ライフサイエンスコーパス: clothing

1 hotoprotection (sunscreen and sun-protective clothing).

2 and 3 conveyed SES with visual antecedents (clothing).

3 ficantly different for the mannequin without clothing.

4 horticultural leaves, cocktail glasses, and clothing.

5 money received was spent on debts, food, and clothing.

6 and seamlessly transplanted as a biological clothing.

7 advances in robotics, prosthetics and smart clothing.

8 ut enhanced certain chemicals related to the clothing.

9 e equipment requirements related to hair and clothing.

10 imity and physical contact with contaminated clothing.

11 d as decorations in ancient architecture and clothing.

12 eme climatic conditions without any adequate clothing.

13 eeds such as health, education, housing, and clothing.

14 ntitatively maps sweat retention in underarm clothing.

15 idence for the effect of insecticide-treated clothing.

16 d distribution of relief items like food and clothing.

17 ents, such as face-masks and water-repellent clothing.

18 generation of smart textile and intelligent clothing.

19 ariability in baby soap and lowest in cotton clothing.

20 detection system that can be integrated into clothing.

21 personal consumption, for example, food and clothing.

22 rces to other indoor compartments, including clothing.

23 erience, such as skin, tissue, textiles, and clothing.

24 rt, especially for sportswear and protective clothing.

25 ing the use of eyewear, hats, and protective clothing.

26 er of allergens takes place via contaminated clothing.

27 ocedures; increased household bills; and new clothing.

28 mmon hospital materials: smooth 100% cotton (clothing), 100% cotton terry (towels), 60% cotton-40% po

29 re rarely used (<25%) except for specialized clothing (33%), equipment repositioning (59%), and seati

30 espectively; P =.04) and need for protective clothing (8% v 23%, respectively; P =.04).

31 er suggest that deploying this adaptive warm clothing across 20 cities in China could extend the dura

32 These results support the hypothesis that clothing acts an efficient conveyer of soluble semivolat

33 Analogously, clothing acts as a reservoir for biotic and abiotic part

34 ikely to report never/rare use of protective clothing (adjusted prevalence ratio [aPR], 1.28; 95% CI,

35 espectively, 9.2, 6.4, 5.8, and 5.4 for silk clothing and 8.4, 6.6, 6.0, and 5.4 for standard care.

36 bjects were measured while they wore minimal clothing and a head cap.

37 the subjects must wear close-fitting minimal clothing and be able to stand motionless for 10 s (norma

38 least once-weekly bathing and laundering of clothing and bedding.

39 human-centric analysis, involves segmenting clothing and body parts for individual association.

40 ained from the analysis of multiple types of clothing and elements, such as sinew thread and gut skin

41 n that includes sun avoidance and protective clothing and eyeware in addition to sunscreens.

42 us, are blood-feeding parasites that live in clothing and feed several times per day.

43 ion, paving the way for innovations in smart clothing and fiber/textile actuators.

44 her fibres to create a wide range of fashion clothing and household textiles.

45 els of nicotine on indoor surfaces-including clothing and human skin-this recently identified process

46 avelengths can reach key organs even through clothing and likely promote mitochondrial function count

47 he necessity to produce efficient protective clothing and masks against biohazard and chemical threat

48 Consumer products such as clothing and medical products are increasingly integrati

49 Crops provide food, clothing and other important products for the global pop

50 s used to prepare anti-counterfeit afterglow clothing and paper.

51 s of shade seeking and use of sun protective clothing and reported higher rates of sunbathing and ind

52 re of their surroundings, as humans do using clothing and shelter.

53 5%) and 39/141 (28%) of children in the silk clothing and standard care groups, respectively.

54 t MEL-based compounds are abundant in infant clothing and suggest that this group of compounds could

55 ld (seeking shade and wearing sun-protective clothing and sunscreen) using a 5-point Likert scale, du

56 es of UV radiation and using photoprotective clothing and sunscreens.

57 In the Andes, finely produced clothing and textiles containing multicolored feathers o

58 creases women's intentions to wear revealing clothing and that it does so by increasing women's anxie

59 the material used in the sport equipment and clothing and their extensive exposure may increase the i

60 test the hypothesis that dust collecting on clothing and transferring to laundry water is a source o

61 Biobased fibers are widely used in clothing and wet wipes and can accumulate in soils throu

62 emove or alter specific articles of genomic "clothing" and restore normal cellular function.

63 nologies, such as electronic circuits, smart clothing, and building environment control systems.

64 resilient to the high strains encountered in clothing, and can be machine laundered.

65 dealt with the impact of physical activity, clothing, and environmental factors on CBT regulation un

66 s) into our air, water, medicine, cosmetics, clothing, and food.

67 from novel high-voltage power sources, smart clothing, and internet of things.

68 ng of common dielectric materials like hair, clothing, and leaves.

69 ered mosquito repellents, wearing protective clothing, and limiting outdoor exposure from dusk to daw

70 ash tracked back from fire events via boots, clothing, and other equipment as well as specialized equ

71 re, relative humidity (RH), skin coverage by clothing, and participants' age were varied in a control

72 e basic necessities of life, including food, clothing, and shelter.

73 form of sun avoidance, regular cover-up with clothing, and sunscreen application.

74 washing, general cleanliness of the mother's clothing, and the type of room assigned for cooking were

75 Drinking, drugs, immodest clothing, and unruly music and dance are condemned as st

76 V protection, including use of sunscreen and clothing, annual cases of skin cancer continue to rise.

77 more, which are integral components of smart clothing applications.

78 n (aPR, 1.34; 95% CI, 1.11-1.62), protective clothing (aPR, 1.27; 95% CI, 1.15-1.42), and shade (aPR,

79 ither our skin nor the textiles that make up clothing are capable of dynamically controlling this opt

80 al period and first trimester, and layers of clothing are important risk factors for SIDS among North

81 Results demonstrate that carpet and clothing are likely sources of PFASs in landfill leachat

82 Discarded carpet and clothing are potential sources of per- and polyfluoroalk

83 n Days 3 and 4, participants wore precleaned clothing as an exposure intervention.

84 A growing body of evidence identifies clothing as an important mediator of human exposure to c

85 n from the apparel supply chain is synthetic clothing as mismanaged waste either in the country of it

86 rflow sensor can be directly integrated into clothing as stylish designs without sacrificing comfortn

87 esign of more effective sport and protective clothing, as well as thermoregulatory models.

88 acquisition, retention, and transmission of clothing-associated contaminants and the consequences of

89 plications span packaging, house-hold goods, clothing, automotive components, electronics, optical ma

90 We hypothesized that introducing copper into clothing, bedding, and other articles would provide them

91 lothing had reduced the infectious volume on clothing by 80% (5-95%: 26-99%).

92 ally released from, for example, impregnated clothing by assessing the release of silver and changes

93 Clothing can act as a source, a barrier, or a transient

94 Evidence suggests that while clothing can be protective by acting as a physical or ch

95 nsion and physical contact with contaminated clothing can occasionally transmit SARS-CoV-2 between hu

96 The results indicate that precleaned clothing can significantly reduce environmental exposure

97 roximity detection for many surfaces such as clothing, car bodies and robotic carapaces.

98 monly encountered in forensic work including clothing, cardboard, glass, concrete, asphalt, and alumi

99 s, including China, as a stain repellent for clothing, carpets and draperies, but it has been banned

100 e, fuel stains, worn medical face mask, worn clothing, cheese, ham, and fruits.

101 ay weekly plant-based diet (-3.3%), reducing clothing consumption (-2.8%), and others, can together r

102 l greenhouse gas emissions, driven by rising clothing consumption and the proliferation of fast fashi

103 ies, we hypothesized that dermal uptake from clothing could contribute to the body burden of this com

104 els, suggest that dermal uptake of BP-3 from clothing could meaningfully contribute to overall body b

105 e effect of indoor temperature and humidity, clothing coverage (amount of exposed skin), and indoor o

106 d the influence of several personal factors (clothing coverage and age) and environmental parameters

107 NCA emissions were dependent on clothing coverage, occupant age, air temperature, and hu

108 to the stimuli briefly (129 ms), warned that clothing cues are non-informative and instructed to igno

109 ere they modified aspects of their identity (clothing, cultural markers) to fit in.

110 ering experiment, the EMEL concentrations in clothing decreased on an average by ~60 and 90% when was

111 al products including automotive lubricants, clothing, deodorants, sunscreens, and cosmetics and can

112 less likely to spend on everyday activities (clothing [difference, -9.1 percentage points (pp); 95% C

113 e likely to transmit MRSA to HCWs' hands and clothing during clinical care is important so that infec

114 tamination of healthcare workers' protective clothing during routine care of patients with multidrug-

115 h of exposure, participants wore their usual clothing during the collection of urine samples for the

116 eir manufacture and chemicals that adhere to clothing during use and care.

117 ssesses the state of knowledge regarding how clothing, during wear, influences exposure to molecular

118 Subjects were weighed in light clothing each morning, and their weight was corrected to

119 ipant tying a knot in ribbons worn under the clothing each time they had an episode of urinary leakag

120 apon stockpiles, protection (via coating) of clothing, equipment and buildings, and containment of ag

121 s show, for the first time, how leaving worn clothing exposed in sleeping areas when travelling can b

122 Respiratory viruses may remain infectious on clothing/fabrics and environmental surfaces for hours to

123 only by controllable appearance cues (e.g., clothing, facial expressions) as shown previously, but a

124 tive-based NO(2) sensors, for integration in clothing fail to survive standard wash cycles due to the

125 ensity polyethylene (HDPE), and microplastic clothing fibers were added to soil containing the endoge

126 integrating air quality sensors on washable clothing for high spatial resolution (< 25 cm(2))-on-bod

127 Permethrin-impregnated clothing for the prevention of tick bites has been shown

128 (BFRs) and organophosphate esters (OPEs) by clothing from indoor air and transfer via laundering to

129 atic patients (7/8); (9) usage of protective clothing/gloves (8/8); (10) proper measures during outbr

130 elatively rapid viral inactivation on cotton clothing had reduced the infectious volume on clothing b

131 als used in the production of archaeological clothing has been based on the analysis of macro- and mi

132 wo kinds of humidity-induced, bendable smart clothing have been designed to reversibly adapt their th

133 me of infectious particles on the occupant's clothing immediately after work was 4800 mum(3) (5th-95t

134 cles (0.5-20 mum) from a primary source onto clothing in a nonhealthcare setting and subsequent resus

135 The role of clothing in the management of eczema (also called atopic

136 ring optimized electromagnetic patterns onto clothing in this way, we demonstrate a washable electron

137 Chemicals of concern have been identified in clothing, including byproducts of their manufacture and

138 and laboratory studies suggest that everyday clothing influences the transdermal uptake of semivolati

139 ordinated assistance through our autonomous, clothing-integrated exoskeleton.

140 owever, achieving these functionalities with clothing is challenging because of limitations in the el

141 Thermal regulation in warm clothing is essential for enhancing human comfort in col

142 We show that (1) soiled clothing is significantly more attractive than clean clo

143 Silk clothing is unlikely to provide additional benefit over

144 By embedding multiple sensors into everyday clothing, it is possible to simplify having to put on in

145 l repellents (VPSRs) and insecticide-treated clothing (ITC) could address these gaps.

146 in detection of a fluorinated compound on a clothing item.

147 r circuit that learns to classify digits and clothing items from the MNIST and Fashion MNIST datasets

148 suite of PFAS and MEL compounds in 86 infant clothing items.

149 Votive objects, furniture, clothing, jewelry, and importantly, food including bread

150 However, traditional warm clothing lacks the ability to adapt to dynamic changes i

151 Hispanics seek shade and wear sun protective clothing less often than Spanish-acculturated Hispanics

152 nction of temperature (25.1-32.6 degrees C), clothing (long-sleeved shirts/pants or T-shirts/shorts),

153 lightweight, easily integrable into regular clothing, made using scalable fabrication techniques, an

154 al cleaning activities (e.g., dish-washing), clothing maintenance (e.g., laundry), and general housew

155 ackets or sweaters: four from one name-brand clothing manufacturer (three majority polyester fleece,

156 Secondhand clothing markets are often promoted as a sustainable alt

157 study of arctic or subarctic indigenous skin clothing material, known for its design and ability to k

158 shampoos and cleansers, and disperse dyes in clothing materials.

159 ition as building, packaging, decoration and clothing materials.

160 By accumulating such contaminants from air, clothing may function as a transport vector and source o

161 f sleeping humans and we suggest that soiled clothing may present a similarly attractive cue, allowin

162 tances (PFAS) to indoor materials, including clothing, may prolong the residence time of PFAS indoors

163 A few clothing-mediated exposure studies have characterized th

164 by acting as a physical or chemical barrier, clothing-mediated exposures can be substantial in certai

165 Long clothing (more covered skin) was found to reduce the tot

166 This research demonstrates how clothing-mounted IMU readings can be used to identify 4

167 00% accuracy, illustrating the potential for clothing-mounted sensors to be used in posture classific

168 tiles), where electronic devices embedded in clothing need to stretch and bend with the body.

169 For adults and seniors (long clothing), NH(3) emissions are estimated to be 0.4 mg h(

170 earm discharge was used as an analog for the clothing of a shooting victim or a suspect discharging a

171 r through direct contact or via the hands or clothing of health care workers.

172 ts reactions with the exposed skin, hair and clothing of human occupants.

173 iations between SIDS and 2 or more layers of clothing on the infant (adjusted odds ratio [aOR], 6.2;

174 ting) and behavioral (peeling off a layer of clothing or seeking an iced beverage).

175 fy people by repetitively sniffing pieces of clothing or the body odor of family members.

176 by organisms that live on or in the skin, on clothing, or in the environment and commonly cause pruri

177 searching for your car, a particular item of clothing, or just obeying traffic lights, in everyday li

178 ion mode: contact (n = 4), vehicle (bedding, clothing, other fabric, and medical equipment; n = 2), a

179 Wearing the same clothing over several days reduced the level of compound

180 educed the level of compounds generated from clothing-ozone reactions.

181 During use of outdoor clothing, per- and polyfluoroalkyl substances (PFASs) ca

182 icies (8%), 10 eyewear policies (10%), and 7 clothing policies (7%) mentioned sun protection as the i

183 haracterization of animal materials used for clothing production in the Nuulliit archaeological conte

184 marine and terrestrial mammals were used for clothing production.

185 plied in combination with permethrin-treated clothing, protection against bites of nearly 100% can be

186 onsumption is positively correlated with new clothing purchases (r = 0.58, p < 0.01), particularly am

187 Faces were shown with different upper-body clothing rated by independent judges as looking 'richer'

188 Release in the clothing reactors was largely due to perfluorooctatonic

189 For carpet and clothing reactors, the majority of PFAS release was not

190 Clothing reduced wavelength intensity but was not a barr

191 ted to better quantify, predict, and control clothing-related exposures.

192 For clothing, release was more dependent on sample heterogen

193 ation, high stability, and scalability, this clothing represents a notable supplement to existing the

194 , particularly school uniforms, to assess if clothing represents a significant route of exposure to p

195 Using intelligent textiles for clothing represents one possibility for weavable superel

196 h integrates electronic functionalities into clothing, represents the future of healthcare and ubiqui

197 re performed on a mannequin with and without clothing RESULTS: All subjects were measured with 3DPS a

198 Twisted fibres provide the basis for clothing, rope, bags, nets, mats, boats, etc.

199 papules and hyperpigmentation in areas where clothing seams contact skin.

200 leaning surfaces, gas separators, protective clothing, sensors, and many others.

201 Rare/never use of sunscreen, protective clothing, shade; multiple sunburns within the past year;

202 res: Rare/never use of sunscreen, protective clothing, shade; multiple sunburns within the past year;

203 core the effectiveness of SVMs in predicting clothing size categories and emphasise the intricate rel

204 component analysis-SVM (PCA-SVM) models for clothing size prediction via 3D body scanning data.

205 generated by human subjects radiates off the clothing surface, allowing detection by an infrared came

206 aves, leading to less obvious visuals on the clothing surface.

207 on the ice-nucleating ability of fibers from clothing textiles (CTs), which are commonly shed from th

208 iculus humanus humanus) are insects found on clothing that travel to the skin for blood meals.

209 Before clothing, the nonretractable human penis would have been

210 is influenced by the type and history of the clothing; the nature of the contaminant; and by wear, ca

211 o death in September for wearing "un-Islamic clothing," they unintentionally restored the long-silent

212 is significantly more attractive than clean clothing to active bed bugs moving within a bedroom size

213 nation of infectious virus from contaminated clothing to appliance surfaces and other household surfa

214 The metamaterial can be patterned onto clothing to form a scalable, customizable network, enabl

215 hirts (aOR, 1.89; 95% CI, 1.52-2.33) or long clothing to the ankles (aOR, 1.56; 95% CI, 1.28-1.90).

216 ps were more likely to seek shade, wear long clothing to the ankles, and wear long-sleeved shirts but

217 e, wearing long-sleeved shirts, wearing long clothing to the ankles, wearing hats, and wearing caps m

218 he effect of temperature, relative humidity, clothing type, and age was investigated for whole-body e

219 gnizable in the crawling traces show that no clothing was present between limbs and the trampled sedi

220 To make outdoor clothing water- or dirt-repellent, durable water-repelle

221 ed personal care products (4746 [51.4%]) and clothing/wearing apparel (1674 [18.1%]).

222 odel landfill reactors filled with carpet or clothing were monitored under biologically active and ab

223 ironmental specimens (e.g., from bedding and clothing) were obtained.

224 ial contexts that involve a "wolf in sheep's clothing," which may reflect age-related difficulties in

225 bility by 82.8% compared to traditional warm clothing with an unchanged thickness of 13 millimeters.

226 ding on the tick species and life stage, and clothing worn by the host.

227 potentially due to multiple layers of soiled clothing worn during winter.

228 ple levels of abstraction ("parka", "coat", "clothing"), yet human observers consistently name object