DOCSLIB.ORG

Be Gentle™ Nourishing Moisturizer

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Be Gentle™ Nourishing Moisturizer PRODUCT GUIDE Be Gentle™ Nourishing Moisturizer Hydrating & Replenishing Moisture-boosting Replenish Step 45 ml | 1.52 fl. oz. This multitasking, exceptionally comforting cream immediately infuses skin with Why you’ll long-lasting moisture and soothing nutrients. Quenches skin with the replenishment it needs to promote essential hydration retention while helping to firm and shield skin from love it environmental elements for all-day comfort and healthy-looking glow. TARGETS RESULTS - Dry and sensitive skin - Proven to provide 24 hours of hydration.** - Skin that feels tight, dry, and lacks hydration - 96% had nourished, smooth, soft skin, with a luminous complexion that - Loss of radiance, firmness and elasticity lasted all day.* - Skin that lacks softness and smoothness - 94% noticed skin looked radiant and felt calm, smooth, and soft all day.* - 90% noticed improved elasticity and skin tone, with a more refined texture in 7 days.* - 84% saw reduction in the appearance of fine lines and wrinkles within 14 days.* *Based on self-assessments of 51 women in a 14-day study. **Based on 31 women in a 1-day instrumental test. What Powers It REJUVENIQE S™: Peptide: MONAT’s famed proprietary signature is a cornerstone of skin Known for its skin rejuvenation ability, this bio-active building block helps looking its best at every age. This clinically proven ingredient support skin’s natural collagen to reveal tighter skin, improved texture combines the nourishing and revitalizing powers of 17 botanical oils and an overall ageless appearance. MONAT’s exclusive peptide helps and extracts with a patented, activated oil from olive and jojoba skin to appear more cushiony, plump, supple and youthful from within. seed extract to infuse skin with immediate and long-lasting moisture, hydration, youthful resilience and instant luminosity. Soothing complex: This gentle complex of ginger root and bisabolol helps to comfort and Plant Stem Cells: soothe the skin. These regenerating phyto-elements extracted from moss help lift, tighten, support collagen and defend skin by providing antioxidant Hyaluronic acid: protection to guard against oxidative stress caused by the sun and This miracle ingredient has the ability to hold 1,000 times its other environmental elements. This powerhouse ingredient offers a molecular weight in water, helping to replenish and bolster skin's full spectrum of benefits for luminous, youthful, healthy-looking skin. natural moisture for age-defying, youthfully hydrated skin. BE GENTLE™ NOURISHING MOISTURIZER HOW TO USE IT - Use daily, morning and night. - Remove a small amount from the jar with the provided spatula. - Evenly apply to your fingertips. - Massage onto your face, neck, and décolletage using upward Recommend with: motions to reenergize the skin. Cleanse: Be Gentle™ Creamy - Allow product to absorb before applying SPF or foundation. Cleanser - Feeling extra dry? Apply 1–2 drops of MONAT REJUVENIQE™ Oil Intensive in your hands and mix with Be Gentle™ Prepare: Skin Revitalizing Essence™ Nourishing Moisturizer. Target: Rewind™ Age Control Nectar How To Video: (apply at night) https://youtu.be/QHkOsH4djFI Target: Eye Smooth™ MONAT REJUVENIQE™ DID YOU KNOW Oil Intensive The best gentle moisturizers help seal in all the benefits of your supercharged serum and hydrate your thirsty skin. WHAT’S IN IT - Aqua/Water/Eau - Limnanthes Alba (Meadowfoam) Seed Oil - Olea Europaea (Olive) Fruit Oil - Cetearyl Alcohol - Crambe Abyssinica Seed Oil - Simmondsia Chinensis (Jojoba) Seed Extract - Glycerin - Camellia Oleifera Seed Oil - Tocopherol - Dimethicone - Solanum Lycopersicum (Tomato) Seed Oil - Hydroxyethyl Acrylate/Sodium - Orbignya Speciosa Kernel Oil - Daucus Carota Sativa (Carrot) Seed Oil Acryloyldimethyl Taurate Copolymer - Cetyl Alcohol - Citrus Limon (Lemon) Peel Oil - Carrageenan - Jojoba Esters - Citrus Aurantifolia (Lime) Oil - Glucose - Ethyl Macadamiate - Citrus Aurantium Bergamia (Bergamot) - Isomalt - Propanediol Fruit Oil - Phytol - Cetearyl Glucoside - Adansonia Digitata Oil - Dextran - Sodium Hyaluronate - Mauritia Flexuosa Fruit Oil - Citric Acid - Astrocaryum Murumuru Seed Butter - Cocos Nucifera (Coconut) Oil - Fragrance/Parfum - Trifluoroacetyl Tripeptide-2 - Gardenia Taitensis Flower Extract - Dimethiconol - Zingiber Officinale (Ginger) Root Extract - Moringa Oleifera Seed Oil - Ethylhexylglycerin - Bisabolol - Caryocar Brasiliense Fruit Oil - Benzyl Alcohol - Hydrolyzed Jojoba Esters - Helianthus Annuus (Sunflower) Seed Oil OUR PROMISE Vegan Cruelty-free Dermatologist-approved Does not contain: Phthalates, SLS/ SLES or Parabens Allergy tested Clinically tested VEGAN BE GENTLE™ NOURISHING MOISTURIZER.
Load more

Recommended publications
  • “Polyols: a Primer for Dietetic Professionals” Is a Self-Study
    1 “Polyols: A primer for dietetic professionals” is a self-study module produced by the Calorie Control Council, an accredited provider of continuing professional education (CPE) for dietetic professionals by the Commission on Dietetic Registration. It provides one hour of level 1 CPE credit for dietetic professionals. The full text of the module is in the notes section of each page, and is accompanied by summary points and/or visuals in the box at the top of the page. Directions for obtaining CPE are provided at the end of the module. 2 After completing this module, dietetic professionals will be able to: • Define polyols. • Identify the various types of polyols found in foods. • Understand the uses and health effects of polyols in foods. • Counsel clients on how to incorporate polyols into an overall healthful eating pattern. 3 4 Polyols are carbohydrates that are hydrogenated, meaning that a hydroxyl group replaces the aldehyde or ketone group found on sugars. Hydrogenated monosaccharides include erythritol, xylitol, sorbitol, and mannitol. Hydrogenated disaccharides include lactitol, isomalt, and maltitol. And hydrogenated starch hydrolysates (HSH), or polyglycitols (a wide range of corn syrups and maltodextrins), are formed from polysaccharides (Grabitske and Slavin 2008). 5 Nearly 54 percent of Americans are trying to lose weight, more than ever before. Increasingly, they are turning toward no- and low-sugar, and reduced calorie, foods and beverages to help them achieve their weight loss goals (78% of Americans who are trying to lose weight) (CCC 2010). Polyols, found in many of these foods, are becoming a subject of more interest. 6 They are incompletely digested , therefore are sometimes referred to as “low- digestible carbohydrates.” Polyols are not calorie free, as there is some degree of digestion and absorption of the carbohydrate.
    [Show full text]
  • Polyols Have a Variety of Functional Properties That Make Them Useful Alternatives to Sugars in Applications Including Baked Goods
    Polyols have a variety of functional properties that make them useful alternatives to sugars in applications including baked goods. Photo © iStockphoto.com/Synergee pg 22 09.12 • www.ift.org BY LYN NABORS and THERESA HEDRICK SUGAR REDUCTION WITH Polyols Polyols are in a unique position to assist with reduced-sugar or sugar-free reformulations since they can reduce calories and complement sugar’s functionality. ugar reduction will be an important goal over the of the product’s original characteristics may still be main- next few years as consumers, government, and in- tained with the replacement of those sugars by polyols. Sdustry alike have expressed interest in lower-calorie In addition, excellent, good-tasting sugar-free products and lower-sugar foods. The 2010 Dietary Guidelines for can be developed by using polyols. Polyols are in a unique Americans put a strong emphasis on consuming fewer position to assist with reduced-sugar or sugar-free refor- calories and reducing intake of added sugars. The In- mulations; since they are only partially digested and ab- stitute of Medicine (IOM) held a public workshop in sorbed, they can reduce calories and complement sugar’s November 2010 to discuss ways the food industry can functionality. Polyols provide the same bulk as sugars and use contemporary and innovative food processing tech- other carbohydrates. Additionally, polyols have a clean, nologies to reduce calorie intake in an effort to reduce sweet taste, which is important since consumers are not and prevent obesity, and in October 2011 recommended likely to sacrifice taste for perceived health benefits. Poly- front-of-package labeling that includes rating the product ols have a host of other functional properties that make based on added sugars content.
    [Show full text]
  • Sweet Sensations by Judie Bizzozero | Senior Editor
    [Confections] July 2015 Sweet Sensations By Judie Bizzozero | Senior Editor By R.J. Foster, Contributing Editor For many, terms like “reduced-sugar” or “sugar-free” do not go with the word “candy.” And yet, the confectionery industry is facing growing demand for treats that offer the taste people have grown to love without the adverse health effects they’re looking to avoid. Thankfully, there is a growing palette of ingredients from which candy makers can paint a new picture of sweetness that will be appreciated by the even most discerning of confectionery critics. SUGAR ALCOHOLS Also referred to as polyols, sugar alcohols are a common ingredient in reduced-sugar and sugar-free applications, especially confections. Funny thing, they’re not sugars or alcohols. Carbohydrate chains composed of monomeric, dimeric and polymeric units, polyols resemble both sugars and alcohols, but do not contain an ethanol molecule. All but two sugar alcohols are less sweet than sugar. Being only partially digestible, though, replacing a portion of a formulation’s sugar with a sugar alcohol reduces total calories without losing bulk (which can occur when replacing sugar with high-intensity sweeteners). Unique flavoring, texturizing and moisture-controlling effects also make polyols well-suited for confectionery products. Two very common and very similar monomeric polyols are sorbitol and mannitol. Present in a variety of fruits and vegetables, both are derived from products of cornstarch hydrolysis. Sorbitol is made via hydrogenation of glucose, which is why sorbitol is sometimes referred to as glucitol. Mannitol is created when fructose hydrogenation converts fructose into mannose, for which the final product, mannitol, is named.
    [Show full text]
  • DIVISION 15 Adulteration Adulteration of Food
    DIVISION 15 Adulterationof food B.15.001. A food named in column III of an item of Table I to this Division is adulterated if the substance named in Column I of that item is present therein or has been added thereto in an amount exceeding the amount, expressed in parts per million, shown in column II of that item for that food. 22-1-81 B.15.002. (1) Subject to subsections (2) and (3), a food is adulterated if an agricultural chemical or any of its derivatives is present therein or has been added thereto, singly or in any combination, in an amount exceeding 0.1 part per million, unless it is listed and used in accordance with the tables to Division 16. (2) Subject to subsection (3), a food is exempt from paragraph 4(d) of the Act if the only agricultural chemicals that are present therein or have been added thereto are any of the following: (a) a fertilizer; (b) an adjuvant or a carrier of an agricultural chemical; (c) an inorganic bromide salt; (d) silicon dioxide; 8-3-79 (e) sulphur; or (f) viable spores of Bacillus thuringiensis Berliner. 26-1-98 (3) A food named in column IV of an item of Table II to this Division, a food that contains any such food or a food made from a product of any such food is exempt from the application of paragraph 4(d) of the Act if the agricultural chemicals named in columns I and II of that item are present in or have been added to the food in an amount not exceeding the maximum residue limit set out in column III of that item.
    [Show full text]
  • Sugar Alcohols a Sugar Alcohol Is a Kind of Alcohol Prepared from Sugars
    Sweeteners, Good, Bad, or Something even Worse. (Part 8) These are Low calorie sweeteners - not non-calorie sweeteners Sugar Alcohols A sugar alcohol is a kind of alcohol prepared from sugars. These organic compounds are a class of polyols, also called polyhydric alcohol, polyalcohol, or glycitol. They are white, water-soluble solids that occur naturally and are used widely in the food industry as thickeners and sweeteners. In commercial foodstuffs, sugar alcohols are commonly used in place of table sugar (sucrose), often in combination with high intensity artificial sweeteners to counter the low sweetness of the sugar alcohols. Unlike sugars, sugar alcohols do not contribute to the formation of tooth cavities. Common Sugar Alcohols Arabitol, Erythritol, Ethylene glycol, Fucitol, Galactitol, Glycerol, Hydrogenated Starch – Hydrolysate (HSH), Iditol, Inositol, Isomalt, Lactitol, Maltitol, Maltotetraitol, Maltotriitol, Mannitol, Methanol, Polyglycitol, Polydextrose, Ribitol, Sorbitol, Threitol, Volemitol, Xylitol, Of these, xylitol is perhaps the most popular due to its similarity to sucrose in visual appearance and sweetness. Sugar alcohols do not contribute to tooth decay. However, consumption of sugar alcohols does affect blood sugar levels, although less than that of "regular" sugar (sucrose). Sugar alcohols may also cause bloating and diarrhea when consumed in excessive amounts. Erythritol Also labeled as: Sugar alcohol Zerose ZSweet Erythritol is a sugar alcohol (or polyol) that has been approved for use as a food additive in the United States and throughout much of the world. It was discovered in 1848 by British chemist John Stenhouse. It occurs naturally in some fruits and fermented foods. At the industrial level, it is produced from glucose by fermentation with a yeast, Moniliella pollinis.
    [Show full text]
  • Effects of Polyols on the Quality Characteristics of Sucrose-Free Milk
    RSC Advances PAPER View Article Online View Journal | View Issue Effects of polyols on the quality characteristics of sucrose-free milk chocolate produced in a ball mill Cite this: RSC Adv.,2019,9, 29676 Aziz Homayouni Rad,ab Haniyeh Rasouli Pirouzian, *a Nevzat Konar,c Omer Said Tokerd and Derya Genc Polate Sucrose-free milk chocolates containing different types of bulk (isomalt, xylitol and maltitol) and high intensity (Stevia) sweeteners were produced by using a ball mill. The main quality characteristics of the formulated chocolates were evaluated and compared with those of the conventional sample containing sucrose. The Casson model was the best fitting model for the rheological data. Casson viscosity and Casson yield stress were significantly affected by the type of bulking agent in chocolates formulated with xylitol (p < 0.05). However xylitol notably improved the overall acceptability according to the sensory analysis results. Chocolates containing the sucrose replacers demonstrated lower Tonset values and higher enthalpy than the control sample. Sucrose-free chocolates illustrated a higher degree of particle agglomeration. Bulk sweeteners meanwhile seem to have high potential for milk chocolate production Creative Commons Attribution-NonCommercial 3.0 Unported Licence. with low calorie values by using the ball mill technique. Industrial applications: the production of sucrose-free chocolates with conventional methods requires a lot of time and energy. Recently, using alternative methods for chocolate production has been raising interest in many small industries. This study proposed a ball mill method for the preparation of sucrose-free milk chocolates with physiochemical properties almost ranging in the standard limit defined for chocolate.
    [Show full text]
  • Sugar Alcohols: a Review
    International Journal of PharmTech Research CODEN (USA): IJPRIF, ISSN: 0974-4304, ISSN(Online): 2455-9563 Vol.9, No.7, pp 407-413, 2016 Sugar alcohols: A review Ramezan Ali Mahian1, Vahid Hakimzadeh2* 1,2Department of Food Science and Technology, Quchan Branch, Islamic Azad University, Quchan, Iran Abstract : Sugar alcohols are extensively used as sweetening agents. They sometimes possess advantages over the parent sugars in sweetness, caloric reduction and non-cariogenicity. The physical status of carbohydrates in food and confectionery affects both the properties of the product during production and the quality of the final product. Sugar alcohols, such as xylitol, mannitol, sorbitol, and erythritol are emerging food ingredients that provide similar or better sweetness/sensory properties of sucrose, but are less calorigenic. Also, sugar alcohols can be converted into commodity chemicals through chemical catalysis. Biotechnological production offers the safe and sustainable supply of sugar alcohols from renewable biomass. These compounds are usually produced by a catalytic hydrogenation of carbohydrates, but they can be also found in nature in fruits, vegetables or mushrooms as well as in human organism. Due to their properties, sugar alcohols are widely used in food, beverage, confectionery and pharmaceutical industries throughout the world. They have found use as bulk sweeteners that promote dental health and exert prebiotic effect. They are added to foods as alternative sweeteners what might be helpful in the control of calories intake. Consumption of low-calorie foods by the worldwide population has dramatically increased, as well as health concerns associated with the consequent high intake of sweeteners. Key words: Sugar alcohols, low-calorie, Sugar-free products, sweetener.
    [Show full text]
  • Effects of Sugars and Sugar Alcohols on the Gelatinization Temperatures of Wheat, Potato, and Corn Starches
    foods Article Effects of Sugars and Sugar Alcohols on the Gelatinization Temperatures of Wheat, Potato, and Corn Starches Matthew C. Allan, MaryClaire Chamberlain and Lisa J. Mauer * Department of Food Science, Purdue University, 745 Agriculture Mall Drive, West Lafayette, IN 47907, USA; [email protected] (M.C.A.); [email protected] (M.C.) * Correspondence: [email protected]; Tel.: +1-(765)-494-9111 Received: 13 May 2020; Accepted: 3 June 2020; Published: 8 June 2020 Abstract: The gelatinization temperature (Tgel) of starch increases in the presence of sweeteners due to sweetener-starch intermolecular interactions in the amorphous regions of starch. Different starch botanical sources contain different starch architectures, which may alter sweetener-starch interactions and the effects of sweeteners on Tgels. To document these effects, the Tgels of wheat, potato, waxy corn, dent corn, and 50% and 70% high amylose corn starches were determined in the presence of eleven different sweeteners and varying sweetener concentrations. Tgels of 2:1 sweetener solution:starch slurries were measured using differential scanning calorimetry. The extent of Tgel elevation was affected by both starch and sweetener type. Tgels of wheat and dent corn starches increased the most, while Tgels of high amylose corn starches were the least affected. Fructose increased Tgels the least, and isomalt and isomaltulose increased Tgels the most. Overall, starch Tgels increased more with increasing sweetener concentration, molar volume, molecular weight, and number of equatorial and exocyclic hydroxyl groups. Starches containing more short amylopectin chains, fewer amylopectin chains that span through multiple clusters, higher number of building blocks per cluster, and shorter inter-block chain lengths exhibited the largest Tgel increases in sweetener solutions, attributed to less stable crystalline regions.
    [Show full text]
  • Isomalt in Hard Candy Applications
    Sugar Free fructose is isomerized into a much more stable 1,6 bond, making iso- maltulose considerably more resis- tant to acids and microbial influ- ences. By means of a further Isomalt in Hard Candy processing step, hydrogenation, it was possible to obtain the sugar alcohol isomalt from isomaltulose. A simplified flow-chart of the pro- Applications duction process is given in Figure 1. PRODUCTION PROCESS Starting from a sucrose solution, isomaltulose is obtained through transglucosidation as already men- he demand for low-fat and low- due to its sugar-comparable taste tioned. (Figure 2.1) Tcalorie confectionery increases and preferred shelf-life properties. After crystallization, isomaltulose steadily worldwide. Consumers Isomalt started to sell in the U.S. is hydrogenated in a neutral aqueous understand the message and func- when the intense sweeteners acesul- solution using a Raney nickel cata- tions of these product categories fame K and aspartame were regu- lyst. This produces isomalt, a mixture which serve their demands for lated for the use in confectionery of the isomers 1-O-α-D-glucopyra- “healthy eating” when thinking early in 1994 (which was important nosyl-mannitol, 1,1-GPM-dihydrate, α about less calories and kind-to-the- as isomalt is less sweet than sugar). and 6-O- -D-glucopyrano-syl-D-sor- teeth functions. Nowadays new There are still few companies in bitol, 1,6-GPS. (Figure 2.2) sugar replacers like isomalt can be the U.S. that are using isomalt, com- In the crystallization process, used providing sugar comparable pared to Europe where some major especially developed for isomalt, taste and texture to guarantee good brands build their success in sugar GPM crystallizes with 2 mol water quality products.
    [Show full text]
  • „Never Put Off Till Tomorrow the Pleasure You Can Have Today”
    „Never put off till tomorrow the pleasure you can have today” Natural beauty We do not compromise when it comes to our eco brand. We take responsible care in producing and packaging our products which is as important to us as the quality of our cosmetics. OUR MISSION • Back to nature - is not just an empty phrase, it is the beauty source. • Be eco-friendly - we are looking after our environment, and show you that being green can be easy. • Smile - the essence of natural beauty bottled in our products will make you shine with positive energy. OUR PHILOSOPHY • We use the power of plants and minerals and stay true to nature. • Our strength lies in the quality of our products, assessed and certified by experts. • We show the eco-friendly cosmetics can be healthy, beautiful and elegant. OUR COSMETICS ARE MADE OF: · natural ingredients · raw materials certified by Ecocert · organically grown produce from approved farms · chemical-free fragrances WE CHOOSE: · butter made from plants · cold pressed rich oils · natural ethereal oils · plant extracts · natural preservatives · certified active substances WE USE: · economical and eco-friendly packaging · bottles made from Post Consumer Recycling sources (PCR) and other recyclable sources such as aluminium and glass · cornstarch packing peanuts Line CLEANSING CLEANSING & MAKEUP REMOVAL SOOTHING ANTIOXIDANT TONER Active ingredients: Green Tea Extract & Ginkgo Biloba Extract Size: 100 ml / 250 ml (3.3 US fl. oz. / 8.4 US fl. oz.) Packaging: 100% PCR plastic Fragrance free Skin type: All skin types Details: Tones and restores its normal pH to the skin. The juice of aloe leaves soothes irritations, and the extract of ginkgo leaves has antioxidant properties that effectively counteract free radicals.
    [Show full text]
  • Novel Approaches for Patterning Hierarchical Hydrogels
    Novel Approaches for Patterning Hierarchical Hydrogels Submitted by Shuang Wang B. Eng. (Hons) M. Sc. Submitted in fulfilment of the requirements for the degree of IF80 Master of Philosophy Chemistry, Physics and Mechanical Engineering (CPME) Faculty of Science and Engineering (SEF) Queensland University of Technology 2018 Abstract Synthetic hydrogels featuring tunable biological functionalities and hierarchical structures are of compelling interest as scaffolds for tissue engineering applications. With the expectation of regulating cell fate within the soft materials, many efforts have been placed on creating niches that can mimic the complexity of the native extracellular matrix, where biological cues are presented and mass transportation is facilitated by interconnected pore network. In this study, sacrificial moulding process was used to produce porous hydrogels, while two patterning approaches were developed to site-specifically immobilize molecules inside the hydrogels via thiol- Michael addition, resembling natural extracellular matrix networks in terms of geometrical interconnectivity and cell-guidance functionalization. The simple approaches allow reproducible control over the size and architecture of the channels, as well as the spatial distribution and concentration of the patterning molecules, enabling controlled study of cell-substrate behaviour. i Keywords Hydrogel, fugitive ink, poly(ethylene glycol), spatial patterning, transfer molecules, fused deposition modelling, melt electrospinning writing, template, scaffold, adhesion
    [Show full text]
  • Particulate Comprising a Calcium-Containing Compound and a Sugar Alcohol
    (19) TZZ_¥Z¥_T (11) EP 1 753 403 B1 (12) EUROPEAN PATENT SPECIFICATION (45) Date of publication and mention (51) Int Cl.: of the grant of the patent: A61K 9/16 (2006.01) A61K 9/20 (2006.01) 13.08.2014 Bulletin 2014/33 A61K 33/06 (2006.01) (21) Application number: 05744248.5 (86) International application number: PCT/DK2005/000338 (22) Date of filing: 24.05.2005 (87) International publication number: WO 2005/115342 (08.12.2005 Gazette 2005/49) (54) PARTICULATE COMPRISING A CALCIUM-CONTAINING COMPOUND AND A SUGAR ALCOHOL PARTIKEL MIT EINER CALCIUMHALTIGEN VERBINDUNG UND EINEM ZUCKERALKOHOL PARTICULES COMPRENANT UN COMPOSE CONTENANT DU CALCIUM ET UN ALCOOL DE SUCRE (84) Designated Contracting States: • NIELSEN, Carsten Martini AT BE BG CH CY CZ DE DK EE ES FI FR GB GR DK-2860 Søborg (DK) HU IE IS IT LI LT LU MC NL PL PT RO SE SI SK TR • OLSEN, Peder Mohr Designated Extension States: DK-4970 Kirke Hyllinge (DK) AL BA HR MK YU • BERTELSEN, Poul, Egon Himmelev, DK-4000 Roskilde (DK) (30) Priority: 24.05.2004 DK 200400813 (74) Representative: Prusko, Carsten Dietmar et al (43) Date of publication of application: Zacco GmbH 21.02.2007 Bulletin 2007/08 Bayerstraße 83 80335 München (DE) (73) Proprietor: Takeda Nycomed AS 1385 Asker (NO) (56) References cited: WO-A-00/28973 WO-A-98/52541 (72) Inventors: FR-A- 2 717 387 US-A1- 2003 194 440 • MATHIESEN, Jacob US-B1- 6 475 510 DK-9500 Hobro (DK) Note: Within nine months of the publication of the mention of the grant of the European patent in the European Patent Bulletin, any person may give notice to the European Patent Office of opposition to that patent, in accordance with the Implementing Regulations.
    [Show full text]