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“WHERE THINGS SO SMALL CAN HAVE A MASSIVE IMPACT ON YOUR HEALTH.”
Herbsprout is a webblog and podcast dedicated to sharing the health benefits of herbs, food, innovations related to our gut microbiome. Herbsprout seeks to bridge the vast chasm dividing the mainstream medical community and alternative medicine.

Honeysuckle - Chinese remedy for common cold and more

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Honeysuckle - Chinese remedy...
The leaves and flower of honeysuckle have been used for several thousand years as a traditional Chinese medicine. It has been a challenge to discriminate between the variations of honeysuckle herbs, such as Lonicerae japonicae flos and Lonicera japonica thunb, according to a report published September 23, 2019 (see reference below). The leaves and dried flower buds of Lonicera japonica Thunb, also called Japanese honeysuckle or jīn yín huā has been widely used in traditional Chinese medicine to treat flu- like symptoms such as cough, fever, sore throat, and influenza infection. Tests have shown that Lonicerae japonicae flos exhibits a broader antimicrobial spectrum, more powerful antibacterial activity, and inhibition of drug-resistant bacteria. Pharmacologic studies have confirmed the bacteria and antibacterial effects of Lonicerae japonicae flos, says the study.

The following can be extracted from Lonicerae japonicae flos - water extract, alcohol extract, polysaccharide, and volatile oil. These ingredients can "extensively inhibit Gram-negative bacteria and Gram-positive bacteria including Streptococcus haemolyticus, Staphylococcus aureus, Salmonella Typhi, Klebsiella pneumoniae, Salmonella paratyphi, Vibrio cholerae, oral pathogens, Diplococcus intracellularis, Streptococcus pneumoniae, and Mycobacterium tuberculosis," according to a study by the Institute of Chinese Materia Medica, China Academy of Chinese Medical Sciences (see article "Lonicerae Japonicae Flos and Lonicerae Flos: A Systematic Pharmacology Review", by Institute of Chinese Materia Medica, China Academy of Chinese Medical Sciences, No.16, Dongzhimen Nei Nanxiao Road, Dongcheng District, Beijing 100700, China; Department of Drug and Cosmetics Registration, China Food and Drug Administration, Xuanwumen Xidajie, Beijing 100053, China; https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4519546/).

The testing method used for determining the content of a key active ingredient, secologanic acid, was established using Ultra Performance Liquid Chromatography (HPLC) (see article, "A Simple, Rapid, and Practical Method for Distinguishing Lonicerae Japonicae Flos from Lonicerae Flos"; by Fang Zhang, Pengliang Shi, Hongyan Liu, Yongqing Zhang 1,Xiao Yu, Jing Li and Gaobin Pu; College of Pharmacy, Shandong University of Traditional Chinese medicine, Jinan 250355, China). Using HPLC makes it simple, fast, accurate, and cost effective to identify the different variations of Lonicerae Flos.

#ai #artificialintelligence #bacteria #chinesemedicine #datascience #diet #easternmedicine #gutmicrobiome #health #healthinnovation #healthtech #herbalmedicine #herbs #machinelearning #mindbody #naturopathichealth #plantnutrition #spices

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A little history on the origins of Ayurveda

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Dr. Vivek Shanbhag of Bastyr University explains that between 1,000 to 700 B.C. Ashrams gathered people together in India to discuss topics of the day such as health issues. Attendees of these open forums facilitated exchange of acquired knowledge; for example, about herbs and foods that help with certain health conditions. Out of these Ashrams evolved two main schools relating to health care, Atreya and Dhanvantari. Atreya became the school of physicians and Dhanvantari, the school of surgeons. Traditions such as chanting of mantras were gradually replaced by scientific thinking and solutions.

Veda means acquired knowledge and data research, which accumulated over thousands of years in India from the general Ashram meetings, according to Bastyr University's Professor of Ayurvedic Health Dr. Vivek Shanbhag.

The original text of Ayurveda are the trio - Charak Sambita, Sushrat Sambita, and Ashtang Hridaya Sambita.

Ayurveda achieved by pursuing these Four Goals of Life:

1. DHARMA - vocation, your calling, reaching your inner object of life
2. ARTHA - creating your resources, prosperity, attainment of outer objects, right possessionsof life
3. KAMA - enjoyment, achieving, fulfilling basic desires, emotional mind
4. MOKSHA - total freedom, not attached to anything, liberation from the limits of the other goals; infinite possibilities

Source: Dr. Vivek Shanbhag, Bastyr University, Ayurvedic Health Advisor Program, Kenmore, WA.
#India #ai #artificialintelligence #ayurveda #bacteria #datascience #diet #gutmicrobiome #health #healthinnovation #healthtech #herbalmedicine #herbs #machinelearning #mindbody #plantnutrition #spices

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Indian Ayurvedic Health defined

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Indian Ayurvedic Health defined
Ayurveda is an over 3,000 year old health program originating in India. Ayurveda begins with fundamental principles centered around maintaining good health. These are described in the three doshas - Vata, Pitta, Kapha and the 4 goals of Ayurveda. I will explain the 4 goals in the next blog entry to be published in a few days.

Veda means acquired knowledge and data research, which accumulated over thousands of years in India from general meetings called Ashrams, according to Bastyr University's Professor of Ayurvedic Health Dr. Vivek Shanbhag.

Possibly the most effective way to accurately and clearly explain the three doshas of Ayurveda are Dr. Shanbhag's association of Ayurveda to computing. Ayurveda is your tools and means to achieve your four goals of life. He describes the three doshas as follows:

VATA is like data entry.
PITTA is the processing of that data.
KAPHA is the storing and recall of the data.

VATA is the sensory intake, communications and transport of data and the elements, air and ether.
PITTA is the transformation, digesting, processing and metabolizing of the data and the elements, fire and water.
KAPHA is the storing, growth, and memorizing of the data and the elements; water and earth.

Everyone wants to increase happiness and comfort.
Everyone wants to decrease their pain and suffering. The status of our health is a key contributor to these basic life goals.
#India #ai #artificialintelligence #ayurveda #bacteria #datascience #diet #gutmicrobiome #health #healthinnovation #healthtech #herbalmedicine #herbs #machinelearning #mindbody #neurotransmitters #plantnutrition #sertonin #spices #thehappychemical

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Black mondo grass, monkey grass support microbiome gut health and antiobesity

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Black mondo grass, monkey g...
Ophiopogon is an ornamental grass native to China, India, Japan, and Vietnam.
Ophiopogon japonicus is better known as dwarf lilyturf, mondograss, fountainplant, and monkeygrass; or in Japanese: リュウノヒゲ ryu-no-hige ("dragon's beard") or ジャノヒゲ ja-no-hige ("snake's beard") (source: see Wikipedia).

In traditional Chinese medicine Ophiopogon japonicus' tuber root, is the key herb for yin deficiency. According to the "Chinese Herbal Medicine Materia Medica," the tuber part of the root of Ophiopogon japonicus enters the heart, lung, and stomach channels and nourishes the yin of the stomach, spleen, heart, and lungs and eases irritability. The herb is sweet, slightly bitter and slightly cold. The herb in Chinese medicine is known as mai men dong (Chinese: 麥門冬).

Now there is science to back up these claims, according to a February 2019 Chinese Pharmaceuticals University report. MDG-1, a water-soluble polysaccharide extracted from the root of Ophiopogon japonicus Ker Gawl has been reported to regulate body metabolism, including weight loss, antiobesity, and antidiabetes. Professor L. Shi demonstrated that, in HFD-induced obese mice that were treated with "MDG-1 at a high dose of 300 mg/kg for 12 weeks, the ratio of Firmicutes/Bacteroidetes (F/B) decreased to normal levels." In addition, it was found that in HFD-induced diabetic mice, MDG-1 decreased the number of pathogenic bacteria (Escherichia coli and Streptococcus) (Source: State Key Laboratory of Natural Medicines, Jiangsu Key Laboratory of Carcinogenesis and Intervention, Department of Basic Medicine, School of Basic Medicine and Clinical Pharmacy, China Pharmaceutical University, 24 Tongjiaxiang, Nanjing 210009, China).

See full report, https://www.hindawi.com/journals/ecam/2019/2682748/
Contact Qinglong Guo; qinglongguo@hotmail.com and Na Lu; nalu@cpu.edu.cn
#ai #bacteria #datascience #diet #gutmicrobiome #health #healthinnovation #healthtech #herbalmedicine #herbs #plantnutrition #spices

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Institutional Innovations - DNA sequencing issues

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Institutional Innovations - DNA ...
A November 15, 2019 report published by Nature.com calls for a multiplatform approach for researching structural variation (SV) in genome interpretation. "Identifying structural variation (SV) is essential for genome interpretation but has been historically difficult due to limitations inherent to available genome technologies," says the report. Detection methods have helped scientists discover thousands of SVs, showing their relationship to disease and possible effects on our biology. (see https://www.nature.com/articles/s41576-019-0180-9 ). By multiplatform, the article recommends testing on a variety of platforms and approaches, not relying on a single one, comparing results from different research labs and institutions around the world.

So much focus particularly in tech media has been about disruptive innovators and startups in the healthcare field. What about innovations by these more traditional institutions such as research institutions and hospitals?

Highly customizable and personalized healthcare solutions are at the cutting edge of disruptive innovation. You do not need to be an established entity to drive these disruptions, but you can be. The innovative applications of a person’s DNA sequence such as the tool for synthesizing DNA invented by biologist Leroy Hood’s Institute for Systems Biology, offer customizable health care at a genetic level, called genotyping. Seattle area’s Swedish Health Services has been recognized nationally for providing personalized health care using Dr. Hood’s DNA sequencing.

Another example, the creator of the CRISPR Cas9 technology, CRISPR Caribou Biosciences CEO, Dr. Jennifer Doudna invented the ability to edit our genetic code. Doudna showed how CRISPR, or "clustered regularly-interspaced short palindromic repeats", "bacteria’s natural defense system could be turned into a 'gene editing' tool to cut DNA strands", according to the Genetic Literacy Project. In addition to founding CRISPR, she teaches chemistry and molecular biology at University of California Berkeley. Both Hood and Doudna are said by peers to be viable candidates for the Nobel Prize.

Dr. Hood helped his associates at Swedish Health Services (Swedish Hospital and Providence Health Systems) play a leadership role in innovation, according to former Swedish CEO Anthony Armada in my interview with him for the Northwest Asian Weekly. “On the clinical side, for example, Swedish is the first to apply truly ‘personalized medicine’ using genotyping. Genotyping is a fingerprint of who you are genetically,” he adds. “For example, there can be five potential cures for a particular cancer. Genotyping can test and determine which of the five offers the best results, the least risk, and the best course of action for that particular patient” (source: NW Asian Weekly, Chris Beer). Thanks to help from Dr. Hood, the founding father of genomics, the hospital is lead the country in the medical and scientific applications of genomics.
#DNAsequencing #ai #artificialintelligence #bacteria #datascience #genomics #gutmicrobiome #healthinnovation #healthtech #machinelearning #mindbody #structuralvariance

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Impact of Cooked vs. Raw Food on Gut Microbiota

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Impact of Cooked vs. Raw Foo...
An October 10, 2019 study reported by Andrew Padros of Gut Microbiota for Health demonstrated that raw and cooked diets have a distinct effect on the structure and metabolic activities of the gut microbiome in mice and humans. Dr. Rachel Carmody at Harvard University (USA), Dr. Peter Turnbaugh at University of California San Francisco (USA) and colleagues found that raw and cooked versions of the same foods affected the gut microbiome differently in mice.

Their research came up with that varied results between food types. It suggests that cooking sweet and white potatoes is a good idea, while consuming raw or cooked beef, carrots and beets is nearly the same. For example, consuming raw sweet potatoes led to lower microbiome diversity, a higher expression of genes and enzymes for metabolizing starch, sugar and xenobiotics. It also altered metabolic byproducts when compared with cooked-fed mice. However, raw and cooked lean beef had similar impacts on the gut microbiome; there was not much difference.

By feeding the mice controlled diets with different raw and cooked low- and high-starch foods—including sweet potato, white potato, corn, peas, carrots, and beets—the authors confirmed that gut microorganisms were sensitive to starch digestibility.

The study found that low-digestibility starch when raw (sweet potato and white potato) led to the most profound changes in gut microbial community structure. However, low-starch foods (carrot and beet) or foods with a high amount of high-digestibility starch when raw (corn and peas) led to almost undetectable changes in gut microbes.

Cooked foods were mainly digested and absorbed in the small intestine (thus, processed by host enzymes), whereas raw foods reached the colon, where they had detrimental effects on microbes, attributable to antimicrobial compounds.

By quantifying microbial cell damage in gut samples, Carmody and colleagues found that the mice fed raw tubers had the same extent of microbial cell damage as the mice group treated with the oral antibiotic ampicillin.

A metabolomic analysis of the six plant foods used in the experiments revealed multiple compounds that were both sensitive to cooking and showed antimicrobial activity, thus supporting the high xenobiotic gene expression found in mice that were fed raw food.
See report from Gut Microbiota for Health, https://www.gutmicrobiotaforhealth.com/en/beyond-nutrients-and-bioactive-compounds-in-food-cooking-also-matters-for-the-gut-microbiome/
#ai #artificialintelligence #bacteria #datascience #diet #food #gutmicrobiome #health #healthinnovation #healthtech #herbalmedicine #herbs #machinelearning #mindbody #plantnutrition #spices

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Chinese herbal remedy & "bugs in the belly" aid weight loss / diabetes

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Chinese herbal remedy &...
It is becoming more accepted that Chinese herbs such as ginseng, berberine, and curcumin, have wide ranging biological impacts on our gut microbiome. On April 15, 2019, Chinese scientists published test results of the microbial effects of a popular Chinese herb called Coptis chinensis. Berberine, the main active ingredient of Coptis chinensis, is known as an antidiabetes drug and can regulate blood glucose. Berberine is beneficial for HFD-induced (high fat diet) insulin resistance, as it improves insulin sensitivity and reduces the homeostasis caused by insulin. They found that administration of berberine reduced the ratio of F/B (Firmicutes/Bacteroidetes) and partly recovered the composition of gut microbiota changed by HFD feeding. The report was published by China's State Key Laboratory of Natural Medicines, Jiangsu Key Laboratory of Carcinogenesis and Intervention, Department of Basic Medicine, School of Basic Medicine and Clinical Pharmacy (China Pharmaceutical University, 24 Tongjiaxiang, Nanjing 210009, China; see https://www.hindawi.com/journals/ecam/2019/2682748/ ).

A July 2019 paper published in the journal Nature, demonstrated ways to apply specific strains of microbiota to positively influence weight and diabetes. They found that a molecule produced by certain bacteria can interact with protein receptors in mice and improve the rodent's glucose regulation. These same receptors are also found in humans. It was a key step toward understanding how bacteria keeps us healthy, and what changes in bacteria occur when we fall prey to disease, empowering us to harness naturally occurring microbes to treat illness. Scientists found that microbiome differences can relate to our weight and diabetes. For example, studies of the microbe Akkermansia muciniphila has shown influence in obesity among humans. The July 2019 study by Nature Medicine showed "evidence for a negative correlation between Akkermansia muciniphila abundance and overweight, obesity, untreated type 2 diabetes mellitus or hypertension". 40 volunteers were enrolled and 32 completed the three month trial resulting in improved insulin sensitivity, reduced cholesterol, and slightly decreased body weight. A. muciniphila reduced the levels of liver dysfunction and inflammation. (See article, https://www.nature.com/articles/s41591-019-0495-2 ).

Other microbial species may also impact diabetes. Researchers at Rockefeller University were able to isolate N-acil amides with GPR119, which helps control blood sugar in mice. “Mice that received N-acil amides had significantly better glucose metabolism that those that didn’t. Over the past couple of years, Rockefeller biologist's Sean Brady and his team analyzed stool samples for microbial DNA. In essence, they found that N-acil amides help the body regulate itself.

A person with diabetes is more likely to have this certain suite of microbes than a person without diabetes, for example. But the mechanisms of this bacterial influence are still pretty mysterious.” (Source: “Scientists want to Turn our Gut Bacteria into Medicine,” Popular Science, Claire Maldarelli, Aug. 31, 2017; http://www.popsci.com/gut-bacteria-medicine?zLzbIvdKfbdGTwyp.03 ).
#ai #artificialintelligence #bacteria #chinesemedicine #datascience #diet #gutmicrobiome #health #healthinnovation #healthtech #herbalmedicine #herbs #machinelearning #mindbody #plantnutrition #spices

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Using Classic models (Lotka-Volterra) to do microbiome research

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Using Classic models (Lotka-Vo...
What is Lotka-Volterra modeling? It is the simple model of the population dynamics of species competing for common resource, according to Wikipedia. Because there are trillions of microbes in our bodies, it becomes a huge challenge collecting, breaking down, processing, packaging, then accurately making sense of the data in presentable formats. Thanks to computing, high throughput DNA sequencing enables the exploration of dynamics in microbial populations. Mathematical modeling and simulation of such microbiome time series data can help in getting better understanding of bacterial communities.

Researchers today are able to use an "interactive platform for generalized Lotka-Volterra (gLV) based modeling and simulation of microbial populations. The tool can be used to generate the mathematical models with automatic estimation of parameters and use them to predict future trajectories using numerical simulations", according to a February 22, 2019 Frontierso India report (see https://www.frontiersin.org/articles/10.3389/fmicb.2019.00288/full).

"We have developed “Web-gLV” to bridge data delivery gaps to enable biologists to take advantage of the multispecies modeling and simulation without any programming expertise," adds the report. This way, scientists can focus on the Science and rely on the "Web-glv" for the computing and delivery.
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Prebiotic fiber, short chain fatty acids drive gut and immune health

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Downline immune health grid. Downline immune health grid. Chicory root pictured here is ... Chicory root pictured here is a leading source of Inulin fiber.
Certain foods and herbs support the growth of short chain fatty acids (SCFA). These fiber-rich foods - such as fruit, vegetables, and legumes - contain large amounts of Inulin.

Inulin is a type of soluble fiber found in many plants which gut bacteria convert into SCFA. SCFAs such as butyrate, nourish colon cells, break down glucose and cholesterol, and provide other health benefits. SCFA inhibit histone deacetylases (HDACs) and activate G-protein-coupled receptors (GPCRs). Since HDACs regulate gene expression, inhibition of HDACs has a vast array of downstream consequences. GPCRs, particularly GPR43, GPR41, and GPR109A, have been identified as receptors for SCFAs, but little is known beyond that. Studies have implicated a major role for these GPCRs in the regulation of metabolism, inflammation, and disease. In effect, SCFAs have anti-inflammatory, antitumorigenic, and antimicrobial effects. Butyrate, a four-carbon SCFA, is produced through microbial fermentation of dietary fibers in the lower intestinal tract, enhancing intestinal health and mucosal immunity. They alter and maintain gut and immune system integrity.

Plants naturally produce inulin and use it as an energy source. Today, it’s being added to more and more food products because of its benefits and adaptability. With its creamy consistency, inulin functions as a fat substitute in margarine, salad dressings, and baked goods.

Inulin can be found naturally in foods, such as:

- chicory root
- artichokes
- agave
- asparagus
- bananas
- garlic
- leeks
- wheat
- onions
- wild yams

Again, remember that no body is the same, so get to know your body and it's particular health needs. The key is to maintain a balanced diet, including but not limited to consumption of Inulin intensive food and herbs.
#ai #artificialintelligence #bacteria #datascience #diet #gutmicrobiome #health #healthinnovation #healthtech #herbalmedicine #herbs #machinelearning #mindbody #plantnutrition #spices

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"Keystone Species" - Like the Wolves of Yellowstone Park

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"Keystone Species" - Like the...
Isolating Key Bacterial Strains

Thanks in large part to innovative entrepreneurs, microbial influences on our health is reaching new heights. What this means scientifically is that research is showing more than just propensities and patterns. It is able to isolate strains using Ai, specific strains of bacteria that directly affect the neuro-degeneration of MS (multiple sclerosis) patients as one example of many.

Scientists refer to Bacteroides fragilis and Bacteroides stercosis as “keystone species” of the human gut microbiome. Though not abundant, they heavily influence the structure of microbial communities. It may be premature to say, but research points toward these gut microbiome as contributing to one's individuality.

Faecalibacterium prausnitzii might be another keystone species as a gut anti-inflammatory. Rather than “bad” microbes prompting Crohn's disease, for example, a single “good” microbe plays a key role in preventing the disease. Harry Sokol, a gastroenterologist at Saint Antoine Hospital in Paris, found that if he transferred F. prausnitzii in mice, it protected them against experimentally induced intestinal inflammation. "And when he subsequently mixed F. prausnitzii with human immune cells in a test tube, he noted a strong anti-inflammatory response," according to the Scientific American report (see https://www.scientificamerican.com/article/among-trillions-of-microbes-in-the-gut-a-few-are-special/ ).

Another “keystone species” microbe worth mentioning that resides in the human gut is the ruminococcus bromii. It is a dominant member of the suite of human gut microbiome that triggers energy and digestion of resistant starches by breaking down and releasing enzymes from these starches that we consume. The ruminococcus bromii primarily reside in the colon.

The function of these "keystone" species enable the proper functioning of other downline microbial activity, much in the same way that the presence of wolves in Yellowstone Park is a keystone species to maintain a balance in the park’s ecosystem.
#ai #artificialintelligence #bacteria #datascience #gutmicrobiome #health #healthinnovation #healthtech #machinelearning #mindbody

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