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INGREDIENTS

4 large eggs separated
350 g yogurt (full fat or low fat is good) 12.5 oz
40 g cornstarch 1.4 oz
70 g sugar 2.5 oz
½ tsp baking powder
1 tsp vanilla extract

RECIPE…

representation only

 

The recipe at right is about 17.5 grams of sugar per serving which is under the healthy limit for adults.

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Topics of interest:

There is now direct evidence that the ‘v’ word is fundamentally seen as merely ‘material’ that requires an autophagic response. This type of response always requires an intelligent interaction stemming from the living organism and does not arise from the material object itself; therefore the concept of ‘virology’ is in itself flawed at the most fundamental level possible and it is ignorant to imbue an object/material with faculties it does not possess. 

Autophagy and phagocytosis are evolutionarily ancient processes functioning in capture and digestion of material found in the cellular interior and exterior, respectively. In their most primordial form, both processes are involved in cellular metabolism and feeding, supplying cells with externally obtained particulate nutrients or using portions of cell’s own cytoplasm to generate essential nutrients and energy at times of starvation. Although autophagy and phagocytosis are treated as completely separate biological phenomena, they are similar and can viewed as different manifestations of a spectrum of related processes. Autophagy is the process of sequestering portions of cellular interior (cytosol and intracellular organelles) into a membranous organelle (autophagosome), whereas phagocystosis is its topological equivalent engaged in sequestering cellular exterior.

These are nutrition based responses emanating from the life form itself not the material object.

Did you know?

When it comes to a substance the source of that substance (plant or animal) can produce different outcomes in human patients even though the substance appears to be identical. This is a type of scientific conundrum that doesn’t have an adequate explanation to date.

About Sugar

Sucrose, glucose and fructose are important carbohydrates, commonly referred to as simple sugars. Sugar is found naturally in whole foods and is often added to processed foods. Your tongue can’t distinguish between them but your body can tell the difference.

Simple carbohydrates are classified as either monosaccharides or disaccharides. Monosaccharides are the most basic units of carbohydrates and are made up of only one sugar unit. Glucose and fructose are monosaccharides and are the building blocks of sucrose, a disaccharide.  Disaccharides are a pair of linked sugar molecules. 

Glucose
The most important monosaccharide is glucose, the body’s preferred energy source. Glucose is also called blood sugar, as it circulates in the blood, and relies on the enzymes glucokinase or hexokinase to initiate metabolism. Your body processes most carbohydrates you eat into glucose, either to be used immediately for energy or to be stored in muscle cells or the liver as glycogen for later use. Unlike fructose, insulin is secreted primarily in response to elevated blood concentrations of glucose, and insulin facilitates the entry of glucose into cells.

Fructose
Fructose is a sugar found naturally in many fruits and vegetables and added to various beverages. It is  different from other sugars because it has a different metabolic pathway and is not the preferred energy source for muscles or the brain. Fructose is only metabolized in the liver and relies on fructokinase to initiate metabolism. It is more fat-producing, than glucose. Unlike glucose it does not cause insulin to be released or stimulate production of leptin, a key hormone for regulating energy intake and expenditure. These factors raise concerns about chronically high intakes of dietary fructose, because it appears to behave more like fat in the body rather than like other carbohydrates.

Sucrose
Sucrose, commonly known as table sugar is obtained from sugar cane or sugar beets. Fruits and vegetables also naturally contain sucrose. When sucrose is consumed, the enzyme beta-fructosidase separates sucrose into its individual sugar units of glucose and fructose. Both sugars are then taken up by their specific transport mechanisms. The body responds to the glucose content of the food in its usual manner; however, fructose uptake occurs at the same time. The body will use glucose as its main energy source and the excess energy from fructose will be poured into fat synthesis, which is stimulated by the insulin released in response to glucose.

How much is okay?

Expert panels worldwide have made consistent recommendations on daily sugar intake. The American Heart Association (AHA) recommends:

no more than 6 teaspoons (25 grams) of added sugar per day for women and 9 teaspoons (38 grams) for men. The AHA limits for children vary depending on their age and caloric needs, but range between 3-6 teaspoons (12 – 25 grams) per day.

Alternavita: All you need to know (critical info in a nutshell)..... by focusing exclusively on these foundational health and immune development issues up to 90% of chronic conditions can be eliminated.

WHO STATEMENTS: 2017 Millennium Goal

  1. Breastfeeding,
  2. food (security)
  3. and water security (sanitation)

are major protective factors against malnutrition and critical factors in the maturation of healthy gut microbiota, characterized by a transient bifidobacterial bloom before a global rise in anaerobes. Early depletion in gut Bifidobacterium longum, a typical maternal probiotic, known to inhibit pathogens, represents the first step in gut microbiota alteration associated with severe acute malnutrition (SAM). Later, the absence of the Healthy Mature Anaerobic Gut Microbiota (HMAGM) leads to deficient energy harvest, vitamin biosynthesis and immune protection, and is associated with diarrhea, malabsorption and systemic invasion by microbial pathogens. A therapeutic diet and infection treatment may be unable to restore bifidobacteria and HMAGM.

 

Researchers found that malnourished children’s microbiota failed to follow the healthy pattern they identified in healthy children. The microbiota of malnourished children is immature, lagging in development behind that of their healthy peers. Supplementing these children’s meals with widely used therapeutic foods that increase calories and nutrient density reduces deaths from malnutrition, but it does not fix their persistent microbiota immaturity.

“Perhaps more insidious than slowing growth is malnutrition’s effect on less visible aspects of health, including impaired brain development and dysfunctional immunity, which follow these children throughout their lives”.

The Father of The Microbiome

Dr. Jeffrey Gordon

SIBO

SIBO can cause severe malabsorption, serious malnutrition and immune deficiency syndromes in children (non breastfed) and adults. 

Prognosis is usually serious, determined mostly by the underlying disease that led to SIBO.

 

Immunizations

The WHO recommends that immunization or treatment be orally administered due to economic, logistical and security reasons. Furthermore, this route offers important advantages over systemic administration, such as reducing side effects, as the molecules are administered locally and have the ability to stimulate the GALT immune responses  (Levine and Dougan, 1998Neutra and Kozlowski, 2006Bermúdez-Humarán et al., 2011).

 

Infections

For ANY infectious or parasitic disease to start, it is ALWAYS a requisite that the host suffer IMMUNODEFICIENCY. At the same time, infectious and parasitic diseases themselves cause additional IMMUNE SUPPRESSION and more MALNUTRITION. This immune suppression is SECONDARY to the accumulation of free radicals, especially oxidizing species, that occurs during and after infectious and parasitic diseases.

Clinical Aspects of Immunology and Biochem J.

 

Current IBD Research 2016

Currently available treatments for IBD, which target the systemic immune system, induce immunosuppression, thereby exposing the patient to the risk of infections and malignancy. The interplay between the gut and the systemic immune system determines the final effect on target organs, including the bowel mucosa. Inflammatory bowel diseases (IBD) are associated with an altered systemic immune response leading to inflammation-mediated damage to the gut and other organs.

Clinical & Translational Immunology (2016)
Gastroenterology and Liver Units, Department of Medicine, Hebrew University-Hadassah Medical Center, Jerusalem, Israel

Most importantly, the immune modulatory agents used today for IBD do not achieve remission in many patients.

Not all IBD patients benefit from currently available drugs. Young people with IBD do not want to be on long-term drug therapy. Oral immune therapy, while not yet studied in large cohorts of patients, may provide an answer to this unmet need.

Clinical & Translational Immunology (2016)
Gastroenterology and Liver Units, Department of Medicine, Hebrew University-Hadassah Medical Center, Jerusalem, Israel

Tolerance

Tolerance is the ability of the immune system to ‘see’ and respond appropriately. Without galactose (a necessary sugar) the immune system can not 'see'. Your immune system would not be able to function without galactose Your body wouldn’t know which cells are “good” and what cells are “bad.” Your body wouldn’t know who the invaders were and which ones should be attacked by antibodies. As you will learn the importance of these ‘sugars’ in gut microbiota health is a rapidly expanding field of research, only recently discovered, including HMO's (human milk oligosaccharides).

Why galactose? Milk sugar aka lactose has been shown to be very beneficial for the human body though unlike sucrose, lactose is made up of glucose and galactose. There is no fructose in lactose. It is a healthy disaccharide sugar. Galactose is known as the “brain sugar” and supports brain development of babies and children. Galactose helps triggers long-term memory formation. Galactose has been shown to inhibit tumor growth and stop its spread, particularly to the liver. This beneficial sugar can also enhance wound healing, decrease inflammation, enhances cellular communication, and increases calcium absorption.
What does immune ‘tolerance’ mean in simple language?
Immune tolerance, or immunological tolerance, or immunotolerance, is a state of unresponsiveness of the immune system to substances or tissue that have the capacity to elicit an immune response in a given organism. The Th1 cytokine profile is vital for clearance of certain organisms and ancillary immune activity, and a limiting effect on this cytokine profile may result in reduced chances for overcoming infections especially intra-cellular organisms residing within macrophages. Effective clearance will depend on appropriate macrophage activation (which occurs through IFN≥ release by Th1 and NK cells) and production of nitric oxide. If this pathway is disrupted IFN≥ secretion is blocked, impairing macrophage activation. Persistent blockade of these inhibitory receptors has lead to the breakdown in immune self tolerance, thereby increasing susceptibility to autoimmune or auto-inflammatory side effects, including rash, colitis, hepatitis and endocrinopathies. Many drugs may cause checkpoint blockade toxicity including pharmaceutical drugs termed ‘immuno therapy’ by pharmaceutical companies, these include Mab drugs and cancer treatments. Checkpoint Inhibitor–Induced Colitis: A New Type of Inflammatory Bowel Disease? Madeline Bertha, MD MS, corresponding author1 Emanuelle Bellaguara, MD, Timothy Kuzel, MD, and Stephen Hanauer, MD ACG Case Rep J. 2017; 4: e112. Published online 2017 Oct 11. doi: 10.14309/crj.2017.112 PMCID: PMC5636906 PMID: 29043290

The Elderly

Mammal milk is required for enhanced phagocytosis as shown by research, especially in the elderly. Whole fat mammal milk can actually restore phagocytosis in senescent cells in the elderly. Phagocytosis, by which immune cells ‘eat’ bacteria or infected cells, is one of the mechanisms that help to resist infections. Lactic acid bacteria strains like acidophilus also increases phagocytosis.