ライフサイエンスコーパス: cosmetics

1 Es commercially marketed for drug, food, and cosmetics.

2 medications, potentially toxic chemicals and cosmetics.

3 d in vitamin supplements, feed additives and cosmetics.

4 and sensitive sensors for quality control in cosmetics.

5 l membranes and for use in drug delivery and cosmetics.

6 ls, bioethanol production, therapeutics, and cosmetics.

7 s, including food, feed, pharmaceuticals and cosmetics.

8 cations in aquaculture, pharmaceuticals, and cosmetics.

9 n foods, pharmaceuticals, nutriceuticals and cosmetics.

10 p that is widely used in cuisine, drugs, and cosmetics.

11 ortant as dyes in textiles, lacquerware, and cosmetics.

12 roducts, hazardous waste sites, food, and/or cosmetics.

13 en producing pharmaceuticals, foodstuffs and cosmetics.

14 ic of BoNT-A is widely used in neurology and cosmetics.

15 nteresting raw material in the production of cosmetics.

16 molecules also occur in pharmaceuticals and cosmetics.

17 , a common ingredient in sunscreen and other cosmetics.

18 ducts, including plastics, epoxy resins, and cosmetics.

19 logy, molecular biology, drug discovery, and cosmetics.

20 taining products such as pharmaceuticals and cosmetics.

21 tion for possible use in pharmaceuticals and cosmetics.

22 h, it is an essential target in medicine and cosmetics.

23 applications as an additive to nutrients and cosmetics.

24 ssing, enzyme reactions, pharmaceuticals and cosmetics.

25 re widely used as invisible UV protectant in cosmetics.

26 for industries like food, pharmaceutical and cosmetics.

27 The 1938 Food, Drug, and Cosmetics Act, as it was known, gave greater powers to t

28 ot only for biomedical purposes but also for cosmetics, agriculture and electronics.

29 ing metabolism, pharmaceuticals, toxicology, cosmetics, agriculture, and many more.

30 ed in many industrial sectors, such as food, cosmetics, agriculture, and pharmaceuticals, and their u

31 Women who used shampoo, conditioner, and cosmetics also showed 70-80% higher BP concentrations in

32 nt for the industries of food, medicine, and cosmetics, among others.

33 ctrum antimicrobial enzyme used in the food, cosmetics and agricultural industries.

34 and protectors against oxidation in food and cosmetics and also due to their health implications, mai

35 in vitro, is widely used in processed foods, cosmetics and as stool softener medicines commonly used

36 nefit of engineered nanoparticles for use in cosmetics and as tools for understanding skin biology an

37 scaled, suggesting near-term applications in cosmetics and biomedicine.

38 cants, clothing, deodorants, sunscreens, and cosmetics and can potentially accumulate in our food sup

39 ch as in vitro toxicity testing of drugs and cosmetics and clinical scale production of cells for cel

40 ssing and are used extensively by the foods, cosmetics and coatings industries.

41 ative of vitamin A, is a common component in cosmetics and commercial acne creams as well as being a

42 uctured encapsulation applications in foods, cosmetics and drug delivery.

43 bers or fiber composites, and development of cosmetics and drugs for hair.

44 he controlled delivery and release of cells, cosmetics and drugs, and as supports for cell growth and

45 nstruction, pottery making, pharmaceuticals, cosmetics and engineering.

46 en a significant rise in the pharmaceutical, cosmetics and food industries, due to their biodegradabl

47 on as a gelling agent in the pharmaceutical, cosmetics and food industries.

48 d source of phenolic compounds to be used in cosmetics and food products.

49 d source of phenolic compounds to be used in cosmetics and food products.

50 s) are widely used as components of drugs or cosmetics and hold great promise for biomedicine, yet th

51 otential applications in industry, medicine, cosmetics and human nutrition.

52 ource of lecithin with applications in food, cosmetics and in the pharmaceutical industry.

53 al polymeric carriers, to the formulation of cosmetics and insecticides, to the fabrication of nanost

54 G is widely used in many household products, cosmetics and medicines.

55 ADMs proposed advantages, including improved cosmetics and more single-stage IBBRs, is lacking.

56 tics (such as plant natural products, drugs, cosmetics and other synthetic compounds) using a limited

57 ity control / microbial safety assessment in cosmetics and personal care products (hazard based) with

58 FAS) are anthropogenic chemicals reported in cosmetics and personal care products as ingredients, pos

59 Overall, these data highlight that cosmetics and personal care products can contain a bread

60 Thirty-eight cosmetics and personal care products were selected and a

61 among the most widely used xenoestrogens in cosmetics and personal-care products and are generally c

62 sion formulations are well-suited for use in cosmetics and pharmaceutical applications.

63 making by-products are of interest in food, cosmetics and pharmaceutical industries.

64 nd unsaturated fatty acids in food industry, cosmetics and pharmaceutical preparations.

65 dpoints, but also in the formulation of many cosmetics and pharmaceutical products.

66 to the fore as new green solvents for foods, cosmetics and pharmaceuticals due to their unique solvat

67 ered promising new green solvents for foods, cosmetics and pharmaceuticals due to their unique solven

68 fields like nutraceuticals, functional food, cosmetics and pharmaceuticals) due to their potent thera

69 hemicals are widely used in dermally applied cosmetics and pharmaceuticals, and also represent endoge

70 quiterpenoid volatile flavor, used in foods, cosmetics and pharmaceuticals, possessing also insect re

71 e found in diverse food products, medicines, cosmetics and preservatives.

72 olorants for everyday products as various as cosmetics and printing inks.

73 innovative functional food products, and in Cosmetics and Regenerative Medicine in the development o

74 in culinary preparations, food supplements, cosmetics and traditional medicine.

75 d butyl paraben) in different samples (food, cosmetics and water) based on isobutyl chloroformate (IB

76 e their quality and limit their use in food, cosmetics, and biofuels.

77 The application of GBPs in the food, cosmetics, and drugs industries such as micelles, liposo

78 is widely used in biology, food technology, cosmetics, and environmental sciences.

79 cluded the use of glazed tablewares, paints, cosmetics, and even intentional ingestion, the most sign

80 enolic compounds for use in pharmaceuticals, cosmetics, and food industries.

81 s multiple benefits in traditional medicine, cosmetics, and food industries.

82 ons for applications in the pharmaceuticals, cosmetics, and food industries.

83 tical materials, chemical sensors, medicine, cosmetics, and food industry is presented.

84 nufacturing of pharmaceuticals, inks, foams, cosmetics, and food.

85 s in products such as detergents, adhesives, cosmetics, and for processes such as tissue culture, gen

86 tion for monitoring Pb(2+) in food products, cosmetics, and health care.

87 ccurring fatty acid widely utilized in food, cosmetics, and homeopathic supplements.

88 d as a flavouring agent in beverages, foods, cosmetics, and household products.

89 pharmaceutical, electronics, environmental, cosmetics, and hygiene industries.

90 psules for food, in chemical separations, in cosmetics, and in dynamic optics.

91 idants that are widely used in perfumery and cosmetics, and in treating disorders associated with oxi

92 er much promise for research, testing drugs, cosmetics, and medical devices, reducing animal testing

93 for antimicrobial reasons, such as fabrics, cosmetics, and medical products.

94 are exposed to Al through sources like food, cosmetics, and medication.

95 ion and in other fields such as agriculture, cosmetics, and medicine.

96 d in everyday applications, including foods, cosmetics, and other products relevant to medicine and i

97 entified in the pharmaceutical, agriculture, cosmetics, and particularly the food industries.

98 ecover valuable fractions suitable for food, cosmetics, and pharmaceutical applications.

99 es, with potential applications in the food, cosmetics, and pharmaceutical industries.

100 They have applications in the agri-food, cosmetics, and pharmaceutical industries.

101 ified through their widespread use in foods, cosmetics, and pharmaceutical products.

102 to incorporation of omega-3 FAs into foods, cosmetics, and pharmaceuticals in the future.

103 henol-formaldehyde resins, paints, lacquers, cosmetics, and pharmaceuticals.

104 uch as organic chemistry, materials science, cosmetics, and pharmaceuticals.

105 compounds in heterologous systems for food, cosmetics, and pharmaceuticals.

106 use as hosts for bioactive guests in foods, cosmetics, and pharmaceuticals.

107 tic preservative that commonly used in food, cosmetics, and pharmacies as an antioxidant.

108 y sustainable photonic pigments in coatings, cosmetics, and security labeling.

109 es and parabens, which are commonly found in cosmetics, and the risk of developing gestational diabet

110 wide variety of products including paint and cosmetics, and they are known to cause allergic contact

111 Because of the way cosmetics are used, most of the PFASs present in these p

112 ction, and products containing them, such as cosmetics, are available on the market.

113 ts shed light on the significance of certain cosmetics as a source of PFASs to WWTPs and can inform e

114 smetic cream and use it to model uptake from cosmetics as a surrogate for condensed environmental med

115 Food, feed, dietary supplements, and cosmetics as sources of genotoxicity can now be identifi

116 thodology to estimate the total PFAS mass in cosmetics as well as the corresponding mass of total org

117 active ingredients in so-called 'functional cosmetics' as well as a major role as catalysts for the

118 tial horizon to a novel family of green nano-cosmetics by green nano-processing.

119 statistics of labelling of preservatives on cosmetics can be included, the latter two approaches all

120 lavoring agent in food, pharmaceuticals, and cosmetics, can cause health issues such as liver dysfunc

121 PFASs present as intentional ingredients in cosmetics cannot be quantified with the available analyt

122 ticles (ENPs) into our air, water, medicine, cosmetics, clothing, and food.

123 a host of applications, such as electronics, cosmetics, construction, and medicine, and as a result,

124 They had used cosmetics containing ostrich egg yolk extract for approx

125 these results, we speculated that the use of cosmetics containing ostrich egg yolk extract is possibl

126 es of egg allergy in adult women after using cosmetics containing ostrich egg yolk extract to which t

127 ploitation of RS biocomponents is limited to cosmetics despite RS exploration for food fortification

128 compounds used as chemical preservatives in cosmetics, drugs, and food.

129 ubiquitous, and they are currently found in cosmetics, drugs, and foods.

130 eful in pharmaceuticals, food additives, and cosmetics due to its recently discovered biomedical acti

131 cation in medicine, immunology, diagnostics, cosmetics, ecology, cleansing and the food industry are

132 n biomedicine, nanotechnology, food science, cosmetics, etc.

133 ical industry (lubricants, paints, polymers, cosmetics, etc.).

134 that brought about great revolutions in art, cosmetics, fashion, and our lifestyle as a whole.

135 tential applications in imaging, therapy and cosmetics fields.

136 important applications in the nutraceutical, cosmetics, food and feed industries.

137 patawa fruit as a new amazonian resource for cosmetics, food and pharmaceuticals purposes.

138 Parabens, widely used as preservatives in cosmetics, foods, and other consumer products, are suspe

139 dants in foodstuffs, food preservatives, and cosmetics has proved to be very vital.

140 wn-the-drain products such as detergents and cosmetics has taken on increasing importance.

141 ts for personal care, generally perceived as cosmetics, have an important impact on everyday life wor

142 quently are exposed to cleaning products and cosmetics in the course of exploring their environment.

143 re widely used in food, pharmaceuticals, and cosmetics in the past decades.

144 e been seldom used in the pharmaceutical and cosmetics industries for preservative efficacy testing (

145 their application in the pharmaceutical and cosmetics industries has been limited.

146 bab products in the food, pharmaceutical and cosmetics industries has been observed.

147 applications in the food, pharmaceutical and cosmetics industries.

148 ntial for use in multiple pharmaceutical and cosmetics industries.

149 pplicability in the food, pharmaceutical and cosmetics industries.

150 ese products in the food, pharmaceutical, or cosmetics industries.

151 aw material in the pharmaceutical, food, and cosmetics industries.

152 is widely consumed and used in the food and cosmetics industries.

153 be explored in the pharmaceutical, food and cosmetics industries.

154 aspects of using immobilised lipases in the cosmetics industry is given.

155 1.2 ppt, which is in the range needed by the cosmetics industry.

156 m suitable for use in food emulsions and the cosmetics industry.

157 pliance and environmental stewardship in the cosmetics industry.

158 xyacetone (DHA), which is mainly used in the cosmetics industry.

159 Lauraceae used in food and drugs and in the cosmetics industry.

160 aterials as nutraceutical supplements and as cosmetics ingredients are discussed.

161 cations such as controlled release of drugs, cosmetics, inks, pigments or chemical reagents; protecti

162 (3D) printing to the spreading of foods and cosmetics into thin layers.

163 potential application in pharmaceuticals and cosmetics is severely compromised.

164 Due to concerns of possible amblyopia and cosmetics, lamellar keratectomy, sclerotomy, and conjunc

165 uld be extended to fields such as catalysis, cosmetics, life sciences, and food packaging, which can

166 Cosmetics make up one of the consumer product categories

167 kaloids), nutritional (rosemary extracts) or cosmetics (mangosteen peel extract) applications.

168 rom the San Francisco Bay Area suggests that cosmetics may account for at least 4% of the precursor-d

169 reatment plants (WWTPs), which suggests that cosmetics may contribute significantly to the load of PF

170 sources of exogenous metals (e.g., coins and cosmetics) may be transferred to, and distributed within

171 , preservatives, contact lens solutions, and cosmetics-may elicit allergic or toxic ocular diseases.

172 lers, opacifiers, catalysts, semiconductors, cosmetics, microelectronics, and drug carriers.

173 with huge prospective applications in food, cosmetics, optics, and renewable polymer industries.

174 s difficult, especially when the application-cosmetics or displays, for example-requires specific com

175 ra can be incorporated into pharmaceuticals, cosmetics, or food products without posing immediate saf

176 diagnostics, agriculture, the food industry, cosmetics, or spills of liquids.

177 dustrial applications including agriculture, cosmetics, packaging and pharmaceuticals.

178 multiple sources, including tires, textiles, cosmetics, paint, and the fragmentation of larger items.

179 consumer products (metal foodware, ceramics, cosmetics, paints, toys, spices and other foods).

180 reen (BP-3), lotion (BP-3 and parabens), and cosmetics (parabens).

181 s and asthma-related chemicals in a range of cosmetics, personal care products, cleaners, sunscreens,

182 egation to create novel structures in foods, cosmetics, personal care, and other products.

183 ndustrial sectors including materials, food, cosmetics, pharmaceutical among others employing colloid

184 Since many kinds of foods, cosmetics, pharmaceutical products, and medication conta

185 , consequently, to enlarge its use in foods, cosmetics, pharmaceuticals and agrochemicals preparation

186 orophylls and carotenoids for application in cosmetics, pharmaceuticals or in the food industry, e.g.

187 ave been approved for preclinical studies in cosmetics, pharmaceuticals, and chemicals.

188 ns are preservatives that are widely used in cosmetics, pharmaceuticals, and foods, which raise conce

189 of p-hydroxybenzoic acid) are widely used in cosmetics, pharmaceuticals, and foodstuffs as broad-spec

190 acid and are widely used as preservatives in cosmetics, pharmaceuticals, foodstuffs, including bevera

191 various applications in the fields of food, cosmetics, pharmacy, chemical engineering, materials sci

192 genic colorants illicitly added to foods and cosmetics, posing serious health risks.

193 mphipathic compounds widely used as food and cosmetics preservatives, but the mechanisms of their bro

194 in audio membranes and of hyaluronic acid in cosmetics provide some novel applications.

195 ear follow-up, low astigmatism and favorable cosmetics results were achieved.

196 Cosmetics safety should be assessed not only by the pres

197 ngredients in personal care products such as cosmetics, shampoos and perfumes.

198 bitors are of great interest in medicine and cosmetics (skin whitening compounds), but also in food a

199 n providing other sumptuary goods: pigments, cosmetics, slate, greenstone, travertine, and foreign po

200 Cosmetics, soaps and cleansers (including wet wipes), an

201 Our results indicate that the cosmetics sold in California during a one-year period cu

202 stimate the total mass of PFASs contained in cosmetics sold in California, our results shed light on

203 particles in consumer products, for example, cosmetics, sunscreens, and electrical devices, has incre

204 ired for application as colorants in paints, cosmetics, textiles, or displays.

205 derable attention in various fields, such as cosmetics, the food industry, material design, and nanom

206 ery to chemical and biological catalysis and cosmetics, the need for efficient fabrication pathways f

207 range of consumer products including soaps, cosmetics, therapeutics, and plastics.

208 ests for chicken egg white, egg yolk and the cosmetics they used were positive, and the basophil acti

209 many applications, from spreadable foods and cosmetics to direct write three-dimensional printing ink

210 lubricants, detergents, pharmaceuticals and cosmetics while medium chain fatty alcohols (C6-C12) cou

211 is an ingredient used in many sunscreens and cosmetics worldwide.