maandag 11 oktober 2021

 

How Zinc Can Boost Your Immune Health

Analysis by Dr. Joseph MercolaFact Checked

LINK: https://youtu.be/yISH-sCvHXU


STORY AT-A-GLANCE

·         Zinc is essential for the normal development and function of your immune system as it protects against susceptibility to pathogens, mediates natural killer cells, activates T-lymphocytes, regulates macrophages and is central to DNA replication

·         Evidence shows zinc helps protect the body from COVID-19 by impairing viral replication in the cell, supporting ciliary growth and function in the respiratory system and improving the respiratory epithelial barrier

·         A zinc deficiency is associated with many of the comorbidities linked to COVID-19, including obesity, kidney disease, tobacco smoking, diabetes and autoimmune diseases

·         Using a zinc ionophore helps move zinc into the cells where it can impair viral replication. Zinc ionophores include hydroxychloroquine, quercetin and EGCG found in green tea.  Zinc supplementation may trigger a zinc/copper imbalance. It is best to consistently get your zinc from food and use supplementation during an acute illness

 

In this short video by Dr. John Campbell, he reviews some of the science behind the association between zinc and the immune system. He believes it is one biological basis for an “altered resistance to infection.”1 But, beyond the immune functions I discuss below, it’s important to know that zinc plays other important biological roles.

For example, you have at least 300 enzymes that require zinc to function normally.2 The Centers for Disease Control and Prevention3 has identified several common human coronaviruses that are responsible for upper respiratory tract illnesses, like the common cold. Although a cold is usually a minor condition, it is also responsible for most doctor's office visits every year.4

A cold can last as short as a week, but in children and the elderly it can last longer. Cold symptoms include stuffy head, runny nose, sore throat, headache and sometimes a fever.5 These are some of the same symptoms of influenza, but the symptoms are often worse and include fever and body chills.

It wasn't until the work of Dr. Ananda Prasad in the 1970s that zinc was acknowledged as an essential mineral.6 A decade earlier, Prasad was studying young men who had grown up in Egypt and never attained their normal height.

After supplementing with zinc, the men grew “significantly taller.” In the 1970s, zinc was acknowledged by the National Academy of Sciences as a mineral fundamental to many aspects of health. Prasad collaborated with a scientist from the University of Michigan to demonstrate that zinc influences immunity.7

Research in the last decade has identified the crucial role that zinc plays in curtailing the length and severity of upper respiratory infections. A meta-analysis8 published in 2017 found those who took a zinc supplement of 80 to 92 milligrams (mg) each day at the beginning of cold symptoms saw a reduction in the length of their cold by 33%.

Although research has demonstrated the significantly positive effect zinc has on the immune system and on shortening upper respiratory infections caused by common cold viruses, further research in 2020 has demonstrated that zinc is crucial to immune system function and deficiency may be linked to individuals who have severe COVID-19 illness.9

Zinc Is Crucial for Normal Immune System Development

Since the 1970s, scientists have discovered several facts about zinc and how it plays a central role in the immune system. Your immune system is your body's first line of defense. Whether this is against infectious disease, wound infections or chronic disease, your immune system plays a crucial role.

Researchers have spent decades studying the different ways that you can support your immune system to improve function. Nutrients play a vital role in supporting your immune system, and one of those nutrients is zinc. Swiss Policy Research (SPR), formerly known as Swiss Propaganda Research, describes itself as:10

“… an independent, nonpartisan and nonprofit research group investigating geopolitical propaganda. SPR is composed of independent academics and receives no external funding other than retrospective reader donations.”

The group has gathered evidence and information throughout the COVID-19 pandemic. The investigators believe that those who are either at high risk of getting COVID or at high risk for exposure to it should receive early or prophylactic treatment.11 They also propose that prophylaxis and treatment should contain zinc.12

Early and outpatient treatment from the Front Line COVID-19 Critical Care Alliance,13 contains zinc, as does the protocol recommended and prescribed by Dr. Vladimir Zelenko.14,15 Zelenko created a website to facilitate crowd-source medical data from frontline primary care doctors around the world.16

There are academics who also support Zelenko’s efforts, including some at the University of Texas, which hosts a download page describing the history and citations behind the Zelenko Protocol.17 Zelenko and the Front Line critical care doctors used their knowledge of the association between zinc and your immune system to develop their successful protocols. Data have shown:18

·         People who are deficient in zinc have an increased susceptibility to pathogens, including through the skin barrier.

·         Zinc mediates nonspecific immunity, including natural killer cells and neutrophils.

·         Zinc deficiency prevents the activation of T-lymphocytes, production of Th1 cytokine, and the ability of B lymphocytes to help. During deficiency, B lymphocyte development is also compromised.

·         Deficiency affects the function of macrophage cells, which can trigger cytokine production and dysregulated intracellular death.

·         Zinc is central to DNA replication, RNA transcription and cell activation and division.

Evidence Zinc Helps Protect Against COVID-19

Campbell describes several functions by which zinc helps protect the body from COVID-19, including helping to stop viruses from entering the cells.19 Another function that zinc performs is in supporting the growth and function of ciliary hairs in the respiratory system.

One study published in the American Journal of Rhinology and Allergy20 showed that zinc helps to stimulate the ciliary beat frequency and may help improve mucociliary clearance, which is essential for clearing the lungs of mucous. Another group of scientists found that supplementing animals deficient in zinc affected the length of the cilia and number of epithelial cells in the bronchus.21

Zinc also functions to improve the respiratory epithelial barrier,22 which past research also demonstrated.23 Evidence has shown that zinc influences interferon-gamma (IFN-γ), which plays a significant role in defending against intracellular pathogens.24 When there is a reduction in this cytokine it results in immunological impairment.

While the jury is still out on whether IFN-γ plays a role as an antitumor mechanism, some studies have shown that it does have a positive effect on patients’ survival of certain cancers.25

As you've likely heard throughout 2020, zinc also has a direct effect on viral replication inside the cells. Campbell describes some of the effects that zinc has inside the cells,26 including decreasing the effects of RNA-dependent RNA polymerase, often called replicase since it helps replicate the virus inside the cells.

Zinc Deficiency Linked to Multiple Health Conditions

As Campbell points out, a zinc deficiency can significantly impact your immune system, but it can also result in a hyper inflammatory response from proinflammatory cytokines.27 Thus, with a deficiency in zinc, you not only get more viral infections, but these trigger an increase in the hyper inflammatory response.

At approximately minute 14 in the video above, Campbell shows a Venn diagram of the overlapping health conditions in which a zinc deficiency is commonly associated, and which are known comorbidities for COVID-19. These conditions include:

Arteriosclerosis

Autoimmune diseases

Bronchial asthma

Cancer

Chronic obstructive pulmonary disease (COPD)

Diabetes

Diuretics

Elderly

Immunosuppression

Kidney disease and liver cirrhosis/damage

Tobacco smoking

Obesity

 

Interestingly, a study published in the journal Mayo Clinic Proceedings28 found that celiac disease, or a gluten sensitive enteropathy, is highly associated with a zinc deficiency. One in 141 people in the U.S. reportedly suffers from celiac disease29 and the prevalence has increased in the last 60 years.30

In the study, 59.4% of those diagnosed with celiac disease were zinc deficient.31 Dr. Adam Bledsoe, a gastroenterology fellow at Mayo Clinic's Rochester campus and lead author of the study, noted in a Mayo Clinic news release:32

"It was somewhat surprising to see the frequency of micronutrient deficiencies in this group of newly diagnosed patients, given that they were presenting fewer symptoms of malabsorption …

Our study suggests that the presentation of celiac disease has changed from the classic weight loss, anemia and diarrhea, with increasing numbers of patients diagnosed with nonclassical symptoms."

Zinc deficiency has also been associated with depression.33 Studies show that low serum levels of zinc in individuals who are depressed could trigger a chronically poor mood. Researchers have also found that zinc plays a role in maintaining normal levels of thyroid stimulating hormone and T3.34

Zinc Ionophores Improve Effectiveness

LINK: https://youtu.be/U7F1cnWup9M


In this short MedCram video, Dr. Roger Seheult reviews the compelling evidence that suggests how zinc ionophores improve zinc uptake into the cell. This is a crucial component of stopping viral replication. As Seheult explains, the zinc cannot easily penetrate the fatty walls of the cell but needs to be inside the cell to stop viral replication.

There are several zinc ionophores that can do the job. In this video, Seheult describes the role that hydroxychloroquine and chloroquine play. Hydroxychloroquine is the ionophore that Zelenko uses in his protocol to move zinc into the cells. In his peer-reviewed study the researchers compared 141 treated patients against 377 untreated patients from the same community.35

The data collection showed only four of the 141 treated patients were hospitalized and 58 of the untreated patients were hospitalized. One patient in the treatment group died and 13 patients in the untreated group died. However, there are also other natural compounds that may work, except for perhaps in the most serious cases. Two that have been studied include quercetin and epigallocatechin gallate (EGCG), which is found in green tea.36

In a comparative study, researchers evaluated quercetin and EGCG as zinc ionophores. They demonstrated ionophore action on a lipid membrane system and concluded that these polyphenols may raise zinc levels in the cells and have a significant impact on the biological action of zinc.

Interestingly, quercetin is also a potent antiviral and quercetin and EGCG have the added advantage of inhibiting the 3CL protease.37 According to a 2020 study in the Journal of Enzyme Inhibition and Medicinal Chemistry,38 the ability to inhibit SARS coronaviruses “is presumed to be directly linked to suppress the activity of SARS-CoV 3CLpro in some cases.”

Zinc Supplementation May Trigger a Copper Imbalance

Zinc deficiency is not uncommon. Experts believe that about 17.3% of the global population are deficient39 and it is estimated most people over 65 consume just 50% of the recommended amount zinc.40

The deficit may in part be the result of soil depletion of zinc due to conventional farming methods and may also simply be that not enough zinc-rich foods are included in the diet. There are four common signs that your body may need more zinc:41

·         Lack of appetite

·         Mental lethargy

·         Impaired sense of taste or smell

·         Frequent colds, flu or infections

·         Hair loss42

Although more attention is being paid to zinc recently, Emily Ho, Ph.D., principal investigator with the Linus Pauling Institute at Oregon State University, has said,43 "Zinc deficiencies have been somewhat under the radar because we just don't know that much about mechanisms that control its absorption, role or even how to test for it in people with any accuracy.”

While some tests used to identify deficiency include hair analysis,44 urine samples45 or an oral taste test,46 blood plasma tests are the most common.47 The oral taste test can be done at home through mail-order labs. It involves holding 10 milliliters of liquid zinc in your mouth for 10 seconds. Because the liquid zinc has an intense taste, if your zinc levels are normal, you likely will not be able to tolerate the strong taste for long.

In fact, you may want to immediately spit it out. If you're deficient, you'll likely be able to hold it in your mouth without any difficulty because it will taste like water. The absence of sufficient zinc in your body will somewhat disable your sense of taste and smell, which means you're not affected by the intense taste.

However, the test is not specific to zinc.48 In other words, impaired taste for another reason will net the same result — you will not taste the zinc. Campbell list several groups of individuals who are at risk for zinc deficiency, including:49

·         Those with malnutrition

·         The elderly

·         People with inflammatory or autoimmune diseases

·         Vegetarians and vegans

Early zinc deficiency is largely subclinical — meaning you do not have clinical symptoms — yet it does impact the immune system. Zinc levels are impacted by copper. An imbalance in your zinc and copper levels can lead to other health conditions. For example, researchers postulate that the zinc deficiency associated with anxiety and depression may be the result of a zinc copper imbalance.50

Although you may be tempted to begin supplementing with zinc, it's important to realize that your body has an intricate method of maintaining balance of trace minerals such as copper, iron, chromium and zinc. The best way to readily achieve proper balance is to get your minerals from real food.

Although it may be necessary to supplement during illness when your body needs more zinc, I recommend trying to meet your daily requirement from foods. These are some of the best food sources of zinc:51,52,53

Alaskan King crab

Oysters

Almonds

Cashews

Kidney beans

Pastured chicken

Lamb

Chickpeas

Oatmeal

Grass fed beef

Cheddar or Swiss cheese

Yogurt

Mushrooms

Spinach

Pork chops

Pumpkin seeds



 

- Sources and References

·         1 Youtube, September 11, 2021, Description

·         2 The Journal of Nutrition, 2000;130(5) Abstract first line

·         3, 5 Centers for Disease Control and Prevention, February 13, 2020

·         4 American Lung Association, Facts About the Common Cold, Bullets 2,3

·         6 NPR, February 10, 2020

·         7 NPR, February 10, 2020, para 12

·         8 JRSM Open, 2017;8(5)

·         9 Journal of Infectious Disease, 2020:100

·         10 Swiss Policy Research, About

·         11 Swiss Policy Research, Facts About COVID-19, #2

·         12 Swiss Policy Research, On the Treatment of COVID-19

·         13 Front Line COVID-19 Critical Care Alliance, iMASK

·         14 Vladimir Zelenko MD

·         15, 35 International Journal of Antimicrobial Agents, 2020;56(6):106214

·         16 Crowd Protocol

·         17 University of Texas, The Zelenko Protocol

·         18 The American Journal of Clinical Nutrition, 1998;68(2)

·         19 Youtube, September 11, 2021

·         20 American Journal of Rhinology and Allergy, 2010;24(1)

·         21 The Indonesian Biomedical Journal, 2020;12(1)

·         22 International Journal of Molecular Medicine, 2020;46(1) Abstract

·         23 International Journal of Chronic Obstructive Pulmonary Disease, 2017;12

·         24 Journal of Trace Elements in Medicine and Biology, 2020;62(126598)

·         25 Frontiers in Immunology, 2018; doi.org/10.3389/fimmu.2018.00847

·         26 Youtube, September 11, 2021, Minute 9:00

·         27 Nutrients, 2017;9(12)

·         28 Mayo Clinic Proceedings, 2019;94(7)

·         29, 31, 32 Science Daily June 24, 2019

·         30 Gastroenterology July 1, 2009; 137(1) 88-93

·         33 Iranian Journal of Psychiatry, 2013;8(2)

·         34 Journal of Diabetes, Metabolic Disorders & Control, 2017;5(1)

·         36 Journal of Agricultural Food Chemistry 2014; 62(32):8085

·         37, 38 Journal of Enzyme Inhibition and Medicinal Chemistry 2020; 35(1): 145–151

·         39 PLOS|One, 2012;7(11) Methodology and Principal Findings

·         40 Pathobiology of Aging & Age-Related Diseases, 2015;5

·         41 National Institutes of Health, Zinc, zinc deficiency

·         42 Merck Manuals Zinc Deficiency June 2020

·         43 PreventDisease.com January 5, 2017, Zinc Deficiency Common

·         44 Pediatric Gastroenterology, Hepatology and Nutrition, 2016;19(4)

·         45 Nutrients 2015 May; 7(5): 3252–3263

·         46 Clin Nutr ESPEN 2016 Feb;11:e21-e25

·         47 Food and Nutrition Bulletin Vol 22 2001

·         48 Journal of Alternative and Complementary Medicine, 2012;18(6)

·         49 YouTube, September 11, 2021, Minute 4:30

·         50 Nutrition and Metabolic Insights, 2011; 4

·         51 National Institutes of Health, Zinc, Table 2

·         52 HealthDirect, Foods High in Zinc

·         53 My Food Data, July 28, 2021

 

 

(Some) Comments:

Guillermou

Joined On 4/7/2015 8:47:48 AM

 

Once again the science of Dr. Mercola masterfully expounded to promote health. The minimum daily dose of Zinc is about 10mg, which can be increased depending on the zinc content of the diet and personal characteristics. In obesity and chronic diseases, more zinc is needed. In the early treatment of first bond COVID-19, 50 to 100 mg of zinc and 500 to 1000 mg of quercetin are used. Vitamin C regenerates quercetin. Quercetin + Zinc + Niacin + Selenium May Be a Winning Combo.

The minimum daily dose of Zinc is about 10-15mg, which can be increased depending on the zinc content of the diet and personal characteristics. In obesity and chronic diseases, more zinc is needed. In the early treatment of first bond COVID-19, 50 to 100 mg of zinc and 500 to 1000 mg of quercetin are used. articles.mercola.com/sites/articles/archive/2020/08/20/swiss-protocol-..  ---- How to improve zinc uptake with quercetin. quercetin + zinc + niacin + selenium may be a winning combo. articles.mercola.com/sites/articles/archive/2020/04/20/zinc-dosage-for..  ~ lpi.oregonstate.edu/.../zinc  ---

Quercetin and vitamin C: synergistic therapy for covid-19. articles.mercola.com/sites/articles/archive/2020/08/24/quercetin-and-v..  --- The effectiveness of the Zn supplement can also be improved with N. sativa, since its main bioactive component could function as an ionophore to allow Zn 2+ to enter pneumocytes and inhibit the replication of SARS-CoV-2 by stopping its system. replicase enzyme. www.sciencedirect.com/.../S2210803320300531  (2020) --- Hinokitiol reduced the bacterial load and suppressed the excessive immune response in pneumonia. journals.plos.org/plosone/article?id=10.1371/journal.pone.0240329  (2020)

Guillermou

Joined On 4/7/2015 8:47:48 AM

 

Polyphenols could reduce SARS-CoV-2 viral infection by binding to the ACE2 receptor, preventing viral entry, and (2) modulating the severity of COVID-19-associated lung injury by regulating ACE2 expression. Resveratrol, a polyphenol, could modulate the severity of SARS-CoV-2 disease by regulating the expression and function of ACE2. Eriodictyol, a flavanone found in yerba santa, had one of the highest binding affinities for the part of the human ACE2 receptor. Another computational study showed that the flavonoids curcumin and catechin establish hydrogen bonds, carbon-hydrogen bonds, and interactions with ACE2. A short list of polyphenols that reduced pro-inflammatory cytokines in vitro and in vivo includes curcumin, resveratrol, epigallocatechin gallate, emodin, naringenin, apigenin, and kaempferol. In the link there is also a chapter on Polyphenols that inhibit SARS-CoV-2 viral proteases and inhibiting SARS-CoV-2 RdRp.

Immunomodulatory effects can be achieved with melatonin, nitric oxide (preventive exercise, nitrates from vegetables, arginine), aloe vera, turmeric, curcumin, propolis, echinacea, astaxanthin, quercetin, resveratrol, epigallocatechin-3-gallate (green tea), ginseng and flavonoids, inhibit the activation of NFΚB and the subsequent expression of various inflammatory molecules such as IL-6 and TNFα and reduce the NLRP3 inflammasome, which causes the cytokine storm that can lead to the death of the patient. www.ncbi.nlm.nih.gov/.../PMC7480644  (2020) ~ www.researchgate.net/profile/Brenda_Silva4/publication/310824770_Natur..  (2017) ~ europepmc.org/.../6333939  (2018)

Guillermou

Joined On 4/7/2015 8:47:48 AM

 

Adequate zinc intake is essential to maintain the integrity of the immune system, specifically for the normal development and function of cells that promote innate and adaptive immune responses. Another opposite mechanism is to intoxicate intracellular microbes within macrophages with excess zinc. Zinc deficiency has been associated with decreased vitamin A release, which is essential for the immune system. The bioavailability of dietary folate is increased by the action of a zinc-dependent enzyme.

Diabetes and older people are more at risk of death from covid-19 infection. Zinc is involved in insulin synthesis and storage in secretory vesicles. Higher serum copper concentrations and lower serum zinc concentrations in people with Alzheimer's disease. Zinc supplementation fights neonatal sepsis leading to decreased inflammation and better neurological development. 1. Factors that affect or inhibit zinc absorption:

1.1. Iron: High-dose iron supplements (greater than 25 mg) can decrease zinc absorption. This does not happen with iron from the diet. Taking supplements between meals is not recommended.  1.2. Calcium: Calcium in combination with phytic acid inhibits zinc as it forms insoluble complexes for the intestine.  1.3. Phytates: present in whole grains, corn and rice. Phytates bind to the mineral, blocking its absorption. The mechanism by which phytate inhibits zinc absorption is because it is a powerful mineral chelator. Diets with a phytate / zinc molar ratio> 15-20 have been suggested to be associated with poor zinc absorption  1.4. Fiber: present in foods that also contain phytates.  1.5. Cadmium: Toxic levels of cadmium can inhibit zinc absorption.  1.6. Casein: Protein present in milk shows to have a negative effect on zinc absorption.  1.7. Medications: antibiotics (tetracyclines and quinolones), anticonvulsants (sodium valproate), diuretics, contraceptives, and corticosteroids. -cont-

 

 

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