing inflammation rapidly. Alternatively, if you have a bottle of calamine lotion at home, this may help too.


Never just assume that any pain you have in your ankles and feet is being caused by arthritis. These pains can be caused by many different things, including lower back and hip problems. Before just shrugging your shoulders and thinking, “Its only arthritis”, make an appointment with your doctor for an exam. Only then will he be able to tell what’s causing your infirmity.


Nervous pain near the ankles often cause ankle sprains. It is called as referred pain. When the nerves that connect the leg to the brain stop sending signals due to blockage or nervous injury, the ankle ligaments then can cause pain. But, it happens very rarely.


Rest is very important especially in the first 24-48 hours after the injury in order to avoid stress on already inflamed tissue and to prevent more damage. On the other hand, prolonged immobilization of ankle sprains is a common treatment error, so it is also important to start a proper rehabilitation program and gradually put weight back on the ankle.











Quality measure compliance for children’s asthma care reduces hospital readmissions | Agency for Healthcare Research & Quality (AHRQ)

Quality measure compliance for children’s asthma care reduces hospital readmissions | Agency for Healthcare Research & Quality (AHRQ)


AHRQ--Agency for Healthcare Research and Quality: Advancing Excellence in Health Care





Quality measure compliance for children’s asthma care reduces hospital readmissions


Child/Adolescent Health


Image of child with asthma care device Increasing provider compliance with the Joint Commission’s three quality measures for children’s inpatient asthma care by use of a standardized care process model (CPM) can significantly reduce hospital readmissions for asthma, according to a new study. Because the first two quality measures (CAC-1, percentage of patients who received beta agonists, and CAC-2, percentage of patients who received systemic steroids) were already achieved in at least 99 percent of cases in the study at baseline, only the implementation of care process changes to increase patient discharges with a home management plan of care (CAC-3) reduced 6-month asthma rehospitalizations.
The researchers analyzed data on 1,865 children hospitalized for asthma at a children’s hospital during a 6-year period—754 during preimplementation of the CPM (January 2005–December 2007), 438 during CPM implementation (January 2008–March 2009), and 673 during postimplementation (April 2009–December 2010). CAC-3 was fully implemented in 0.4 percent of cases during preimplementation, but in 86.5 percent of cases during the postimplementation phase.
The 6-month asthma readmission rates dropped from an average of 17 percent before CPM implementation to 12 percent during the postimplementation phase, but not until 9 months of sustained high compliance with CAC-3. The researchers suggest that because of existing high compliance with CAC-1 and -2 at baseline, their use as quality measures needs to be reconsidered. They used data from a large tertiary academic children’s hospital in Salt Lake City to compare outcomes before and after implementing the asthma CPM. The study was funded in part by AHRQ (HS18166 and HS18678).
More details are in “The Joint Commission Children’s Asthma Care quality measures and asthma readmissions,” by Bernhard A. Fassl, M.D., Flory L. Nkoy, M.D., M.S., M.P.H., Bryan L. Stone, M.D., M.S.C.I., and others in the September 2012 Pediatrics 130(3), pp. 482-491.


— DIL

Current as of May 2013

Internet Citation: Quality measure compliance for children’s asthma care reduces hospital readmissions: Child/Adolescent Health. May 2013. Agency for Healthcare Research and Quality, Rockville, MD. http://www.ahrq.gov/news/newsletters/research-activities/13may/0513RA26.html


Bronchiolitis: Everything you need to know

Bronchiolitis, otherwise known as Respiratory Syncycial Virus (RSV), is a condition common in children that has symptoms very similar to asthma, and is most common between November and April.


It’s more common in children because their airways are smaller and more susceptible to narrowing. Usually it occurs within the first two years, with it’s peak at 3-6 months.This condition presents nearly identical with asthma, and is often treated or misdiagnosed as such.


In fact, according to “Allergy and Asthma: Practical Diagnosis and Management,” it is “clinically indistinguishable from bronchial asthma.”Yet the course of treatment for bronchiolitis is different from that of asthma.


For instance, while corticosteroids and bronchodilators work great to reverse airway obstruction caused by asthma, these medicines do little for bronchiolitis (or RSV). So it’s important to be able properly diagnose RSV from asthma.


According to Allergy and Asthma, “there are laboratory studies designed to identify viral antigens to pinpoint any of the six different viruses that can cause acute bronchiolitis.” This test starts by the RN, RT or lab technician performing a nasal swab to retrieve cells from the nasal passage.


A viral swab won’t rule out asthma, but it can rule in RSV so proper treatment can be
determined. Other viruses that might cause bronchiolitis are: Adenovirus, enterovirus, Influenza virus and Chlamydia pneumoniae.


So, technically speaking, RSV is common cause of bronchiolitis, and not a synonym for it. Yet the two are usually linked hand in hand.


We know that asthma is a disease that causes airway narrowing due to increased secretions and inflammation of the air passages in the lungs (bronchioles) due to exposure to asthma triggers. This results in bronchospasm that is reversible with time or, when more severe, bronchodilators such as Albuterol. Corticosteroids are used to treat the inflammation.


Bronchiolitis, on the other hand, is inflammation of the bronchioles due to a virus. (click here for a good picture of this). Narrowing of the airways can occur, resulting in air trapping and hypoxia.
Another complication of this is increased secretions. Bronchospasm is not a complicaiton of bronchiolitis, and therefore bronchodilators are of little use.


Bronchodilators are of little use for bronchiolitis because this medicine does not treat inflammation, it treats bronchospasm.


However, if asthma is suspected to be exacerbated by a virus (and viruses are the #1 cause of asthma exacerbations), bronchodilators should be ordered prn, or as needed.


I have heard of some doctors prescribing Atrovent for bronchiolitis. Our Pediatricians seldom use this, however our ER doctors do.


However, according to Glenn Campell, RRT and Respiratory Clinical Specialist at Children’s Hospital in New Orleans, Atrovent should rarely be used to treat asthma and bronchiolitis because “it has been our experience that Iprotropium Bromide (Atrovent) will actually exacerbate the issue by possibly causing mucus plugs secondary to “thickening of secretions”.


This, however, is also controversial.


Since there isn’t much we can do to treat viruses, the main treatment is supportive measures.


Usually patients with this don’t need to be admitted, and usually those admitted for it are obligate nose breathers and are dehydrated due to the child being unable or unwilling to take in fluids, such as refusing to breast feed, or refusing the bottle. So IV fluids is usually indicated.


Antibiotics usually are of little use unless a bacteria is the suspected cause (which is rare).


Otitis media may, however, be treated with antibiotics.


Studies show that bronchodilators should be tried, but if no improvement is observed these should be stopped.


Corticosteroids are also often used to treat this condition, however most studies show they have little to no effect on bronchial inflammation due to a virus.


However, some studies show that racemic epinepherine and dexamethasone have shown to be beneficial.


Still, most of the above therapies other than supportive measures remain controversial.


Supportive care may include oxygen and humidity, keeping the head upright, fluid intake (IV may be indicated), and constant monitoring of pulse oximetry to maintian an SpO2 between 91 and 94%.


One of the most effective therapies for bronchiolitis is simply clearing the airway of secretions, . A bulb syringe works nice, although in the hospital booger be gones work very well. Many times, if the SpO2 drops, suctioning alone will resolve the problem.


Nasal Steroid and Neosynephrine also work well to help keep the nasal passages open.For decreased sats and increased respiratory distress, suctioning should always be attempted before a breathing treatment, and many times suctioning alone will resolve the crisis. According to emedicine, the following are common symptoms of RSV:



  • Runny nose

  • Cough

  • Low grade fever

  • Increased work of breathing

  • Wheezing

  • Cyanosis

  • Grunting

  • Noisy breathing

  • Vomiting, especially post-tussive

  • Irritability

  • Poor feeding or anorexia

  • Increased Respiratory rate (50-60 breaths per minute)

  • Increased heart rate

  • Diffuse expiratory wheezing

  • Nasal flaring

  • Cyanosis

  • Inspiratory crackles

  • Ear infection (otitis media)


There is evidence that children who experience RSV are at an increased risk to develop asthma later in life. For more information, check out the following links:


National Guideline Clearinghouse: Guidelines for management of bronchiolitisRC Journal: Respiratory Care of Bronchiolitis Patients: A Proving Ground for Process ImprovementSeattlechildrens.org: Bronchiolitis


Asthma/ allergy Lexicon

Asthma Definitions:


Asthma: According to National Heart, Blood and Lung Institute, “Asthma (AZ-ma) is a chronic (long-term) lung disease that inflames and narrows the airways. Asthma causes recurring periods of wheezing (a whistling sound when you breathe), chest tightness, shortness of breath, and coughing. The coughing often occurs at night or early in the morning. Asthma affects people of all ages, but it most often starts in childhood. In the United States, more than 22 million people are known to have asthma. Nearly 6 million of these people are children.”


Bronchospasm: This is when the bronchioles of the lungs (the air passages) become inflammed, produce excess secretions, and constrict. This narrowed airway makes it difficult to get air out of the lungs, and often results in air trapping. It is the key component of asthma and COPD.


Asthma prognosis: The life expectency for mild and moderate asthmatics is the same as that for non-asthmatics.



Asthma gene: It is believed that in order to develop asthma one has to have this gene, and something has to happen to “turn it on.” Approximately 10% of Americans have this gene. Many asthma experts believe the age a person is when this gene is “turned on” determines whether one has childhood-onset or adult-onset asthma. Others think it’s always “turned on” during the first few months of life, regardless of when one first has asthma symptoms.


Childhood-onset asthma: This is when a person first shows signs of asthma during childhood, or under the age of 18. Most common triggers of this are allergies, respiratory infections, and exercise induced asthma.


Adult-onset asthma: This is when a person first shows signs of asthma during adulthood. Most common triggers of this are relocation and GERD.


Acute: It’s happening right now.


Chronic: It’s going on all the time. Permanant.


Acute Asthma: This is shortness-of-breath due to narrowing of the air passages in your lungs that is occuring right now. The most common way of treating this is with rescue medicines (see below).


Chronic asthma: This refers to the underlying inflammation that is always prevalent in the lungs of asthmatics. The degree of this inflammation is what determines the severity of your asthma when exposed to your asthma triggers. The best way of treating this is with asthma controller medicines (see below).


Severe Asthma: May be associated with decreased lung function with a loss of response to bronchodilator. Patients with the greatest degree of reversibility in response to rescue medicine (Albuterol) may be at the greatest risk of developing fixed airflow obstruction and have the greatest loss of lung function.


Poorly controlled asthma: This refers to about 5% of asthmatics who have frequent symptoms and exacerbations despite use of high-dose systemic corticosteroids. Patients who have a poor response to appropriate therapy require referral to and consultation with an asthma specialist.


Resistance to therapy: See poorly controlled asthma.


Asthma triggers: These are normally non-threatening things like dust mites, molds, stress and smells that “trigger” asthma symptoms. While these things are normally non-threatening, the immune systems of asthmatic lungs treat these things the same way it treats bad bacteria and parisites. Air passages that have a greater degree of inflammation are more sensitive to these triggers, and may result in “more severe” asthma attacks.


Twitchy airways: This usually occurs in children who have smaller air passages than adults. It occurs when the air passages are very inflammed and thus extremely sensitive to asthma triggers. Asthmatics with twitchy airways are often referred to as Brittle Asthmatics.


Brittle Asthma: These asthmatics have severely inflammed air passages that are highly sensitive to triggers. Even the simplest exposure can set off a major attack. In most cases today, brittle asthma can be prevented by compliant use of your asthma controller medications. In some instances asthma is so severe that even controller medicines don’t controll asthma. I refer to these asthmatics as hardluck Asthmatics.


Airway remodelling: (synonym: lung scarring) This is irreversible changes that can occur in your lungs if your asthma is not diagnosed in a timely manner and treated agressively. This can make asthma more difficult to control. This is one great reason why it is extremely important to see your doctor regularly and take your asthma medicines exactly as prescribed.


Rescue medicines: These “quick relief” asthma medicines dilate and relaxe the air passages in your lungs. The most common ones used in the U.S. are Ventolin and Xopenex.


Asthma Action Plan: The asthma guidelines recommend all asthmatics develop a partnership with their doctors to create a plan to help them understand when to take action (use rescue inhaler, call physician or go to the ER). The guidelines note that
“either peak flow monitoring or symptom monitoring, if taught and followed correctly, may be equally effective.”


Asthma Symptoms: These are “symptoms” an asthmatic experiences when an asthma attack is impending (early warning signs) and when an attack is ongoing (Asthma attack symptoms).


Peak flow meter: This is a device used to determine “how well your lungs are functioning,” according to National Jewish Health. This is recommended as part of the asthma action plan for children and anyone who has difficulty perceiving asthma symptoms. It should be noted that peak flows are a great tool for monitoring asthma status, but should not be used to diagnose.


Spirometry: click here for PFT lexicon and here for everything asthmatics need to know about PFTs


Controlled Asthma: Controlled Asthma: This is the ultimate goal of all asthma doctors for all their asthmatic patients. Asthma control is determined by the following:



  • Decreased use of rescue inhalers for quick relief (or, ideally, the need to use them less than 2 days a week),

  • Fewer school days or days of work missed (or no days missed)

  • ability to engage in normal daily activities or in desired activities

  • Improved ability to exercise without having asthma symptoms

  • Improvement in FEV1 in a pulmonary function test (PFT), or maintaining a normal PFT.

  • Reduction in exacerbations

  • Fewer emergency room visits and hospital stays for asthma

  • Fewer nighttime awakenings due to asthma

  • Optimal asthma meds with minimal adverse effects

  • You’re expectations are met or exceeded

  • You’re satisfied with your asthma care


Controller medicine: (synonym: preventative meds). These are asthma medicines, if taken correctly and as directed, that are meant to prevent one from having an asthma attack, limit severity of attacks, and help one maintain good control of asthma. The best of this type of medicine are Advair, Symbicort, and Singulair.


Asthma Symptoms: These are symptoms that are synonimous with an asthma attack. They include: Wheezing, Coughing, Shortness of breath, Tightness in the chest, Peak flow numbers in the caution or danger range (usually 50% to 80% of personal best).


Early signs of asthma: These are signs an asthma attack is imminent, and one must take action quickly to prevent the attack, such as use a rescue inhalr or call a physician. They include:
Breathing changes, Sneezing, Moodiness, Headache, Runny/stuffy nose, Coughing, Chin or throat itches, Feeling tired, Dark circles under eyes, Trouble sleeping, Poor tolerance for exercise, Downward trend in peak flow number.


Signs of severe asthma: According to national Jewish Health, “Severe asthma symptoms are a life-threatening emergency. If any of these severe asthma symptoms occur, seek emergency medical treatment right away, since these symptoms indicate respiratory distress. Examples of severe asthma symptoms include: Severe coughing, wheezing, shortness of breath or tightness in the chest, Difficulty talking or concentrating, Walking causes shortness of breath, Breathing may be shallow and fast or slower than usual, Hunched shoulders (posturing), Nasal flaring (nostril size increases with breathing), Neck area and between or below the ribs moves inward with breathing (retractions), Gray or bluish tint to skin, beginning around the mouth (cyanosis)
Peak flow numbers in the danger zone (usually below 50% of personal best)


Dyspnea tolerance: According to the asthma guidelines, “these patients have unconsciously accommodated to their symptoms, or perhaps they have mistakenly attributed these symptoms to other causes, like aging, obesity, or lack of fitness, so they do not report them readily.” These patients have been short of breath so long they have developed a “tolerance” to it, and are incapable of determining degree or severity of their dyspnea. Therefore, the best method of managing their asthma is by using spirometry and peak flow measurements. These asthmatics tend to be Martyr Asthmatics and Hardluck Asthmatics.


Psychological consequences of asthma: These are the undesirable effects asthma can have on a child who has uncontrolled, severe-persistant, or hardluck asthma. This is particularly associated with children who are unable to perform certain activities, whose asthma struck at a very young age, and who have poor family and social support. These consequences include, but are not limited to: Poor self confidence, Embarrassment that you have it, embarrased to take medicine in public and anxiety.


Causes:  Things that might cause one to develop asthma


Triggers:  Things that result in or “trigger” an asthma attack or exacerbation.


Intrinsic asthma:  Non allergic asthma.


Extrinsic asthma:  Allergic asthma.  Most of your asthma triggers are from outside your body, such as allergens, cigarette smoke, pollution, inhaled chemmicals, etc.


Exacerbation:  Acute asthma attack.  Most of your asthma triggers are from inside your body, such as gastrointestinal reflux.


Non allergic asthma:  See Intrinsic asthma


Allergic asthma:  See extrinsic asthma.


Gastrointestinal reflux (GERD):  When the esophageal sphyncter relaxes and stomach contents ride up the esophagus and into the lungs.  It’s a common cause and trigger of asthma.


Dust mite:  Microscopic bugs that live on dust particles and are a common allergen


Cockroach urine:  A common allergen


Molds:  A common allergen


Inflammation:  Swelling


Animal dander:  Material shed from animals, such as fur, skin, feathers, etc.  It’s a common allergen.


Mold spores:  A common allergen.


Pollen:  Microscopic coarse powder released from seed plants.  It consists of a hard coat covering a sperm cell.  Once it lands on a plant it germinates and a flower develops.  The pollen is carried by wind and can be inhaled by humans.  It should be safe for most people, but some develop sensitization to pollen and it can become an allergen.


Ragweed pollen:  A common pollen produced by the ragweed genus of plant that is carried by the wind adn is considered a common allergen.


Sensitizing:  When your immune system recognizes an allergen as an enemy and sets off the immune response in an effort to rid your body of this so called enemy.


Allergy: (Synonym: atopy) It’s estimated 75 percent of asthmatics also have this. It’s an abnormal reaction to an allergen. A normal reaction would be no reaction at all. The first time your body comes into contact with the allergen (dust mites for example) your body develops a defense against it. When the allergen is reintroduced your body attacks it the same as it would an enemy bacteria or virus. The reaction includes inflammation of the respiratory tract, eyes or skin. This often results in nasal congestion, itchy eyes, runny nose, wheezing (asthma), and skin rash.


Allergen: Anything that induces an allergic reaction. Common ones include dust mites, cockroach urine, molds, fungus, and animal dander. For a more detailed list of allergens and asthma triggers, check out this link.


Hypersensitivity: Extremely sensitive, as in sensitive to an allergen. The air passages (bronchioles) of asthmatic lungs are often hypersensitive to various asthma triggers, and they may become acutely inflamed (swollen) as a result of such contact. See allergy.  This increased sensitivity may also be due to chronic inflammation of the air passages (which can be improved with corticosteroids).


Inflammation: Swelling and redness caused by some irritation. In asthma there is some chronic swelling of the air passages, and when exposed to asthma triggers this inflammation may become worse, or acute. Acute asthma is your asthma attack.

Rhinitis: (Synonym: hay fever) Inflammation (swelling) of the mucus membrane inside the nasal passage.



Sinusitis: (Synonym: sinus infection) Inflammation of the sinus passages



Beta Agonist: (Synonym: bronchodilator, rescue medicine) This is a medicine that has an affinity to beta receptors that line the respiratory tract, particularly the bronchioles. Once attached to the beta receptors a reaction occurs that relaxes the bronchiole muscles and opens up the air passages. This makes breathing easier. Examples include Ventolin and Xopenex.


Long Acting Beta Agonist (LABA): These work the same as Beta Agonists only the medicine can last up to 12 hours. Common examples are Serevent (a component in Advair) and Formoterol (a component in Symbicort).



Corticosteroids: (Synonym: steroids, glucocorticosteroid) A medicine often used to reduce inflammation in the air passages. Common examples include Flovent (a component in Advair) and Budesonide (a component in Symbicort).


Metered Dose Inhaler (DPI): (Synonym: puffer, inhaler, breather, rescue inhaler, atomizer) An easy to use and convenient to carry device used to aerosolize asthma medicine such as beta agonists and inhaled corticosteroids. It consists of the medicine mixed with a propellant held under pressure inside a metal cannister and a plastic sleeve with a little mouthpiece. When you press the canister medicine is sprayed and can be inhaled. For more information click here.


Dry Powdered Inhaler (DPI): The medicine is in powder form and usually comes in a device such as a discus or other device. The medicine is usually held inside a capsule that is crushed when you twist the device. The powder is inhaled when the patient places his mouth over the mouthpiece and inhales. For more information click here.


Nebulizer: (Synonym: Updraft therapy, Aerosol, Magic Mist, breathing machine, breathing treatment, peace pipe) This is a small cup that you put liquid medicine into, and once hooked up to an air source (like an air compressor) and pressurized air causes the liquid to become aerosolized and reduced to a fine mist that can be inhaled. Such treatments usually last five to 10 minutes. This is ideal for anyone who has trouble using an MDI. For more information click here.




Allergic reaction:


Chest tightness:


Frogged up:


Shortness of breath:  See short of breath, SOB, dyspnea.


Wheezing:


Cardiac wheeze:


Sneezing:


Stuffy nose:


Nasal congestion:


Postnasal drip:


Atopic dermatitis:


Hypersensitivities:


Anaphylaxis:


Occupational asthma:


Exercise induced asthma:


Beta adrenergic:  See bronchodilator


Airway edema:


Airway congestion:


Nasal congestion:


Types of Asthmatics:


Bronchodilatoraholic: A person who takes more than two puffs twice a week of a rescue inhaler. Some are bronchodilator abusers, and some are simply Hardluck Asthmatics. You can read my experience here and and take the test to see if you are one by clicking here.


Bronchodilator Abuser: A person who abuses his rescue inhaler when what he should be doing is checking in with his asthma physician. Overuse of an inhaler is the #1 sign of uncontrolled asthma.


Hardluck Asthma: Despite all the best asthma medicines and wisdom, these asthmatics continue to have trouble with their asthma. I wrote about one such asthmatic here and here, and I wrote about my experience here. Plus you can click on “my story” under the banner to read more of my story growing up with Hardluck Asthma.


Gallant Asthmatic: She is the asthmatic who does everything right, and has great control of his asthma. He avoids his asthma triggers, has worked with his doctor on an Asthma Action Plan, and follows it to a tee. He is also very compliant with his asthma medicines and sees his asthma physician at least twice a year, but ideally twice a year. I write about Gallant Asthmatics often, such as this post and this post.


Goofus Asthmatic: He’s the asthmatic who does everything wrong. He fails to go out of his way to avoid his asthma triggers, only goes to see his doctor when he has to, and does not have an asthma action plan. If he does have one he doesn’t follow it. He is not compliant with his medicines, as he takes them only when he is feeling symptoms. He is the asthma type who is most likely to be seen in the ER. On a similar note, since his asthma is so out of control and since he is not on his controller meds, he is most likely to be admitted to the hospital. I write about Goofus Asthmatics on occasion, such as this post.


Phlegmatic Asthmatic: She’s the calm, cool and collected asthmatic who takes everything in stride. He could be having an asthma attack right in front of you and you’d never know it (unless you had a keen eye for asthma.) How do you know you’re dealing with a phlegmatic asthmatic? You won’t unless they tell you they have asthma. These are the zen asthmatics who appear to be accepting of their condition, don’t lose their cool and quietly deal with breathing trouble. I am a phlegmatic asthmatic


Actor Asthmatic: He is the asthmatic who always seems to have trouble breathing when you need him most. If it’s time to haul in wood for the fire, his asthma flares. If he’s dreading going to work he might run laps around the living room to ignite his asthma. When it’s time to haul in the groceries he’ll be seen puffing on his inhaler. He’ll do anything to get out of work and avoid stress. Synynom: Exaggeration of Asthma. The actors are fun to write about.


Martyr Asthmatic:They could by dying and they still don’t go to the ER. They are usually tough, macho adult men who only go to the ER at the insistence of their spouses. Their biggest fear, although they won’t admit it, is that they will be told their asthma is all in their head, and then they’ll feel stupid. So, they think it’s easier just to pretend they are fine.


Recovered Asthmatic: Child asthmatics who grow up and no longer have asthma symptoms so they do some unwise things — like smoke. When their asthma comes back, they are in a world of hurt.


Doubting Thomas: These are mostly adult-onset asthmatics who, all of a sudden, develop mild asthma symptoms, but don’t want to admit they have asthma. They would rather suffer at home than seek treatment. But when the RT gives them a treatment they will say, “Wow, I didn’t even realize I was short-of-breath.” Famous Olympic swimmer Dara Torres may have been this kind of asthmatic. But now, I’m sure, she is a Gallant asthmatic.


Sometimer Asthmatic: Synonym: Asthmatics in Denial: They live normal lives, feel good 95% of the time, and so are in denial about their asthma and don’t take their preventative medicines. These are your adult asthmatics who sometimes have mild symptoms, and when they do they take a puff or two or three or four of their inhaler until they feel better.


Poor Patient Asthmatic: These asthmatics would be okay is they had different doctors. We RTs hate to bad mouth doctors, but we know that since this patient has been in the ER 10 times in the last year, he should be on some type of preventative, anti-inflammatory medicine and not just a bronchodilator. Poor patients may also be children whose parents don’t have a clue how to manage the asthma.


Bronchodilatoraholic: These are people who use a bronchodilator frequently. Some may be abusing their medicine, but many are gallants who simply have hard luck asthma.Abusers don’t work with their doctor on an asthma action plan and they may not bother with controller, anti-inflammatory medications. For them, puffing away is like a bad habit – like biting your fingernails. In contrast, some hard-luck asthmatics may just need their bronchodilator frequently – many times a day, every day.We’ll learn more about bronchodilatoraholics on another post.


Unfortunate Asthmatic: These asthmatics don’t have access to a healthcare provider, and cannot affort to get their prescriptions refilled. They give the appearance of Goofus Asthmatics, although they are not. Many live in downtrodden city homes filled with allergens they cannot escape. Their homes are often exposed to the elements due to things like a leaky roof, flooded and musty basement, broken windows covered with plastic and duct tape, broken plaster and peeling paint. They have poor ability to remove asthma triggers from clothing due to lack of washer and drier, or inibility to afford to pay the water bill. They are often exposed to second hand smoke due to inibility to choose their surrounding environment. Good asthma control may be hard to come by no matter hard they try.
Best asthma you can be: This is the more realistic asthma type. They strive to be the best they can be, although they are not perfect because, if you think about it, perfection is not achievable. Normal asthmatics will miss an occasional dose of medicine, and will take an occasional extra puff on their inhaler, and may even use their rescue inhaler without a spacer.


Gallant Asthma Physician: This doctor knows how to take care of your asthma the right way. He keeps up to date on asthma wisdom, and goes out of his way to make sure you are well educated and on all the best medicines for you. He also works with you on a good Asthma Action Plan, and makes sure you feel comfortable knowing you can call him at any time. He also makes sure you schedule an appointment to see him every six months. Asthmatics who see Gallant doctors have the best chance of having well-controlled asthma. Thankfully, a majority of asthma doctors are this type.


Goofus Asthma Physician: Whatever he learned in school umpteen years ago is exactly what he uses to care for you today. He’s either too busy, lazy or sometimes simply too arrogant to stay up-to-date on the latest asthma wisdom. He will allow you to walk out of his office with only a rescue inhaler. Asthmatics who have Goofus doctors are Poor Patient Asthmatics who have a tendency to make unscheduled office visits, or trips to the ER, and are often mistaken as Goofus Asthmatics.


Strong, Silent Type Physician: She never gets excited, and has a ho hum or gloomy disposition. She often has a finger on her forehead and says, “Hmmm, I wonder…” She is well kempt, organized, jots a lot of notes and knows her stuff. She is very quiet and doesn’t like to participate in small talk, but when it comes to asthma or your health she’ll talk fluently. She’ll assess you thoroughly while remaining taciturn. You might be intimidated by the silence, but she doesn’t mean for you to feel uncomfortable. She’s very friendly and polite, but also straightforward. She may also ask for your opinion, which may have you wondering if she knows what she’s talking about. However, her intention is to involve you in the decision making. She will make sure you are well prepared and cared for upon leaving her office, but once she finishes the job, she will up and leave without shaking your hand or saying good-bye. While she’s socially gauche with poor bedside manners, if you like a knowledgeable doc, she’s the one for you.


Big-Hearted Bully Physician: Although he has the bedside manner of a rock and refuses to participate in small talk, he might simply be the best doctor in the world. He is focused and the key for you is to put up with his bluntness and his seeming arrogance. He does not go into detail as he expects you to do your own homework. He usually answers questions with one or two words and, sometimes, he simply grunts. If you annoy him with your petty questions, he’ll grimace and moan. If you try to make suggestions, he’ll intimidate you with his stare. Yes, you will get a thorough workup and he will take good care of you. If you call him with an asthma concern, he will go out of his way to meet you at the office. He’s the only doctor type who will never write a prescription without seeing you first. His decisiveness and stubbornness may impress you, or it may vex you. Overall, if you are the kind of patient who likes a doctor to take control, he’s your doc.


Columbo Physician: She has a very friendly, nonchalant disposition and quite often has ruffled hair, with an overall disheveled disposition like the 1970s TV detective Columbo (collars up, tie crooked, spot of jelly on white lab coat). When things go wrong she scratches her head with an unreadable expression. She’ll slouch in her chair with her legs crossed. She’s been known to say things like, “Well, what do you suggest we do today?” Or, “What medicines would you like to try?” When you call her, she’s the doc who asks, “Do you think you should come in to see me?” Or, if she meets you in the ER, she may ask, “Do you think you should be admitted?” After a while, you wonder if you are the doctor or if she is. On the other hand, if you are the kind of patient who likes to have more control, this might be the ideal doctor for you.


Buddy Physician: He’s the doctor who is often late for your appointments. Even though your irritation level reaches its peak, when he finally does arrive, he cracks a joke you can’t help laughing at. He’s an amazingly happy person and has a knack for telling stories, especially when you are in an inconvenient position (like on the colonoscopy table, or with your mouth stuffed in the dentist chair). He has a positive disposition and can get you excited even about diseases you might have — like asthma. He often downplays severity by saying things like, “Oh, you’ll be fine,” or, “I wouldn’t worry about it if I were you.” You might catch him saying something goofy like, “Well, today we’re going to come up with the perfect concoction to fix you.” Yet, if you can tolerate his sunny disposition, you’ll participate in an awesome discussion unrelated to asthma. You may actually leave the office feeling like you learned more about his life than about asthma. Despite his quirks, you know he’s taking great care of your asthma. So, if you like a friendly, upbeat person, he’s your doc.
Vulnerability: (1)A feeling you get when you realize you’re not going to live forever. It most often occurs when you require prolonged or frequent stays in a hospital. (2) The realization if you want to live a long, healthy life you have to take care of your self, which may include making some changes (like quitting smoking, avoiding allergens, etc.
Vulnerability: (1)A feeling you get when you realize you’re not going to live forever. It most often occurs when you require prolonged or frequent stays in a hospital. (2) The realization if you want to live a long, healthy life you have to take care of your self, which may include making some changes (like quitting smoking, avoiding allergens, etc.


Bronchodilator anxiety: The feeling of anxiety because you don’t have your rescue inhaler on your posession. This may bring about an asthma attack just because you don’t have it.


Asthma forgetfulness: The tendency of some asthmatics to forget they have asthma because they are feeling well, and do things that they shouldn’t. Examples: quit taking meds, rake leaves, clean musty basement, etc.