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The function of hundreds of genes and numerous biological pathways are affected by being physically active.  Too many individuals, especially health practitioners, fail to appreciate the dominant role exercise plays in maintaining the body’s immune homeostasis, its balance. Being physically active decreases the risk of chronic inflammatory conditions such as diabetes, depression, atherosclerosis, and certain cancers.

CYTOKINE PRODUCTION

Fat cells (adipose tissue) produce pro-inflammatory cytokines, immune messages that increase the levels of inflammation in the body–inflammation which contributes to chronic disease. Upon contraction, muscles release anti-inflammatory cytokines that help the body counteract inflammation.  Muscle-generated anti-inflammatory cytokines help the body balance its levels of inflammation. Consistent physical activity also helps increase immune responses to pathogens such as viruses, bacteria and mold. Even modest amount of physical activity changes the ratios of cytokines to healthful numbers. 

In formerly sedentary people, 10 months of moderate walking resulted in a 16%-32% decrease in various inflammatory proteins. In another study, using resistance bands resulted in increases in the anti-inflammatory cytokine, IL-10, along with an increase in cognitive functioning.  Even light activity (2–4 hours of walking-type activity/week) has been associated with better inflammatory balance.

“BRAIN-IMMUNE-GUT” AXIS

There is a “brain-immune-gut” axis. It can be a vicious cycle during which stress increases inflammation and inflammation results in more stress. Being stressed affects not only one’s emotional well-being but also hormonal, nervous and digestive status. 

The microbiome, the community of organisms found on and in the body greatly influences our health. Significant crosstalk between the microbiome and the immune system results in each system affecting the other in both function and composition. Physical activity modifies the gut microbiome which in turn affects muscle, immune and brain function.
The release of anti-inflammatory immune factors not only decreases inflammation throughout the body, but it also promotes the release of brain and gut biochemicals such as dopamine, norepinephrine and serotonin, biochemicals that involved in mood and gut regulation. 

Unhealthy Older Individuals

Poor aging is the result of cumulative effects of imbalances of inflammation. These individuals exhibit high levels of inflammatory cytokines which contribute to problems such as muscle weakness, neurological problems including Alzheimer’s Disease. Elderly people that remain physically active, have reduced levels of inflammation and a better quality of life with fewer chronic conditions than individuals that are not active.

Summary:

Regular physical activity suppresses inflammation by increasing the production of anti-inflammatory cytokines and inhibiting inflammation. 

https://www.ncbi.nlm.nih.gov/pubmed/26978184 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5467003/ https://www.hopkinsmedicine.org/health/conditions-and-diseases/risks-of-physical-inactivity http://eir-isei.de/2019/eir-2019-084-article.pdf https://www.amjmed.com/article/S0002-9343(06)00782-0/fulltext https://www.mayoclinic.org/diseases-conditions/depression/in-depth/depression-and-exercise/art-20046495 https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3320801/ https://www.health.harvard.edu/mind-and-mood/exercise-is-an-all-natural-treatment-to-fight-depression
https://journals.lww.com/acsm-essr/Fulltext/2019/04000/Exercise_and_the_Gut_Microbiome__A_Review_of_the.4.aspx
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2803113/ https://drhellengreenblatt.info/archives/1571

“Eczema” is worldwide the most common of chronic (long-lasting) inflammatory skin diseases.  Also called atopic dermatitis [“itis” means inflammation], it is a condition of red, inflamed, burning, itchy patches of skin. In severe cases, people experience blistering, bloody and peeling skin and raw, excruciating pain.

In the United States alone, over 30 million people have been diagnosed with dermatitis, with almost twice as many children having the condition as adults. As with most immune disorders, more females have the condition than males, and hospitalization due to flare-ups of the conditions or associated infections is associated with an 8-year reduction in lifespan.

Individuals with dermatitis are frequently embarrassed when they have an outbreak, and the itching “drives them crazy”. They have tried every approach including medications, acupuncture, herbals, creams, ointments, and different detergents.   Having dermatitis leads to at least 40% of individuals turning down an educational opportunity or job.

 

Caregivers especially report feeling frustrated, helpless, sad and guilty when dermatitis occurs in children, placing the entire family under both emotional and financial stress. There is no medical cure for eczema.

Atopic dermatitis is attributed to a combination of genetic and environmental factors. Foods such as dairy, certain nuts, soy, wheat, and allergens such as dust mites, pets, pollens have all been implicated. Additionally there are more than 80,000 chemicals registered for use today in the USA. The bottom line is that researchers do not know what causes dermatitis.

What is known, is that atopic dermatitis is a sign that the immune system, via its  inflammatory cells, is overreacting to some agent, and in the process of trying to protect itself, damages by-stander skin cells (autoinflammatory).

In moderate to severe atopic dermatitis, high numbers of inflammatory cells are found both in inflamed and unaffected skin, as well as in the blood. Long term, chronic inflammation leads to skin lesions, blisters and the other symptoms with which people with dermatitis suffer.

As Dr. Eric Simpson, a member of The American Academy of Dermatology has said, “We may not have a cure for atopic dermatitis just yet …[but] tackling inflammation is key.”

Suggestion:

There is no medical treatment for eczema however individuals that have been able to achieve immune balance, homeostasis, have found significant differences in their skin health.

Achieve balance by being physically active 4-6 days a week, consume a smart diet, maintain a healthy weight, do not smoke, or drink in excess.  Do take walks outdoors and add a proven immune balancing supplement to your daily diet and see and feel the difference.

Contact Dr. Hellen– she is there for you.  No fee is charged for the first 30 minutes of consultation.  She may be  contacted by using this form or calling:  302.265.3870 (ET-USA).
https://medlineplus.gov/eczema.html
https://www.medicalnewstoday.com/articles/14417.php
https://www.jacionline.org/article/S0091-6749(17)30205-1/pdf
http://www.jiaci.org/summary/vol28-issue6-num1694
https://www.pbs.org/newshour/science/it-could-take-centuries-for-epa-to-test-all-the-unregulated-chemicals-under-a-new-landmark-bill
https://www.ncbi.nlm.nih.gov/pubmed/30576754

The Centers for Disease Control in Atlanta, Georgia reports that estimated 6-7 million people have been, or are currently sick with viral flu during the current flu season. Half of these individuals saw a health practitioner for their illness but nevertheless approximately 69,00-84,000 people were hospitalized. Much of the illness and deaths from the flu are the result of bacterial infections that often accompany the disease (secondary infections) and excessive inflammation. Unfortunately, a total of 22 influenza-associated pediatric deaths have been reported during the 2018-2019 season to date.

CDC expects flu activity to continue for many more weeks or even months, and it continues to recommend flu vaccination and antiviral medications for high-risk groups such as children 5 years of age (but especially those younger than 2 years of age), older adults, pregnant women and residents of long-term facilities.

Not everyone experiences the same flu symptoms, but symptoms range from chills, severe cough, sudden and high fever, stuffy, runny nose, severe aches and pains, bad headache, extreme fatigue, vomiting and/or diarrhea. Some people go on to develop serious complications caused by viral infection of the nasal passages and throat and lungs.

The presence of virus and bacteria triggers a robust inflammatory response in the body’s attempt to rid the body of disease. Inflammation is the body’s primary weapon to destroying pathogens, but it is a double-edged sword since “uncontrolled” inflammation in response to the virus may result in significant lung damage, followed by death.

It has recently become apparent that during influenza infection, large numbers of inflammatory immune cells leave the lungs and travel to the small intestines. Here they interact with the microbiome (communities of organisms that occupy the gut) destroying the proper the balance of beneficial organisms and permitting the overgrowth of certain classes of bacteria.

These inflammatory cells may be trying to defend the body against pathogens, but instead they produce so much inflammation that the gut lining is injured by them. (Interestingly, in animal studies, antibiotic treatment of the bacteria in the gut reduces damage.)

Inflammation is the protective process by which the body removes harmful pathogens and substances and initiates healing. It is a tightly regulated process that involves molecular signals that start and maintain inflammation (pro-inflammatory) followed by signals that turn “off” the inflammatory process (anti-inflammatory signals). Imbalances of these immune factors results in damage to the tissues and organs.

A properly balanced immune response is essential for the body to combat viruses like influenza and the bacteria that too often are associated with the illness.

  • Taking the following steps towards helps the body defend itself successfully against infections:
  • Wash your hands frequently and keep them away from your nose and mouth (mucous membranes).
  • Stay hydrated to keep membranes moist and resistant to invasion.
  • Be physically active 2.5 hours/week.
  • Be smart—eat healthy, especially vegetables and fruits.
  • Try to get outdoors a few minutes a day.
  • Stop excessive alcohol consumption.
  • Cut down or quit smoking—your lungs are working hard enough trying to bring oxygen into the body.
  • Consume a proven immune support supplement to help your immune system balance.

Enhance your quality of life.  Dr. Hellen can be contacted by using this form, at  drhellen@drhellengreenblatt.info or call her at:  302.265.3870 (ET, USA).

www.cdc.gov/flu/weekly/summary.htm
www.cdc.gov/flu/index.htm
www.washingtonpost.com/news/to-your-health/wp/2018/01/25/heres-what-you-should-know-about-the-flu-season-this-year/?noredirect=on&utm_term=.690664b3eb78
www.ncbi.nlm.nih.gov/pubmed/27744631
jem.rupress.org/content/211/12/2397
www.ncbi.nlm.nih.gov/pubmed/12890422
www.ncbi.nlm.nih.gov/pubmed/30568659

HIV, or the human immunodeficiency virus is a virus that left untreated may lead to acquired immunodeficiency syndrome or AIDS. Unlike some other viruses, even with treatment some people infected with HIV may never eliminate the virus.

In an animal model of HIV, within 24 hours of infection, the virus hitches a ride on immune cells and travels throughout the body. HIV has a special propensity for immune cells, especially T cells. T cells help the body fight infections by activating the production of antibodies (large molecules that neutralize pathogens) and triggers inflammation to kill pathogens or destroy cells containing microbes. Left untreated, HIV infection reduces the numbers of defensive immune cells in the body, leaving HIV infected people (HIV positive) highly vulnerable to infection with other foreign agents (opportunistic infections) and cancers.

DC (dendritic cell)- A type of immune cell that plays a primary role in infections with HIV.
They are important regulators of immune system responses to infection.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4033703/

 

From 80-90% of immune cells are found in the walls of the intestines and in the tissues surrounding the intestines. HIV tends to accumulate in these tissues and attack them. These inflammatory responses may weaken the gut barrier resulting in inflammatory digestive issues for HIV positive individuals.

“Inflammation and immune activation accelerate heart disease and stroke, and chronic HIV infection results in both,” says Robert T. Schooley, AIDS researcher and Professor of Medicine in the Infectious Diseases division at the University of California at San Francisco. In addition, this population is at increased risk for certain cancers, gastrointestinal, liver and kidney problems.

There are no cures for HIV, but with proper medical care, the numbers of virus infecting a person and their symptoms may be controlled. Proper medical treatment dramatically improves and prolongs lives. Anti-retroviral therapy (ART or ARV) is used to treat HIV infections.

When the “cocktail” of medications is taken as prescribed, viral loads (the number of viruses in the body) are decreased. These medications can reduce the numbers of HIV down to very low levels (called “undetectable”). However, in some individuals HIV can continue to infect immune cells. [Note: The CDC states that individuals with undetectable virus loads have no risk of sexually transmitting the virus.]

The body must be in immune balance, in immune homeostasis to protect the body from infection or fight infections. The immune system must produce the right ratio of inflammatory cytokines (pro-inflammatory) to anti-inflammatory cytokines. It needs enough inflammation to destroy the pathogen, or in this case HIV, but not so much that healthy tissues are damaged.

A recent study of people that have been treated over many years for HIV reports that HIV positive individuals are at a higher risk of getting diseases common to older individuals. Individuals that were infected in the early years with HIV are now in their 50s and 60s and develop inflammatory-related conditions at a significantly higher rate and lower age than uninfected people of the same age.

Summary:

The key to staying healthy is to remain in immune homeostasis, immune balance—this is true especially for people with chronic infections such as HIV.

 

Please contact Dr. Hellen if you wish to enhance your quality of life-don’t you deserve to do that?  The first 30 minutes of discussion are gratis. Dr. Hellen may be  contacted by using this form or calling:  302.265.3870 (ET-USA).
www.aidsinfonet.org/fact_sheets/view/484
www.cdc.gov/hiv/risk/art/index.html
www.catie.ca/en/treatmentupdate/treatmentupdate-223/inflammation-and-hiv/exploring-hiv-and-inflammation
www.biorxiv.org/content/early/2018/09/14/418012
www.sciencedirect.com/science/article/pii/S0092867400806947

 

Back pain is one of the most common health complaints among adults in the US. From 75-80% of individuals will suffer from lower back pain sometime in their lives.

Symptoms of back pain include shooting or stabbing pains in the back, limited mobility, and/or pain that radiates down the leg.

The majority of individuals experiencing back pain will become more comfortable within days or weeks without medical treatment. Some people however may experience chronic pain lasting 2-3 months or more.  Nonetheless, all low back pain results in major economic and social repercussions for both sufferers and society.

 

DrHellen 2018 (c)

There is no known cause of the pain in approximately 90% of patients; it is what is termed “idiopathic”.  However, sitting too long or doing a physical task incorrectly may trigger back problems.  The lack of physical activity, excess weight, genetics and the physical demands of a job also contribute to lower back pain. Sedentary lifestyles are associated with 1.41 times greater risk of developing back pain. Individuals that are not physically active, are 1.23 times more likely to develop lower back pain.

Individuals with back pain frequently have the same anatomically “abnormalities” as people without back complaints. Patients with occupation-related back pain who had magnetic resonance imaging (MRI) of their back were 8 times more likely to get surgery as those who had just x-rays. Since symptoms do not correlate with imaging testing, many practitioners will not recommend imaging testing within the first six weeks of pain (unless there is a strong suspicion of other underlying conditions)..

Inflammation in the body is tightly regulated, involving signals that initiate and maintain inflammation and others that turn inflammation off. Imbalances between the two, lead to unchecked inflammation.

Inflammation causes pain, and pain causes more inflammation.  When the body hurts, inflammatory cytokines, immune molecules, are triggered that initiate the healing process. The release in the spinal cord of certain cytokines is associated with inflamed nerves and pain.

CRP (C-reactive protein) is a biological marker of inflammation. Individuals with the most severe lower back pain have nearly twice the amount of CRP levels as those with less pain.

Back surgery may relieve some causes of back pain, but it’s rarely necessary. Most back pain resolves on its own. There are a number of treatments that are used to reduce inflammation and pain: nonsteroidal anti-inflammatory drugs (NSAIDS), epidural steroid injections, topically applied creams or sprays, and for some, hot and cold packs.

One of the best approaches to relieving lower back pain is exercise, especially McKenzie exercises [find the exercise best for you on YouTube].  Individuals that do back exercises find significant relief and if practiced consistently will find that their backs will be strengthened and they will have less discomfort.

[As previous posts have suggested, backed by clinical trials, exercise increases naturally-occurring anti-inflammatory cytokines and can provide significant and faster relief to those suffering with lower back pain.]

Summary:

The key to healing is a balanced immune response.  The body needs the right amount of inflammation to heal, but too much inflammation results in illness.

If you want to change how you feel, contact Dr. Hellen. No fee is charged for the first 30 minutes of consultation. Dr. Hellen may be  contacted by using this form or calling:  302.265.3870 (ET-USA).
mayohealthhighlights.startribune.com/2017/09/22/low-back-pain-caused-by-spinal-degeneration-and-injury/
www.statista.com/topics/4333/back-pain-in-the-us/
www.ncbi.nlm.nih.gov/pubmed/19407734
www.ncbi.nlm.nih.gov/pmc/articles/PMC4137474/
www.ncbi.nlm.nih.gov/pubmed/29740548
www.ncbi.nlm.nih.gov/pubmed/23270761
www.ncbi.nlm.nih.gov/pmc/articles/PMC5931150

According to the Centers for Disease Control (CDC), Lyme disease is the fastest growing vector-borne, infectious disease in the United States with a 25 fold increase in the number of cases since surveillance of the disease began in 1982. World-wide, there are over 300 strains of these bacteria, many of which tolerate antibiotics and are able to evade immune cells.

Tick Borne Infections:
Lyme disease is associated with infected ticks and may be contacted after engaging in outdoor activities. The infected ticks bite through the skin of a person or animal, getting a blood meal and introducing the bacteria into the body. (Typically the tick has to be attached for 36 or more hours before the bacteria is passed to the host.) Symptoms may include: skin rash and painful inflammation of joints (particularly the knees) and be accompanied by flu-like symptoms such as fever, headache, fatigue and chills.

Diagnostic Testing:
Diagnostic tests are only 29-40% accurate in the first three weeks after infection. Once the infection spreads to the nervous system and joints, accuracy increases. After treatment, even when test results are “negative”, live organisms may still be found in organs. Early treatment with antibiotics and anti-inflammatory medications are helpful, but if left untreated, joints, heart, brain, muscles and brain may become involved– sometimes months or years later.

Nervous System Involvement:
About 15 percent of patients with Lyme disease develop nervous system (spine, brain, etc.) inflammation. This event is accompanied by debilitating and painful muscle and joint symptoms and major neurologic changes such as facial nerve palsy, pain radiating along the back into the legs and feet, limb pain, sensory loss and/or muscle weakness.

Inflammation results in injuries to the brain and spinal cord and may result in severe headaches, fatigue, memory loss, learning disability, depression and cognitive problems.

Inflammatory immune factors are increased in the body, recruiting more inflammatory white blood cells into the brain and the spinal cord. The healthy immune cells that protect nerve cells are damaged or destroyed by the inflammation. No longer protected, nerve cells are damaged even more.

Lingering Symptoms:
A major issue with tick-borne infections is that even after treatment; up to 25% of individuals may have persistent painful joint inflammation and other symptoms lasting months or years.

There are two factors that may account for this:
a) Small numbers of bacteria remain which the immune system has not been able to successfully eliminate.
b)Once the infection is over, traces of long-lasting bacterial proteins are found within and around the joints. These proteins trigger inflammatory responses resulting in significant joint, muscle and nerve pain. It is the body’s immune response to these residual proteins, rather than a lingering infection that results in symptoms.

Summary:
As always, the key to an active quality of life is to help the body maintain immune balance– its homeostasis. Exercise (suggested: 2.5 hours a week), maintaining a healthy weight, eating smart, going outdoors for a few minutes a day, and taking an excellent immune support product will make all the difference in one’s health.

 

Achieving immune homeostasis will make a difference in your life. Contact me, DrHellen@DrHellenGreenblatt.info, use the form or give me a call at 302.265.3870 and let us talk.

http://www.ilads.org/lyme/lyme-quickfacts.php
http://www.cdc.gov/lyme/signs_symptoms/index.html
https://www.statnews.com/2017/06/28/early-lyme-tests/
www.ncbi.nlm.nih.gov/pmc/articles/PMC3474947/
www.hopkinsarthritis.org/arthritis-info/lyme-disease/
ajp.amjpathol.org/article/S0002-9440(15)00123-6/fulltext
news.yale.edu/2012/06/25/even-after-lyme-disease-gone-its-remains-may-perpetuate-inflammation
www.news-medical.net/news/20171214/Study-Living-Lyme-disease-bacteria-found-months-after-antibiotic-treatment.aspx

According to the Centers for Disease Control and Prevention (CDC), this flu season is an unusually severe outbreak with wide-spread instances of disease in 49 States with many schools being closed. The season started earlier than usual, which is never a good sign.   CDC Deputy Director Anne Schuchat has said “This year’s influenza season is proving particularly difficult”. Hospitals do not have enough beds and the prevalence of the flu has led to shortages of anti-viral medications that if prescribed in the first 48 hours may shorten symptoms by a day or so.

This season’s primary virus strain is H3N2, a deadly type of influenza A that tends to result in more severe illness and higher numbers of hospitalizations and deaths than other strains. H3N2 is especially dangerous for the frail elderly and children, although people between the ages of 50 and 64 are being hospitalized at alarming rates, second only to the elderly.  As of this post, almost 100 children have already died from the flu.

Since vaccination may lessen the severity of the illness and there are  few other options, the CDC recommends people be vaccinated with the current flu vaccine, even though it may only be 30% -40% effective. [Antibiotics are useless against viruses since they only kill bacteria.]

Although some people view the flu as “merely” annoying and inconvenient, those suffering from influenza along with COPD (chronic obstructive pulmonary disease), asthma, emphysema, diabetes and other pre-existing conditions are at a higher risk of hospitalization or death, especially if they contract a secondary bacterial infection.

The influenza virus is difficult for the body to protect itself from, because it is able to mutate rapidly and frequently. This forces the immune system to constantly change its tactics to combat the latest version of the flu.

Infection by influenza triggers an intense immune inflammatory response in the lungs in the body’s attempt to stop the virus from multiplying. The lungs’ immune cells release cytokines, small molecules that signal and recruit other cells into the lungs to increase or decrease their immune and inflammatory responses.

Lisa Brown JPEG

But such a response can be a double edged sword. Too much inflammation causes lung damage on top of the damage already caused by the virus and secondary bacterial infections such as pneumonia. Additionally, although rare, if the balance of cytokines is significantly upset, the normal level of inflammatory cytokines may become too high, resulting in a cytokine storm (or cytokine cascade) that can kill a previously healthy individual in hours.

A properly balanced immune system, one in homeostasis, is more fully prepared to defend us against invasion by foreign agents, and is ready to help us combat an infection if we get one.

Following the following steps will help keep your immune system functioning at optimum levels:

  1. Eat healthful meals with an emphasis on whole grains and plenty of colorful vegetables and fruits.
  2. Be physical active to help keep the immune system in balance; incorporate it into your daily life.
  3. Get adequate amounts of rest and avoid fatigue.
  4. Drink plenty of fluids to keep membranes moist and more resistant to invasion.
  5. Wash your hands frequently and try to keep them away from your face.
  6. Stop, or at least cut down, on your smoking—your lungs are struggling enough.
  7. Consume a superior immune support supplement to help your immune system balance.
Dr. Hellen’s passion is helping people have a better quality of life. Contact her by using this form, drhellen@drhellengreenblatt.info, or calling at: 302.265.3870 (ET, USA).
www.cdc.gov/flu/index.htm
www.cdc.gov/flu/weekly/summary.htm
www.ncbi.nlm.nih.gov/pmc/articles/PMC4711683
www.ncbi.nlm.nih.gov/pubmed/24728596

www.businessinsider.com/baby-boomers-hospitalized-with-the-flu-what-is-imprinting-2018-1

From the time of the ancient Greeks, it has been clear that the mind-gut-body connection influences one’s health; however, only during the last century have we begun to understand why this is the case.

With new tools, scientists can show that there is cross-talk between the brain, the gut and the immune system.  Immune molecules from white blood cells send messages to the brain and the gut and in turn, these organs signal back to the immune system, up-regulating (increase) or down-regulating (decrease) inflammation.

 Image stress stomach immune system brain

©2017 Dr. H. C. Greenblatt

Chronic, long-term stress, affects immune cells by changing their gene activity.  This prepares them to fight infection or trauma and increases inflammation. More immune cells are then enlisted for the fight, resulting in increased inflammation.

Inflammation is necessary for survival, but too much inflammation is linked to heart and autoimmune disease, diabetes, depression, and cancer.  This is why it is essential to maintain the right balance of signals.

Stress responses are part of a vicious cycle in which stress triggers inflammation and inflammation triggers additional stress.

In stressed mice, there are four times the numbers of immune cells than found in non-stressed mice.  Additionally in mice that are stressed 1100 genes are responsible for increasing (up-regulating) inflammation.  These genes in non-stressed mice are not activated.

Similar outcomes are seen in humans under chronic stress. For weeks and months following natural disasters such as earthquakes and hurricanes,  individuals, especially those who have suffered great personal loss, have imbalances of the immune system that affects them both physically and emotionally.

The immune system and its inflammatory responses are in exquisite balance (homeostasis).  The body expands much of its energy maintaining its balance in a steady state.  This may be the reason that people who are stressed out tend to be “tired a lot of the time”.

Let us say that your immune system consists of 30 billion cells and that 15 billion of these cells are in the attack mode with excessive inflammation (up-regulation).  Let us propose that another 15 billion cells are trying to limit the inflammatory response (down-regulation).

A total of 30 billion cells expending a “trivial” amount of energy is a great deal of wasted energy. No wonder people become exhausted when they are not in homeostasis, balance.

CONCLUSION:

The key to reducing stress  is to help the immune system return to homeostasis, to its natural balance.

To better manage stress:  incorporate an immune support supplement into your daily diet, be physically active 2-2.5 hours/week, spend time outdoors, eat smart, stay within healthy weight limits and remember that you are only one person—be kind to yourself; give yourself a break.

Achieving immune homeostasis will make all the difference in the quality of your emotional and physical well-being. 

Contact Dr. Hellen at: DrHellen@DrHellenGreenblatt.info, use the form or give her a call at 302.265.3870 (ET, USA) at no charge to you. 



http://www.uppitysciencechick.com/glaser_stress_immune_dysfunction.pdf
www.ncbi.nlm.nih.gov/pubmed/29064542
www.ncbi.nlm.nih.gov/pubmed/27319971
www.ncbi.nlm.nih.gov/pubmed/24608036
www.ncbi.nlm.nih.gov/pubmed/22790082

What is the Role of Inflammation?
When the body is injured or recognizes the presence of pathogens such as bacteria, viruses, molds, parasites or cancerous cells, its immune system is triggered to respond with inflammation to “burn” the threat out of the body.

Balance is Essential
Once the challenge has been met, a person in immune balance, homeostasis, will reduce the amount of inflammation that they are producing to “normal” levels. Uncontrolled, run-away  inflammation leads to autoimmune diseases (against oneself) in which its own tissues and organs are attacked.

Lupus
Systemic lupus erythematosus (SLE), lupus, is a complicated autoimmune condition affecting virtually every organ in the human body. Because of the wide-range of symptoms experienced, the disease is often difficult to diagnose. Common symptoms are extreme fatigue, swollen and/or painful joints, muscle pain, low-grade fever, thinning or loss of hair, butter-fly shaped rash across the nose and cheeks, chest pain when taking a deep breath, kidney and heart problems.

Butterfly rash

“Butterfly Rash” often associated with SLE
(
emedicine.medscape.com)

 

Females make up 80-90% of people with lupus and despite treatment, many individuals will experience flares and remissions (symptoms come and go) their entire lives.

Lupus and Inflammation
The hallmark of lupus is over-activity of the immune system and inflammation. Imbalances of inflammatory immune factors, cytokines, are significantly higher in lupus patients compared to people without lupus. These immune molecules promote inflammation and damage tissues.  High levels of these inflammatory factors are associated with the severity of disease but decrease as individuals are successfully treated.

Anti-malaria medications originally used to prevent or treat malaria has been used to treat lupus.It was not understood why these medicines were somewhat effective against SLE, but a recent study suggests that these medications inhibit inflammation.

Physical Activity
Every time a muscle contracts, it releases anti-inflammatory molecules that helps the body balance the amount of overall inflammation produced.

As would be predicted, weekly physical activity improves fatigue, depression and increases the quality of life of most individuals. Even moderate exercise, 3 days a week for 20 minutes, has been shown to make a major difference in the amount of energy and feelings of well-being experienced by lupus patients.

If  You Have Lupus
Frequent physical activity, eating in a healthful manner and daily consumption of an excellent immune balancing supplement helps the body control inflammation and achieve immune homeostasis (immune balance).

Dr.Hellen is passionate about helping people enjoy life at its fullest. She may be contacted by using this form, contacting her at: drhellen@drhellengreenblatt.info or feel free to call her at:  302.265.3870 (ET, USA).
www.niams.nih.gov/health_info/lupus/lupus_ff.asp
www.hindawi.com/journals/bmri/2011/432595/
www.ncbi.nlm.nih.gov/pmc/articles/PMC3320801/
www.ncbi.nlm.nih.gov/pubmed/28507328
www.hopkinslupus.org/lupus-treatment/lupus-medications/antimalarial-drugs/
www.ncbi.nlm.nih.gov/pubmed/28521867
www.ncbi.nlm.nih.gov/pubmed/28491039
www.ncbi.nlm.nih.gov/pubmed/28477898
www.ncbi.nlm.nih.gov/pubmed/28432856

 

An article in a recent trade publication opened with the following: “Charles couldn’t believe the intensity of the pain – and he had been shot during a tour in Iraq with the Marines. “I was lying in my sleeper and my big toe just went on fire. It was like nothing I had ever experienced. I thought I was going to pass out from the pain,” Charles explained. “My big toe was red, swollen and when I touched it, even a little, it hurt like hell”. Charles’ problem is that he suffers from gout.

 Gout is a type of arthritis that seems to run in families and results from the presence of crystals that form in the body. For example, during digestion and metabolism, the body produces uric acid which is eliminated via urine. Any uric acid that the body cannot excrete accumulates in the blood. For reasons not understood, about 30% of people with high levels of uric acid in their blood form needle-like, sharp urate crystals that end up in their joints and/or other parts of the body.

 Herbert Baraf, MD, Chevy Chase, MD, has a great analogy: “Imagine pouring packets of sugar into a glass of tea; can only hold so much in solution. And sooner or later, the sugar is going to start accumulating on the bottom of the glass.

 People with gout may go weeks or months without an attack, but when it flares up it can be excruciating and last for days. Over time, repeated attacks can eat into bone and cartilage, causing permanent damage to affected joints.

Inflammation

The presence of crystals triggers an intense inflammatory response and painful swelling the result of the body’s attempt to break down the crystals. Typically the crystals end up in joint cartilage, and for unknown reasons, especially the big toe.

gouty toe

In others, crystals settle in kidneys or the urinary tract, impairing their function or forming stones. White blood cells migrate into the joint spaces and fluids and the lubricating membranes that line the joints, the synovial membranes trying to eliminate the crystals. The immune cells attracted to the area release biological factors, cytokines and chemokines, into the surrounding area. This attracts more inflammatory cells with a result of redness, swelling and debilitating pain.

Certain immune factors are typically only in small amount in normal uninflamed joint fluids, but in individuals undergoing a gout attack (flare) the levels of the factors are significantly increased.

 Since inflammation is associated with many diseases, such as cancer, diabetes, obesity and cardiovascular health, it is not surprising to find that patients with gout are at higher risk of these diseases when compared to the general population.

 Summary:

Gout is caused by an overactive immune system using inflammation unsuccessfully to get rid of the crystals that are causing the discomfort.

Returning the immune system to balance, immune homeostasis, can result in a higher level of quality of life (QOL) for people with gout.

For years I have helped people promote  joint, digestive, energy and overall health.   Feel free to contact me DrHellen@DrHellenGreenblatt.info, use the form, or give me a call at 302.265.3870 (ET) and let us talk. Let me help you help yourself, it is  time!

www.nature.com/icb/journal/v88/n1/full/icb200999a.html
fleetowner.com/driver-management-resource-center/truck-drivers-crosshairs-gout
www.nytimes.com/2013/04/27/booming/why-do-i-have-gout.html
rheumatology.oxfordjournals.org/content/44/9/1090.short
www.hopkinsarthritis.org/ask-the-expert/heredity-and-gout/
www.uptodate.com/contents/gout-beyond-the-basics
www.internationaljournalofcardiology.com/article/S0167-5273(15)30342-9/abstract?cc=y=
www.ncbi.nlm.nih.gov/pubmed/28093417
www.ncbi.nlm.nih.gov/pubmed/25332119
www.hindawi.com/journals/mi/2015/680853/

 

Given all the current social, political and economic uncertainties, this year may be even more anxiety-producing and stressful than in the past. Past surveys have shown that 30-50% of people (and because of all of their responsibilities, especially women) experience heightened stresses.

STRESS AND INFLAMMATION

Stress alters immune responses affecting our ability to fight infection and heal after injury. Inflammation is a necessary part of the immune response and is stimulated when the body is injured or exposed to pathogens or mutated cancer cells.

Short term stress stimulates the immune system by preparing it for a “flight vs. fight” response, but over a longer period of time stress results in negative imbalances of the immune system and increased inflammation. This becomes even a larger problem for people who are already in poor health or struggling with disease.

Poorly regulated  inflammation results in chronic diseases such as diabetes, arthritis, coronary heart disease, Alzheimer’s disease, dementia and even cancers, so it is important that the body carefully regulate the amount of inflammation produced.

Inflammation is a two-way street. Stress causes inflammation and inflammation causes stress.  And when daily activities increase stress, the amount of inflammation produced by the body increases as well.

stress-and-inflammation

There are biological markers in the blood that track differences in immune responses.   The longer and greater the stress, the more likely the body is to switch from a healthy, controlled inflammatory response to one that affects its ability to fight disease and healing processes.

CONTROLLING INFLAMMATION AND STRESS 

The net effect of an inflammatory response is determined by the body balancing its inflammatory and its resulting anti-inflammatory responses.

The four best ways to help the body balance are:

Be physically active for at least of 2.5 hours total per week.

  1. Incorporate a daily immune balancing supplement into your diet.
  2. Eat a smart, healthful diet.
  3. Keep your weight under control.

Remember:  The better you take care of your immune system, the better it will take care of you.

Graphic adapted from: Johanna Bendell, MD, with thanks.
www.mayoclinic.org/healthy-lifestyle/stress-management/in-depth/stress/art-20047544
www.apa.org/news/press/releases/2006/12/women-stress.aspx
www.ncbi.nlm.nih.gov/pubmed/27859423
www.jci.org/articles/view/25102
www.ncbi.nlm.nih.gov/pubmed/12480495
www.ncbi.nlm.nih.gov/pubmed/24062448
www.ncbi.nlm.nih.gov/pubmed/27862176

Our heart is “simply” a large muscle that continuously pumps oxygen-rich blood throughout the body supplying cells, tissues and organs with life-giving oxygen and nutrients. The cells of the body release carbon dioxide and other gases as a by-product of producing energy. These gases are removed from the blood as it circulates through the lungs.

A heart attack results when blood is blocked from getting into the arteries that feed the heart. If not treated rapidly, parts of the heart muscle may die from lack of oxygen. After a heart attack, danger signals released by dying cells trigger inflammation which in turn attracts immune cells into the area to clear dead cells and tissue debris.

The high numbers of inflammatory immune cells stick to the plaque, increasing the risk for another heart attack. The body tries to heal itself by transforming the damaged heart muscle cells into scar tissue. Because scar tissue is hard and not flexible, a badly scarred heart cannot pump blood efficiently.

For any sort of healing, the body has to produce the right amount of inflammation. There has to be sufficient inflammation for the healing process, but not so much that excessive scarring occurs. Depending on how much scar tissue forms, congestive  heart failure may result due to the inability of the heart to pump normally.

Our cells produce cholesterol which is essential for a wide range of biological functions. The body has to manufacture the right amount of cholesterol and which has to go to specific parts of the body.   If too much cholesterol is produced over many years, cholesterol plaque builds up in the arteries resulting in atherosclerosis. Atherosclerosis is triggered by lifestyle issues that cause uncontrolled inflammation such as high blood pressure, smoking, poor dietary choices and excessive weight.

Plaque deposits narrow the passageways of arteries and block the flow of blood in vessels that feed the heart itself. The plaque may eventually harden, burst and release blood platelets that form clots in an attempt to stop the bleeding. The blood clots may cause even more blockages in the arteries, obstructing blood and oxygen flow and causing more heart damage. An artery to the heart which is blocked may result in a heart attack; a blocked artery in or leading to the brain results in a stroke.

 What is a Heart Attack?

 

In Summary:

1) Acting fast at the first sign of heart attack symptoms can save lives and limit damage to the heart. Heart attack treatment works best when it’s given right after symptoms occur. If you think you, or someone else is having a heart attack, even if you’re not sure, call emergency services immediately.

2) Current therapies for atherosclerosis and cardiovascular disease do not target inflammatory cells. Maintaining the body in immune homeostasis, immune balance, may help the body support healthy heart and cardiovascular function.

www.nhlbi.nih.gov/health/health-topics/topics/heartattack
www.heart.org/HEARTORG/Conditions/Inflammation-and-Heart-Disease_UCM_432150_Article.jsp#.V7un7mf6vcs
www.pnas.org/content/113/29/8212
www.ncbi.nlm.nih.gov/pubmed/27619160
www.ncbi.nlm.nih.gov/pmc/articles/PMC3375712
www.ncbi.nlm.nih.gov/pubmed/27515051
stm.sciencemag.org/content/8/342/342ra80www.ncbi.nlm.nih.gov/pubmed/27542099

 

 

Last week I talked with a young local Asian-American business owner who shared with me that he was “a little fatigued and stressed out”. I suggested that if he took steps to getting his immune system in balance, that since our physical and emotional well-being is dependent on homeostasis, he would feel much better.

He basically replied that, “he spends half the year in Florida, has a lot of friends that are “into” nutrition, he exercises and that he didn’t need any more information, thank you”.

Nothing like a person with an open mind, but unfortunately too many people think in this narrow way.  We all know individuals that eat nutritiously, exercise 5-7 days a week and watch their weight but they still do feel “off”.  Their fingers, elbows or knees hurt, they can’t eat everything they would like, or they have other health issues despite their “great” life style.

Nutritional Recommendations:

The evidence is strong that due to the hundreds of phytonutrients, plant nutrients, in fruits, vegetables, nuts, beans, whole grains and olive oil, that plant-based foods are important for our health. A broad variety of these phytonutrients are suggested since they appear to affect a wide-spectrum of biological functions. The consumption of plant-based foods influences the health of cells, blood pressure, risk of certain cancers, immune, dental, urinary, liver and gut health.

An additional dietary recommendation is to consume fish or fish oil 2-3 times a week for their omega-3 fatty acids. This “good” fat has multiple uses in our body, but the body cannot produced these fats by itself; we need an outside source.

Studies involving hundreds of thousands of people suggest that omega-3s reduce the risk of fatal heart disease, improve the flexibility of blood vessels, lower blood pressure and reduce immune inflammation. [Note: It is controversial whether omega-3 supplements are as beneficial as eating fish; in fact, they may cause certain health issues.]

Role of the Immune System

When the body is threatened by pathogens or cancer cells, or has been injured, the body responds with short-term inflammatory responses, acute inflammation.

Immune cells flood the area to destroy invading foreign organisms or cancer cells, or to start the healing process after trauma. If the body cannot get rid itself of the infection, or if it over-responds with excessive levels of inflammation, the immune response may become chronic, or long-term.

Chronic inflammation is abnormal and damages previously healthy tissues and organs. This sort of unlimited inflammation results in autoimmune diseases, diseases in which the body’s immune system turns on the body.  Conditions such as arthritis, diabetes, lupus, multiple sclerosis, Crohn’s disease, ulcerative colitis, celiac disease, hepatitis and asthma can result from such run-away inflammatory responses.

Knowledgeable individuals know that nutrition plays only an initial role in staying healthy. Good nutrition is the foundation upon which to build health, but it is NOT ENOUGH; it is the immune system that governs one’s health and must be optimized.

The Importance of a Balanced Immune System

Immune balance, immune homeostasis, is tightly regulated by the body. It allows the organism to respond to infection, cancer cells and injury with the right amount of inflammation.  Any imbalances, either too much stimulation, or too little, results in immune disorders and health issues.

The key to good health and healthy aging is keeping the immune system in balance.

    Scales Immune Reponses Partial

Dr.Hellen’s major passion is helping people to enjoy life at its fullest. She may be contacted by using this form, at: drhellen@drhellengreenblatt.info or feel free to call:  302.265.3870 (ET, USA).

  

nutrition.ucdavis.edu/content/infosheets/fact-pro-phytochemical.pdf
www.hsph.harvard.edu/nutritionsource/fish
www.harvardprostateknowledge.org/high-intake-of-omega-3-fats-linked-to-increased-prostate-cancer-risk
www.ncbi.nlm.nih.gov/pubmed/17047219?dopt=Citation
www.ncbi.nlm.nih.gov/pubmed/22893204
www.ncbi.nlm.nih.gov/pubmed/22122770
www.ncbi.nlm.nih.gov/pubmed/27357102

 

Strokes are the third leading cause of death in the United States with a person dying every four minutes.  Strokes happen at any age, but the risk of having one doubles each decade after the age of 55.  Additionally 53% of stroke survivors may end up permanently disabled.

Active neurons, brain cells, require a constant flow of oxygen and nutrients which are supplied by blood vessels. A mere 60 second interruption of blood flow may result in the death of two million brain cells. Such events probably account for the significant number of disabilities experienced by stroke victims.

What Exactly is a Stroke?

87% of all strokes occur when blood flow is blocked by a blood clot in an artery in the brain. This type of “brain attack” is termed an ischemic stroke and if blood flow is not restored quickly enough may lead to significant damage or death of brain cells.

A second type of stroke, the hemorrhagic stroke, results from the rupture or leakage of weakened blood vessels in the brain. Blood spills into and around the brain triggering significant inflammatory and other immune responses as the body tries to “clean up” the blood. Even though only 15% of all strokes are hemorrhagic, they are responsible for about 40% of all stroke fatalities.

[Some individuals experience a quick, temporary blockage of blood flow to the brain, a “mini-stroke”. These transient [momentary] ischemic attacks, TIAs, result in no permanent injury to the brain, yet should serve as a warning of a possible future stroke.]

Identify a Stroke and Save a Life.

Identifying quickly whether a person is having a stroke can save their life or prevent them from a lifetime of disabilities.  Stroke is largely treatable – but time matters. Every second counts in getting help. The faster people are treated, the more likely they are to recover without permanent disability.

The symptoms to look for make up the letters B_E_ F_A_S_T. *

BALANCE:   Is the person experiencing a loss of balance?

EYES:         Has the person lost full or partial vision in one or both eyes? Is their vision blurry or double?

FACE:         Ask the person to smile. Does one side of the face droop?

ARMS:        Have the person raise both arms up — does one arm drift downward?

Are they experiencing weakness in one or both arms?

SPEECH:   Is the person’s speech slurred or having difficulty finding words?

Can they repeat a simple phrase without sounding slurred or  strange?

TIME:     Time is of the essence! Getting help fast is key to preventing brain loss or death.

If they have any of these symptoms, call 911 immediately, even if the symptoms disappear. The faster a stroke victim gets to the hospital, the better the chance of a successful recovery without life-limiting or even fatal results.

(The American Heart Association advises the public to NOT take aspirin during a stroke, since ruptured blood vessels may bleed even more.)

 Stroke and Inflammation

When stroke occurs, the nerve cells in the affected part of the brain die and immune cells rush into the area to clean up the dead cells.

This inflammatory response is essential to forming new nerve cells and for repair and healing, but uncontrolled inflammation can lead to further damage to the brain. As is always the case, immune homeostasis, the right balance of inflammatory responses, is needed for a rapid and complete recovery.

 

A Personal Note:

Through the years, many whom I have advised to balance their immunological responses, have recovered at a significant level after their stroke. Of course, their recoveries may have been coincidental to immune re-balancing, but it certainly is prudent to strive for immune homeostasis, immune balance, when healing.

 

Dr. Hellen is available at 302.265.3870 (EST, USA) for discussions as to the role of immune homeostasis for optimum health.  There is no charge for the first 30 minutes of the consult.  She may be contacted at: drhellen@drhellengreenblatt.info, or use the contact form. 

 * Thanks to nyp.org
www.ncbi.nlm.nih.gov/pmc/articles/PMC2858674/
www.ncbi.nlm.nih.gov/pmc/articles/PMC1868538/
stroke.ahajournals.org/content/44/6_suppl_1/S74.full
www.heart.org
www.stroke.org/understand-stroke/what-stroke/ischemic-stroke
www.ncbi.nlm.nih.gov/pubmed/27076418
www.nhlbi.nih.gov/research/reports/2005-cvd-events/howard
www.nih.gov/news-events/news-releases/scientists-identify-main-component-brain-repair-after-stroke
www.nature.com/neuro/journal/v18/n12/abs/nn.4146.html
www.telegraph.co.uk/science/2016/04/15/stroke-treatment-to-fight-inflammation-could-harm-recovery

As of this writing, the Centers for Disease Control (CDC) in Atlanta is strongly recommending that pregnant woman postpone travel to many countries across the world, including the popular Caribbean islands.  The CDC is taking these steps due to the possibility that these women may become are infected with a mosquito borne virus called Zika.  The World Health Organization (WHO) Director General Dr Margaret Chan, has said that Zika had gone “from a mild threat to one of alarming proportions” and expects the virus to spread through the Americas and affect between three million and four million people.

Eighty percent of individuals who are infected with Zika do not show symptoms.  However, when symptoms do occur, they can last up to a week or so and include fever, rash, pink eye, and joint pain. Some clinicians suggest that Zika virus infection may result in the autoimmune [against oneself] condition,  Guillain-Barre syndrome (GBS).  This is rare disorder where too much inflammation damages the nerve cells, causing muscle weakness and may lead to paralysis.

The greatest concern however right now is that health agencies “strongly suspect” that when a pregnant women is bitten by a mosquito that is carring the virus, that even if she does not experience symptoms, that her offspring may develop brain malformations.

This latest outbreak adds to concerns that infectious diseases are one of the top threats challenging our world—a major topic on the agenda of last week’s World Economic Forum world leader attendees.  Until vaccines or treatments are developed, viral infections such as Zika, Ebola, SARS (severe acute respiratory syndrome), and MERS (Middle East Respiratory Syndrome) remain a threat to the world’s population.

Currently, there are no commercially available vaccines or treatments for Zika.  Until recently the cost to develop a successful vaccine was far greater than what the manufacturers would recoup in vaccine sales.  However, development of a vaccine for Zika will likely now escalate since Zika has spread so widely, infecting over 1.5 million individuals and its being linked to neurological problems, especially in newborns.

In addition to a lack of vaccines and treatments for a multitude of viral diseases, another significant health-care crisis we are facing is treatment of infection by anti-microbial-resistant pathogens. As Dr. Keiji Fukudaof the World Health Organization has stated:  “We really hope to pull the world back from the brink where antibiotics don’t work anymore”.

When bacteria are stressed, for example by a killer antibiotic, their genetic material may change, mutate, so that they can tolerate and become resistant to such compounds.  The bacteria can then replicate easily and outgrow bacterial strains that were not resistant to the antibiotic.

Fifty percent of antibiotic prescriptions written by U.S. physicians are of no benefit to the patient, and when used to fatten livestock and poultry it gives bacteria even more opportunity to acquire antibiotic tolerance.

It is our immune systems that identify, destroy, and remove invading pathogens.   When our body recognizes that it has been invaded by foreign agents, a strong inflammatory responses is triggered to meet the onslaught of the pathogens.  White blood cells accumulate in the area to combat the invaders.  These immune cells release cytokines and other immune messages  recruiting more white blood cells in an attempt to “burn out” the infection. Without a powerful inflammatory response, we cannot limit or survive infections.

In the absence of drugs or treatments that prevent and control the growth of viruses and other microorganism the immune system must be optimized to protect the body against them.

 

www.cdc.gov/mmwr/index.html
www.scientificamerican.com/article/who-extremely-alarmed-by-zika-cases-could-reach-4-million/?WT.mc_id=SA_DD_20160128
www.wsj.com/articles/health-threats-spur-vaccine-hunt-1453337493
ecdc.europa.eu/en/healthtopics/zika_virus_infection/factsheet-health-professionals/Pages/factsheet_health_professionals.aspx
www.vox.com/2016/1/20/10795562/zika-virus-cdc-mosquitoes-birth-defects
www.wsj.com/articles/SB105768561135341800
www.cdc.gov/features/antibioticresistancethreats/
www.cdc.gov/media/dpk/2013/images/untreatable/img2_sm.jpg
www.bbc.com/news/health-35427493

One of the major complaints that people have is that “they are always tired”. “They just do not care anymore, they are just too tired.” [Kindly view a post that is relevant to this subject: Depression, Anhedonia and Run-Away Inflammation.]

In the past, scientists thought that there was a blood-brain barrier that “isolated” the brain from the actions of the immune system. They labeled the brain “immune privileged”; because studies suggested that a healthy brain had few, if any inflammatory cells in it. Only when there was a brain infection did scientists think that immune cells migrated into the brain.

Researchers failed to take into account that chronic inflammatory diseases are associated the brain. For example conditions such as inflammatory bowel disease, psoriasis, liver disease, and rheumatoid arthritis may result in a lack of social interest, feelings of being unwell and unremitting fatigue—all which are governed by brain function.

Inflammation is activated when the body encounters pathogens and cancerous cells. The inflammatory response is a primary means by which the body will destroy these threats. Inflammation is basically a controlled “burn”.  Firefighters will often have a “controlled burn” in a forest to get rid of dead trees and limbs.  They strive to keep the fire limited to a specific area.  Sometimes however firefighters are unable to control the fire and acres of forest are burned in error.

Similarly, once immune cells have taken care of a threat to the body, for example cancer cells, pathogens, etc., it is essential that the immune system “turn” down the inflammatory “flame”. Chronic, unnecessary inflammation leads to many autoimmune diseases that destroy their own organs, such as diabetes, Crohn’s bowel disease, multiple sclerosis, and lupus

Inflammation is all about location, location, location. If one has inflammation in the insulin-producing cells that control blood sugar, the person may get diabetes. If their intestines are inflamed they may suffer from Crohn’s.  If there is too much destruction and inflammation of nerve cells, they may suffer from multiple sclerosis.

Let us hypothesize that an individual has two trillion immune white blood cells and that half of these cells are out of control and producing too strong an inflammatory response. This inflammation is destroying previously healthy tissues and organs.  Since the body is always striving to balance inflammation, the other half a trillion of cells are working towards lowering the amount of inflammation and destruction that is going on in the body

Each of these cells is expending a trivial amount of energy trying to accomplish its task, but a tiny amount of energy multiplied by two trillion cells is a great deal of “wasted energy”. Is it any wonder why these people complain of being tired?

Individuals who have been diagnosed with autoimmune conditions have higher levels of inflammatory cytokines, immune messages, than people without disease. In heart failure patients, significant fatigue is associated with poor recovery and a higher risk of death. Patients with high levels of anti-inflammatory cytokines, molecules that decrease inflammation, recover more fully and rapidly than patients with high amounts of inflammatory cytokines. When patients are treated for their heart problems, their cytokine levels begin to resemble the cytokine ratios of healthy individuals, and their energy returns.

In mice with liver inflammation, immune cells from the liver travel to the brain and trigger other specialized immune cells called microglia releasing a biochemical that attracts more inflammatory cells into the brain, which in turn produces more inflammation.

In individuals with multiple sclerosis, a nervous system disease with a major inflammatory component, patients had less fatigue when they took anti-inflammatory medications.

The association of appropriate levels of inflammation with a healthy brain and high energy reserves is clear; the key is being in immunological balance. Once individuals balance inflammatory and anti-inflammatory cells they typically regain their energy and focus.

Aren’t you tired of being tired all the time? Don’t wait any longer. Contact Dr. Hellen to talk bout enhancing your quality of life.  There is no fee for consulting with her for the first 30 minutes.  She may be contacted by using this form or at: 302.265.3870 (ET, USA).

http://www.ncbi.nlm.nih.gov/pubmed/25905315
http://www.ncbi.nlm.nih.gov/pubmed/25905315
www.ncbi.nlm.nih.gov/pubmed/26589194
http://www.the-scientist.com/?articles.view/articleNo/43120/title/Brain-Drain/
http://www.ncbi.nlm.nih.gov/pubmed/26705751
http://www.ncbi.nlm.nih.gov/pubmed/25682012

 

Asthma is an inflammatory condition which affects the lungs in negative ways. It is not a single disease, but a group of symptoms that arise from the abnormal immune responses to environmental triggers.

Asthmatics suffer from limited air flow, difficulties in breathing, heightened sensitivity to particles or toxins in the air, wheezing, coughing, and tightness of the throat and chest.

Asthma can be triggered by allergens, air-borne pollutants, upper respiratory infections (like a cold or the flu), exercise, and nonsteroidal anti-inflammatory drugs, such as acetaminophen.

The cells that line the airways, the epithelium, are the first point of contact when particles are inhaled. Until recently, scientists were unaware that these cells contribute to inflammatory responses within the lungs.

Scientists are busily trying to clarify the role of over 50 different cytokines that are involved in regulating the amount of lung inflammation that asthmatics experience. When challenged with antigens, lung cells produce great numbers of inflammatory cytokines, immune messages. These immune factors regulate the activity of genes that result in inflammation and the body’s efforts to control inflammation.  Inflammatory cytokines increase the levels of inflammation to help the body remove the antigens, while other cytokines dampen excessive immune responses, trying to bring inflammatory responses back to balance.

Structural changes in the airways result from the actions of different classes of inflammatory cells and their immune proteins and biologically active molecules. Lung cells can also release molecules that cause the muscles and blood vessels in the airways to become stiff and narrow.

The lungs become overly sensitive to environmental stimuli triggering the production of excessive levels of mucus, perhaps to help dilute and wash antigens out. These fluids can clog the airways of the lungs making it even more difficult to breathe. The hypersensitivity of the lungs results in a vicious cycle of over-active immune reactions, inflammation, and more mucus production.

10.28.15 Ashma PNG grpahic

 

As always the key to healthy immune support is balance. The body needs to produce enough inflammation to help us heal and protect us from external and internal challenges, but the inflammatory response must be well balanced and controlled.

Dr. Hellen’s major passion in life is helping people get more energy, become more productive, and enjoy life at its fullest. She may be contacted by using this form, drhellen@drhellengreenblatt.info, or at: 302.265.3870 (ET, USA).

www.gluegrant.org/inflammation-asthma.htm
http://jaoa.org/article.aspx?articleid=2094079
http://www.worldallergy.org/professional/allergic_diseases_center/cytokines/
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http://www.jci.org/articles/view/36130
www.ncbi.nlm.nih.gov/pmc/articles/PMC1781697/
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For over two decades I have noticed that individuals in immune homeostasis, immune balance, are on fewer medications or no medications than their cohorts, and the majority of them look and feel 10 years younger than other people their age. Comparing photos of how these individuals look now with photos as how they looked 10-20 years ago, it is amazing how great they look! Their youthfulness is especially apparent when I compare these photos to those of individuals that have not made the effort to control inflammation.

Too many older individuals suffer from chronic inflammatory diseases such as arthritis, diabetes, cognition deficits, Parkinson’s disease, lung, kidney, and bladder problems. Over the years there have been numerous studies associating chronic (long-term) inflammation with the development of mutating cells and cancers. However because of the time it takes to do longevity studies it is difficult to prove that limiting inflammation makes a difference in how well people age.

Just this month, a team of scientists from Keio University School of Medicine, Tokyo, Japan and the Newcastle University’s Institute for Ageing in the UK published a study of the immune status of over 1500 individuals ranging in age from 100-115 years.

The study group was divided into two: centenarians, 100-104 years of age, and semi-supercentenarians aged 105 and above. The result was that these long-lived individuals had lower levels of inflammation as compared to the general public.  

Dr. von Zglinicki, one of the investigators, said, “Centenarians and supercentenarians are different – put simply, they age slower. They can ward off diseases for much longer than the general population… it’s only recently we could mechanistically prove that inflammation actually causes accelerated ageing in mice…This study, showing for the first time that inflammation levels predict successful ageing even in the extreme old….”

Dr. Yasumichi Arai, the first author on the study said, “Our results suggest that suppression of chronic inflammation might help people to age more slowly…However, presently available potent anti-inflammatories [medications] are not suited for long-term treatment of chronic inflammation because of their strong side-effects. Safer alternatives could make a large difference for the quality of life of older people.

As I have pointed out for decades, controlling the delicate balance of inflammatory responses, i.e., achieving immune homeostasis, makes all the difference in one’s youthfulness and quality of life.

P.S.  My post of May 20, 2013 also discusses the role of inflammation in longevity.

Please contact me directly if you would like to learn simple approaches to making a difference in your health.
http://www.ncl.ac.uk/press.office/press.release/item/scientists-crack-the-secret-of-the-centenarians
http://www.ebiomedicine.com/article/S2352-3964(15)30081-5/fulltext
www.ncbi.nlm.nih.gov/pubmed/26265203
www.ncbi.nlm.nih.gov/pubmed/26263854

 

Idiopathic pulmonary fibrosis (IPF) is a disease in which the tiny air sacs or “alveoli” that make up the lungs become inflamed and are gradually replaced by scar tissue (fibrosis).  As the amount of scar tissue increases, the lungs stiffen and are unable to transfer oxygen from the lungs to the blood stream. This results in the brain and other organs becoming oxygen deprived.

As  IPF progresses, day-to-day activities such as walking short distances, climbing stairs, dressing, or even talking on the phone become a problem because the person cannot catch their breath (dyspnea).  The person feels as if they are suffocating and may require supplemental oxygen.

Advanced idiopathic pulmonary fibrosis makes people more susceptible to getting and fighting infections.

The term “ idiopathic” suggests that clinicians do not know what causes the disease.  Lung inflammation may be triggered by infection with pathogens, airborne hazards, or certain types of medical treatments.  Exposed to these types of challenges, the immune system boosts its inflammatory response to attack the pathogens and remove hazards or damaged tissues.  In a vicious cycle, the uncontrolled inflammation results in greater lung damage.

Idiopathic pulmonary fibrosis may be considered an inflammatory autoimmune disease.  Autoimmune (meaning against oneself) conditions result from the body’s overactive, defensive, inflammatory reactions to an immune challenge.  The  body’s own immune cells mistakenly attack and destroy previously healthy by-stander tissues or organs, very much like a forest fire damages healthy trees.

The body responds to injury by forming scar tissue, made mainly of the key protein collagen. Pulmonary fibrosis results in inflammation and scarring that occurs again and again.  It is an imbalance between the build-up of scars, and the breakdown of collagen that is needed for tissue repair.  In IPF, lungs with old scar tissue is found layered over old damage, while fresh scarring is seen over more recent damage.

 Lung damage in IPF patients is due to imbalances between inflammatory and anti-inflammatory cytokines, immune messengers generated in response to substances or circumstances that initiated the lung damage in the first place.  Imbalances of cytokines results in more and more fibrosis.

Individuals with IPF may find that if they are able to control the amount of inflammation produced by their immune systems, if they can stay in homeostasis, balance,  their quality of life may change for the better.

Please contact Dr. Hellen if you wish her assistance in changing your quality of life. There is no fee for her services.  She may be contacted by using this form or at: 302.265.3870 (ET, USA).

 

www.coalitionforpf.org/cytokine-functions/
www.nhlbi.nih.gov/health/health-topics/topics/ipf
www.ncbi.nlm.nih.gov/pubmed/26132817
www.immuneworks.com/autoimmune-lung-diseases/idiopathic-pulmonary-fibrosis-ipf-treatments
www.ncbi.nlm.nih.gov/pubmed/26150910
faculty.ksu.edu.sa/hadilalotair/Chests%20Library/IPF.pdf

 

 

Middle East Respiratory Syndrome (MERS) is a viral disease of the lungs that was first reported in Saudi Arabia in 2012 and has now spread to several other countries, including South Korea and the United States. Genetic material isolated from an individual that died of MERS was identical to genetic material found in one of his own camels. The infected camel possibly infected the owner and is responsible for the death of the man.

 People infected with the virus initially report mild symptoms of a cold, chills, body aches, sore throat, fever, difficulty in breathing, and a cough.  Some individuals report gastrointestinal issues such as diarrhea, nausea, and vomiting.  When symptoms become severe, death may follow failure of the lungs and kidneys.

Most of individuals that have succumbed to infection with MERS suffered with other medical conditions, such as diabetes, cancer, chronic lung conditions, heart, or kidney disease.

MERS and SARS

There is limited scientific information on MERS.  However, the MERS virus is in the same family of viruses as SARS, the virus that causes severe acute respiratory syndrome. Infection with this virus results in severe breathing difficulties which too frequently results in death. (Both the traveling businessman and his World Health Organization physician, Dr. Carlo Urbani who identified the infection as a new disease in the business person, died of the virus.)

 Although there are similarities in symptoms, two major differences between MERS and SARS are: a) MERS progresses to lung failure more rapidly than SARS and b) MERS affects older individuals more than it does younger people. [The high numbers of fatalities from MERS may be related to the older age of infected persons and the fact that individuals with other conditions are more susceptible to respiratory failure].

 Since so little is understood about the disease, people with diabetes, lung, kidney, and immune disorders should take precautions if they are exposed to infected individuals.

The Immune System and Infections

The only part of the body that protects us from infection is our immune system. The role of the immune system is to recognize threats from pathogens, stop, and then up regulate inflammatory responses to destroy the pathogens before they can multiply.

 When the immune system is recognizes invasion by pathogens, immune cells are triggered to produce antibodies and other immune factors, such as cytokines. Cytokines are proteins that help recruit immune cells into an area to help fight the battle, and orchestrate the protective immune responses.In SARS, an over-response of the immune system,  a “cytokine storm” occurs that too often results in the deaths of infected persons.  It is likely that infection with MERS triggers the production of high levels of cytokines, resulting in excessive inflammation and death.

Summary:

People with unbalanced immune systems are at higher risk of having severe symptoms when infected with pathogens.  It is essential that the immune system always be in balance, in homeostasis for optimal protection from disease.

The inflammatory response to infection has to be a controlled, limited response. There must be enough of an immune response to defend the body against disease, but not so great an inflammatory response that the body is harmed.


www.cdc.gov/coronavirus/mers/
www.nejm.org/doi/full/10.1056/NEJMoa1401505
www.nlm.nih.gov/medlineplus/ency/article/007192
www.cdc.gov/coronavirus/mers/
www.nejm.org/doi/full/10.1056/NEJMoa1401505

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