Patent Application
20080274258
This invention relates to the preparation and uses of stabilized whole fruit extract from the fruits of the Curcubitaceae family.
Nowadays consumers are becoming more and more health conscious, and are ever mindful of what they eat and their overall carbohydrate intake. Many people try to avoid high consumption of refined sugar, thus creating a huge demand for an alternative—a natural sweetener. The growth of the sweetener market has redefined what traditionally constitutes a sweetener, encouraged innovative usages of such sweetener in functional products, and developed customized sweetener for focused use and optimal benefits.
Sugar (sucrose) is a carbohydrate that consists of two simple sugars, fructose and glucose. Sucrose, or disaccharide, is derived from sugar cane/beet root, whereas fructose, a monosaccharide, is found in fruit, vegetable and honey. High fructose corn syrup is very popular at present because of the premium profile of sweetness that fructose offers. However, high fructose corn syrup contains an almost equal combination of fructose and glucose that might contribute to the growing epidemic of obesity.
Alternative sweetener such as SACCHARIN, which is derived from a constituent of grapes and petroleum, has a low production cost and a highly intensified sweetness level. However it was banned by FDA because a Canadian study confirmed that the widely used artificial sweetener causes cancer in test animals.
Acesulfame potassium is made from acetoacetic acid and potassium, and it blends well with other sweetener. SUCRALOSE is marketed by the brand name of SPLENDA, and it is a chlorocarbon chemical that contains three atoms of chlorine in every molecule. Another sweetener such as ASPARTAME is made from amino acids and phenylalanine.
Stevia is a natural sweetener that comes from a plant in the daisy family called Stevia rebaudiana. Stevia is sold as a dietary supplement only because the U.S. Food and Drug Administration contends that there is not enough data to regard Stevia as safe for food consumption.
Recently Agave, a succulent plant that belongs to the Agavaceae family, emerges in the natural sweetener market in the form of agave syrup or agave nectar. Agave syrup composes of 90 percent fructose and 10 percent glucose.
Luo Han Guo (Siraitia grosvenori or Momordica grosvenori) is the fruit of the plant Siraitia grosvenorii in the Curcubitaceae family. The fruit is well known for its sweetness. The sweet taste of Luo Han Guo comes from a group of triterpene-glycosides called mogrosides. Mogroside is different from carbohydrates and does not have the disadvantages of carbohydrates. The mogrosides have been numbered I to V with the main component being mogroside-V. The mixed mogrosides are estimated to be about 300 times as sweet as sugar by weight.
Luo Han Guo fruits are grown in the mountain areas of southern China where the warmth of southern China along with shades provided by the mountains created a perfect environment for Luo Han Guo growth. Most of these areas in southern China are also recognized as having a higher life expectancy. Some studies attributed this to the consumption of Luo Han Guo, while others claim the longevity is the result of the local's tranquil lifestyle, simple diet and regular exercise. Regardless of the explanations, the locals at southern China had recognized the benefits of Luo Han Guo hundreds of years ago. They had been using it as a medicinal herb that treats coughing and sore throat, promotes respiratory health, enhances immune function, maintains vitality as well as detoxifies.
The Encyclopedia of Traditional Chinese Medicine (Jiangsu New Medical College, 1977) recommends using dried Luo Han Guo fruits as a remedy for respiratory complaints such as dry coughs, and it can be used as a laxative as well. The book “Fruit as Medicine,” (Dai and Liu, 1986) reported that Luo Han Guo fruits are used as a remedy for heat stroke with thirst, acute and chronic throat inflammation, aphonia, chronic cough, constipation due to aging, and as a sugar substitute for diabetics. The Luo Han Guo “chongji” is reported to be a popular treatment for colds in China. Recent studies on Luo Han Guo included investigation of the antioxidant activity of mogrosides and their potential use as cancer prevention agents. It is generally understood that antioxidants may lead to significant reversal or suppression in the early stage of cancer development. Furthermore, Luo Han Guo and its sweetening component are often mentioned in relation to diabetes and obesity because it can be used as a substitute for caloric sugars that are normally consumed in the diet.
Mogrosides are non-caloric sweeteners that have a low glycemic index (approximately 20; while the index for sugar is 70). Mogrosides are tritepene-glycosides that make up approximately 1% of the flesh of the Luo Han Guo fruit. There are five different mogroside: 11-oxo-Mogroside-V, Mogroside-VI, Mogroside-V, Mogroside-IV and Siamenoside-I. The pure mogroside mix present in the Luo Han Guo fruit is 300 times as sweeter as sugar, while the pure mogroside-V is up to 400 times sweet as sugar. Luo Han Guo natural sweetener has the texture and taste of sugar, and it is a natural sweetener, not a supplement. There are no reported incidents of negative side effects of Luo Han Guo. The American Food and Drug Administration classifies Luo Han Guo as a generally recognized safe product, thus there are no restrictions on consuming the fruit or its extracts.
In view of the benefits of Luo Han Guo, it is highly desirable to bring all the advantages of Luo Han Guo together to meet today's market demand for a natural, sugar-free sweetener. Most sugar-free syrup on the market today uses sugar alcohols and artificial sugar substitute to sweeten their products. Unfortunately, the taste of these sugar-free products is often not very pleasant. On the other hand, traditional syrups, e.g. maple or corn syrup, contain a high level of sugar that is not suitable for people who want to avoid high glycemic level and calorie count.
The present invention provides a method of preparing whole fruit extract from the fruits of the Curcubitaceae family. The resulting whole fruit extract can be formulated into a sugar-free or no sugar added food or beverage that contains natural sweeteners derived from the whole fruit extract.
In one embodiment, the present invention provides a method of preparing whole fruit extract from the fruits of the Curcubitaceae family. Extract from the peel and pulp of the fruits is obtained by a method comprising heating the fruits in water, thereby obtaining an extracted liquid containing solid components of the fruits. The solid components of the fruits are then separated from the extracted liquid, wherein the extracted liquid contains extract of the peel and pulp of the whole fruits.
The present invention also provides whole fruit extract prepared according to the method described herein.
The present invention further provides food or beverages comprising the whole fruit extract prepared as described herein. These food or beverages are sugar-free, low in calorie, low in glycemic index, and contain natural sweeteners such as mogrosides derived from the whole fruit extract. These sugar-free or no sugar added food or beverages would be attractive to diabetics and people who worry about their calorie and sugar intake.
It is also an object of this invention to produce syrup and jam that are low in calorie and glycemic index with diabetic therapeutic function.
The present invention provides a method of preparing whole fruit extract from the fruits of the Curcubitaceae family. Representative examples in this family include, but are not limited to, Siraitia grosvenori, S. siamensis, S. silomaradjae, S. sikkimensis, S. Africana, S. borneensis, and S. taiwaniana. Although the method of the present invention is described with particular reference to whole fruit extract from Siraitia grosvenori (commonly known as Luo Han Guo fruits), the process is equally applicable to other member in the Curcubitaceae family.
The present invention provides a method comprising breaking the outer shell or peel of the fruits; heating the fruits in water, thereby obtaining an extracted liquid containing solid components of the fruits; and separating the solid components of the fruits from the extracted liquid, wherein the extracted liquid contains extracts of the peel and pulp of the fruits.
In general, the fruits are boiled for about 1 to 2 hours. The extracted liquid containing solid components of the fruits can be further acidified to about pH 4.0-5.0 with an edible acid before digesting with pectinase to remove pectin. The pectinase enzyme is then denatured by heating after the digestion. Preferably, the final extracted liquid without the solid components of the fruits is further concentrated before formulating the extract into a food or beverage such as syrup or jam.
The present invention also provides a whole fruit extract prepared according to the method described herein. Generally, the whole fruit extract contains a mixture comprising one or more natural sweetener selected from the group consisting of 11-oxo-Mogroside-V, Mogroside-VI, Mogroside-V, Mogroside-IV and Siamenoside-I. In one embodiment, the whole fruit extract is a Luo Han Guo whole fruit extract that has a HPLC profile as shown in
The present invention also provides a no sugar added food or beverage comprising the whole fruit extract prepared according to the method described herein. “No sugar added” or “sugar-free” as used herein refers to a food substance or a beverage with no exogenously added sugar or one with low endogenous sugar level. Sweetness of the resulting food or beverages comes from the natural sweeteners contained in the whole fruit extract. In general, the natural sweeteners can be one or more of the following: 11-oxo-Mogroside-V, Mogroside-VI, Mogroside-V, Mogroside-IV and Siamenoside-I. Examples of the no sugar added food or beverages include, but are not limited to, a syrup or a jam. In one embodiment, the no sugar added food or beverage comprises a Luo Han Guo whole fruit extract that has a HPLC profile as shown in
The no sugar added food or beverage can further comprise sugar alcohol. Representative sugar alcohols include, but are not limited to, sorbitol, mannitol, xylitol, maltitol, maltitol syrup, lactitol, erythritol, isomalt, and hydrogenated starch hydrolysates.
Finally, this invention also provides the above-described whole fruit extract or no sugar added food or beverage capable lowering blood sugar levels. Small scale animal studies have demonstrated this point.
The invention being generally described, will be more readily understood by reference to the following examples which are included merely for purposes of illustration of certain aspects and embodiments of the present invention, and are not intended to limit the invention.
The present example describes a method of obtaining whole fruit extract from Luo Han Guo. The steps of the process are described below.
It is a very important initial step. Luo Han Guo fruits are selected on a conveyor belt. Any mature fruit carry a green color should be excluded. Fresh and ripe fruits are picked, while decayed, molded or insect damaged fruits are removed and discarded. Under ripe Luo Han Guo fruits are discarded also because they tend to taste bitter. The purpose of the selection process is to ensure a good quality of the product.
Luo Han Guo fruits are cleaned in a moving water bath equipped with air agitator. The water bath has two compartments: the first compartment is for initial wash, whereas the second compartment is for further washing. The fruits are moved through the two compartments by the force of moving water propelled by air agitation from below. The fruits are thoroughly washed to remove all adhering dirt. The washing water should not contain disinfectant solutions, detergents or chlorine.
The outer peel (shell) of the Luo Han Guo fruits is gently broken by a mashing apparatus, or any other processing technology generally available in the art. Luo Han Guo fruits contain a large amount of seeds, and it is important to not smash the seeds because it would cause a bitter flavor in the final product. The extraction is based on peel and pulp, not including any seed.
The cracked Luo Han Guo fruits are put into boiling water for 1 to 2 hours. Through this process, water will extract components from the peel and pulp of Luo Han Guo fruits. No chemical is involved during the extraction.
Luo Han Guo fruits contain a large amount of pectin. Pectin is not stable when the product is in storage. It will dilute the final product or cause layers. Pectinase digestion is conditioned for 1 hour at the temperature of 45° C., preferably between 37-50° C., and the pH is adjusted by citric acid solution. The final product should have a pH lower than 5, preferably between 4-5, more preferably between 4.2-4.5. Pectinase is then added to the mixture of the extracted liquid, fast mixed for 5 minutes, and the extract is digested with continuous agitation.
At this point, the extracted liquid still contains active pectinase, and possibly enzymes and bacteria as well. These contaminants will negatively affect the stability and the shelf life of the final product. These enzymes and bacteria may be denatured and eliminated from the extracted liquid and solid by boiling the extracted liquid for about 0.5-1 hour.
After enzyme digestion, the extracted liquid and solid are separated through a draining process that drains off liquid from the container.
The extracted liquid will still contain small pieces of Luo Han Guo fruit material after the separation process. Therefore, a filtration process is needed. After the solids (peel and pulp) are removed from the extracted liquid, they are processed by high speed centrifugation to recover extracted liquid trapped with the solid components. Then all the extracted liquid is combined and filtered by different mesh filters in order to remove small particles. This filtration step would also prevent bacterial growth during the process.
In one embodiment, the whole fruit extract from Luo Han Guo prepared according to the processes described above can be formulated into syrup. For example, a Luo Han Guo syrup can be formulated as comprising the whole fruit extract of the present invention and sugar alcohols (polyols). One of ordinary skill in the art would readily use the extract of the present invention and commonly used sugar alcohols to formulate a Luo Han Guo syrup.
Sugar alcohols are neither sugars nor alcohols. They are carbohydrates with a chemical structure that partially resembles sugar and partially resembles alcohol, but they don't contain ethanol as alcoholic beverages do. They are incompletely absorbed and metabolized by the body, and consequently contribute fewer calories. The commonly used sugar alcohols include sorbitol, mannitol, xylitol, maltitol, maltitol syrup, lactitol, erythritol, isomalt and hydrogenated starch hydrolysates. Their calorie content ranges from 1.5 to 3 calories per gram compared to 4 calories per gram for sucrose or other sugars. Most are approximately half as sweet as sucrose; maltitol and xylitol are about as sweet as sucrose.
In addition to adding a sweet taste, polyols perform a variety of functions such as adding bulk and texture, providing a cooling effect or taste, inhibiting browning that occurs during heating and retaining moisture in foods. Manufacturers frequently use sugar alcohols in combination, as well as with other sweeteners to attain a desired taste and sweetness level. The commonly used polyols are regulated by the U.S. Food and Drug Administration as either GRAS (Generally Recognized As Safe) or approved as food additives.
It is an object of the present invention to use Luo Han Guo whole fruit extract to make a sugar-free, low calorie, low glycemic index syrup. Sugar is found in all kinds of fruits. The percentage of sugar in a specific fruit depends on the weather, climate, etc., of the region it is originated/cultivated in. To make a sugar-free and low calorie syrup, the sugar level of Luo Han Guo extract is measured. Then depending on the percentage of sugar in the Luo Han Guo liquid extract, suitable amount of a sugar alcohol such as maltitol is added to create a mixture of 60 Brix degrees or more. For example, it is desirable that the Luo Han Guo syrup achieves a Brix degrees≧65%, pH 4-6. The sugar content of the extract is adjusted to less than 0.5 g per serving. Sugar content of less than 0.5 g per serving must be achieved in order to label the product as “sugar-free”.
This application claim priority of U.S. Ser. No. 11/533,625, Filed Sep. 20, 2006, and U.S. Ser. No. 11/288,632, filed Nov. 21, 2005, the disclosure of which is hereby incorporated by reference.
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/US06/45144 | 11/21/2006 | WO | 00 | 5/12/2008 |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 11533625 | Sep 2006 | US |
| Child | 12093413 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 11288632 | Nov 2005 | US |
| Child | 11533625 | US |
