[Latin Name] Cucurbita pepo

[Plant Source]from China

[Specifications] 10:1 20:1

[Appearance] Brown yellow fine powder

Plant Part Used:Seed

[Particle size] 80 Mesh

[Loss on drying] ≤5.0%

[Heavy Metal] ≤10PPM

[Storage] Store in cool & dry area, keep away from the direct light and heat.

[Shelf life] 24 Months

[Package] Packed in paper-drums and two plastic-bags inside.

[Net weight] 25kgs/drum

Introduction

Pumpkin seed is used medicinally to help improve bowel function by ridding the intestinal tract of parasites and worms.

As raw material of drugs for eliminating insecticide, swelling, andpertussis, pumpkin seed extract is widely used in pharmaceutical industry;

As product of treating malnutrition and prostate, pumpkin seed extract is widely used in health industry.

FUNCTION:

1.Pumpkin seed extract can help to prevent the prostate disease.

2.Pumpkin seed extract has the function of treating whooping cough and children with sorethroat.

3.Pumpkin is also a natural source of magnesium, phosphorus, selenium, zinc, vitamin A, and vitamin C.

4.The cushaw extract is also a laxative, which can help to moisture the skin, is indeed a good beauty food for women.

5.Pumpkin seed is used medicinally to help improve bowel function by ridding the intestinal tract of parasites and worms.

6.The cushaw seed extract have much acid , this acid can relax the rest angina, and have a function to low the high blood liquid

QAAFI SCIENCE SEMINAR SERIES
28 March 2017

DESCRIPTION
The structure and material properties of growing and fleshy plant tissues are determined by their (primary) cell walls. The biological requirement in growing tissues for cell walls to combine structural strength with flexibility and extensibility is met through a network of cellulose fibres in a hydrogel form that is modified by the presence of other polysaccharides. From direct measurement on isolated plant cell walls and using a model bacterial cellulose hydrogel system, the molecular rules governing the association of non-cellulosic polysaccharides with cellulose fibres have been deduced. The effects of various features of cell wall hydrogels on the characteristic material properties under small deformation, compression and extension have been characterized and rationalized. Consequences for plant material properties and plant food behavior in the digestive tract will be discussed.

About Prof. Mike Gidley
Professor Mike Gidley is Director of the Centre for Nutrition and Food Sciences (CNAFS) in QAAFI. Prof. Gidley’s career includes 22 years in food R&D in the private sector and the last 13 years at UQ in the Centre for Nutrition and Food Sciences.

Research themes within CNAFS include ‘Smart Selections’ (how to identify the right combinations of raw materials and processing to deliver consumer-preferred foods), ‘Naturally Nutritious’ (maximising the intrinsic nutritional properties of agricultural products in foods and ingredients) and ‘Uniquely Australian’ (identifying and validating opportunities for elite products from foods and ingredients that can only have come from Australia).

Prof. Gidley’s own research is focused on structure – function relationships in important food components such as starch granules and plant cell walls. This has led to the detailed characterisation of starch and dietary fibre digestion/fermentation in vitro and in vivo, with the understanding generated leading to opportunities for optimising nutritional value of foods and feeds. He is a Program Leader in the Australian Research Council Centre of Excellence in Plant Cell Walls (2011-2017)

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Xylitol Reduces Plaque,
Fights tooth decay & cavities,
Remineralizes Tooth Enamel,
Fights and prevents ear infections,
Is safe for Diabetics and Hypoglycemics,
Has a low Glycemic Index of 7,
Has 40% less calories than sugar,
Inhibits bacteria,
Reduces yeast growth and candida albicans,
Enhances protective factors in saliva,
Minimal effect on blood glucose levels,
Reduces sugar contact time on teeth…

Many studies done in Europe and North America have clinically proven the dental advantages of xylitol but how does it work? Here is a brief explanation: Streptococcus mutans bacteria. (S. mutans) is the primary cause of tooth decay. S. mutans is a common bacteria that lives in the plaque that is continually building up on our teeth. This bacteria ferments the sugar and carbohydrates from our diets. A by-product of the fermentation is an acid that erodes away the protective tooth enamel and forms cavities. However, it has been discovered that S. mutans are not able to digest xylitol, so fermentation and acid production is stopped. As the bacteria were exposed to more xylitol over time, their numbers decreased and they became less aggressive. So people who use more xylitol in place of sugar decrease their oral bacteria levels and experience far less plaque, tooth decay and cavities. Since these bacteria are no longer able to live in the mouth, they get washed down the throat with saliva and die a miserable death in the flood of stomach enzymes and acids. It has been clinically proven that xylitol aids in the remineralization of tooth enamel. The tooth enamel is the hard layer that protects the teeth from harmful substances like sugar and acids.
Other studies have clinically proven that eight grams of daily, oral xylitol use reduces the occurrence of Acute Otitis Media (AOM) or ear infections by 40%. Also, the unborn baby also benefits from mother’s xylitol consumption. Still other researchers at the University of Minnesota, using rabbits have found a correlation between poor dental health and high blood pressure and coronary clotting which leads to heart attacks. Results still must be confirmed in humans. Researchers at the State University of New York-Buffalo in a new study found people with poor dental health had almost twice the risk of emphysema and other lung diseases. The worse the dental health of the person, the greater the risk. The germs and bacteria in the saliva travels through the throat to the lining of the lungs making it more susceptible to infection with common respiratory germs.

The herb, STEVIA rebaudiana, has been used for centuries by the Guarani Indians of Paraguay, who had several names for the plant, several of which are Kaa’-he-E, Caa’-ehe, or Ca-a-yupe- all. referring to the sweet leaf or honey leaf. It is commonly known in South America as yerba dulce meaning sweet herb. The Guarani used stevia nutritionally and medicinally. The plant came to the attention of the rest of the world when South American naturalist, Bertoni, “discovered” the plant in the late 1800′s. After his report,. the herb became widely used by herbalists in Paraguay. Stevia’s most obvious and notable characteristic is its sweet taste. However, the sweet taste is not due to carbohydrate-based molecules, but to several non-caloric molecules called glycosides. Individuals who cannot tolerate sugar or other sweeteners can use stevia. The first glycoside molecule was isolated from stevia in 1931 by two French chemists named Bridel and Lavieille and called stevioside. During WW II, sugar shortages prompted England to begin investigation of stevia for use as a sweetener. Cultivation began under the direction of the Royal Botanical Gardens at Kew, but the project ‘was abandoned in the aftermath of the war. Japan began cultivating stevia in hothouses in the 1950′s. By the 1970′s, Japan started using stevia commercially and today, they are the biggest users of the extract, which has captured 50% of Japan’s sweetener industry. Other aspects of stevia are capturing people’s attention. The herb is sold in some South American countries to aid diabetics and hypoglycemics. Research has shown that a whole leaf concentrate has a regulating effect on the pancreas and helps stabilize blood sugar levels. Stevia is therefore useful to people with diabetes, hypoglycemia, and Candidiasis. Other traditional uses of stevia are: lowers elevated blood pressure (hypertension), digestive aid that also reduces gas and stomach acidity, and for obesity. The herb acts as general tonic which increases energy levels and mental acuity. Stevia has been shown to inhibit the growth and reproduction of bacteria that cause gum disease and tooth decay, making it an excellent addition to tooth pastes and mouthwashes. Many people have reported improvement in their oral health after adding stevia concentrate to their tooth paste and using it, diluted in water, as a daily mouthwash.