ライフサイエンスコーパス: tattoo

1 se tissue thickness subjacent to the amalgam tattoo.

2 eign material consistent with a foreign body tattoo.

3 es and approaches based on a glucose-sensing tattoo.

4 non-physiologic pigmentation is the graphite tattoo.

5 e that is applied onto skin like a temporary tattoo.

6 y identified as tattoos and one as a dubious tattoo.

7 of vascular pedicles, and use of endoscopic tattoo.

8 al drug use, 21.2% body piercings, and 25.2% tattoos.

9 mateur, professional, cosmetic and traumatic tattoos.

10 with temporary henna tattooing and cosmetic tattoos.

11 ies for the system integration of wireless e-tattoos.

12 acturing, and skin attachment processes of e-tattoos.

13 search on reducing the risks associated with tattoos.

14 and increased knowledge about the removal of tattoos.

15 Two participants underwent biopsy of their tattoos.

16 with the recurrence of raised and indurated tattoos.

17 gnostic problems of pigmented lesions within tattoos.

18 16 cases of malignant melanoma developing in tattoos.

19 one or more sessions of traditional gingival tattooing.

20 risks and complications that are related to tattooing.

21 flammation in the draining LN 2 mo following tattooing.

22 rise in microbial infections associated with tattooing.

23 e and chronic health effects associated with tattooing.

24 first forays into the practice of episcleral tattooing.

25 vae bilaterally, having undergone episcleral tattooing 7 weeks previously.

26 Gingival tattooing, a cultural practice prevalent in certain Afri

27 E-Tattoos, a unique type of wearable electronics, are defi

28 rticle offers an exhaustive exploration of e-tattoos, accounting for their materials, structures, man

29 more likely to have a history of one or more tattoos after adjustment for age, sex, and race/ethnicit

30 ith >= 1 unilateral permanent tattoo [median tattoo age = 6 years, IQR = 5] on the arm/torso complete

31 drug use, methamphetamine use, and unsterile tattooing also increase the risk of other bloodborne or

32 and further information are available on the tattoo-analysis.github.io website.

33 The epidermal tattoo and textile sensors display a good reproducibilit

34 Flexible epidermal tattoo and textile-based electrochemical biosensors have

35 These fully integrated wearable wireless tattoo and textile-based nerve-agent vapor biosensor sys

36 a nitrogen (BUN), and lactate differ between tattooed and contralateral non-tattooed skin during exer

37 here were no significant differences between tattooed and non-tattooed skin for sweat EGF, IL-1alpha,

38 here were no significant differences between tattooed and non-tattooed skin for sweat EGF, IL-1alpha,

39 th a history of cosmetic procedures, such as tattooing and body piercing, or intranasal drug use were

40 itis are being reported with temporary henna tattooing and cosmetic tattoos.

41 e importance of systematic surveys to detect tattooing and illuminate varying practices over time.

42 o avoid the transmission of hepatitis C from tattooing and piercing in prisons, homes, and other pote

43 We evaluated the risk of HCV infection from tattooing and piercing using the Meta-analysis of Observ

44 premixed gray ink; the highest occurrence of tattooing and rash onset was in November (accounting for

45 val pigmentation due to traditional gingival tattooing and review the literature on this practice.

46 nprotected sexual activity, non-professional tattooing and scarification, and needle sharing.

47 Studies that specified the venue of tattooing and/or piercing showed no definitive evidence

48 cipation, seropositivity was associated with tattoos and incarceration.

49 skin lesions had been visually identified as tattoos and one as a dubious tattoo.

50 Tattoos and piercings are increasing, especially among y

51 also should be educated on the need to have tattoos and piercings performed under sterile conditions

52 for an increased risk of HCV infection when tattoos and piercings were received in professional parl

53 Correlation between the placement of tattoos and the development of malignant melanoma remain

54 The increasing prevalence of tattoos and the frequent occurrence of adverse skin reac

55 drug use and 0.6% each in those who reported tattoos and those who reported body piercing.

56 CV included a history of injection drug use, tattooing, and older age.

57 higher rates among persons with younger age, tattoos, and previous incarceration.

58 ologic localized pigmentation is the amalgam tattoo; another, less common, non-physiologic pigmentati

59 t (AOR 2.17, 95% CI 1.27, 3.70) and having a tattoo (AOR 1.75, 95% CI 1.15, 2.68) showed significant

60 onfidence interval [CI], 1.3-8.5), unsterile tattooing (aOR = 3.4; 95% CI, 1.2-9.9), methamphetamine

61 groups (adjusted odds ratio, 2.0-3.6), when tattoos are applied in prison settings or by friends.

62 Tattoos are popular among adolescents for a variety of r

63 The graphene electronic tattoos are used to monitor arterial BP for >300 min, a

64 Treatment options for tattoos are well described and must be individualized to

65 persistent, raised, erythematous rash in the tattoo area developed in 19 persons (13 men and 6 women)

66 m a bottle of graywash ink obtained from the tattoo artist.

67 Tattoo artists involved were contacted and interviewed r

68 (HCV) infection, many studies that evaluated tattooing as a risk factor for HCV infection did not con

69 have increased, prompting a re-evaluation of tattoos as a serious public health risk.

70 htweight and unobtrusive graphene electronic tattoos as human bioelectronic interfaces.

71 Case reports of infection, tattoo-associated dermatoses, and allergic reactions to

72 gist, we began to investigate an outbreak of tattoo-associated Mycobacterium chelonae skin and soft-t

73 ycobacterial (NTM) infection after receiving tattoos at a local tattoo studio.

74 he first example of an easy-to-wear flexible tattoo-based epidermal diagnostic device combining rever

75 pt demonstration of an all-printed temporary tattoo-based glucose sensor for noninvasive glycemic mon

76 preliminary investigation indicates that the tattoo-based iontophoresis-sensor platform holds conside

77 plication of an epidermal temporary-transfer tattoo-based potentiometric sensor, coupled with a minia

78 The resulting tattoo-based potentiometric sodium sensor displays a rap

79 tattoos may easily be confused with amalgam tattoos but have only infrequently been reported in the

80 Tattoos by both professional and non-professional artist

81 Biosensors in the form of tattoos can be used to monitor metabolites in interstiti

82 Pigmented lesions in decorative tattoos cause diagnostic difficulties at a clinical and

83 ly, including para-phenylenediamine in henna tattoos, cocamidopropyl betaine in 'no tears' shampoos a

84 infection are IDU, prior transfusion, prior tattoo, combat medical work, incarceration, and multiple

85 ciated dermatoses, and allergic reactions to tattoos continue to be reported in the literature.

86 As tattoos continue to rise in popularity, the demand for t

87 As the popularity of tattooing continues to rise, so do the potential complic

88 e overview of microbial infections linked to tattoos dating back to 1820.

89 , and highly conductive electronic tattoo (e-tattoo) designed for plants, enabling immune response mo

90 implantable skin sensors or glucose sensing tattoos (discussed later).

91 These 'multilayer tattoo' DNA vaccines induced immune responses against a

92 at developed on a preexisting nevus within a tattoo during and between the phases of laser removal.

93 trate-free, and highly conductive electronic tattoo (e-tattoo) designed for plants, enabling immune r

94 using a flexible printed temporary-transfer tattoo electrochemical biosensor that conforms to the we

95 rude and fully adjusted odds ratios (ORs) of tattoo exposure by multivariate logistic regression in H

96 ople in Britain to have undergone episcleral tattooing for cosmetic purposes.

97 women) within 3 weeks after they received a tattoo from a single artist who used premixed gray ink;

98 The presence of CPV DNA was demonstrated in tattoos from one striped dolphin (Stenella coeruleoalba)

99 erium immunogenum infections after receiving tattoos from the same artist.

100 We classify e-tattoo functionalities into electrical, mechanical, opti

101 of sub-micron-thin imperceptible graphene e-tattoos (GET) is ideal for unobstructive EDA sensing on

102 Graphene electronic tattoos (GETs), whose fabrication protocol is discussed

103 ion, number of resected pedicles, and use of tattoo had a significant linear or quadratic relationshi

104 e are the focus of this study: e.g. make-up, tattoos, hairbands, clothes, endovascular embolization,

105 Tattooing has become increasingly popular throughout soc

106 Meanwhile, the increasing popularity of tattooing has led to the development of many new colours

107 The increase in popularity of tattoos has coincided with an increase in reports of cut

108 incidence of microbial infections related to tattoos has increased since 2000.

109 elf-expression in some social fringe groups, tattoos have left their maverick image behind and become

110 In cases of laser removal of tattoos, hidden suspicious nevi may be revealed graduall

111 erimentation with injection drug use, unsafe tattooing, high risk sex, travel to high endemic areas)

112 er, following an augmentation of the corneal tattoo in 2023, he developed hyperpigmentation of the sk

113 A relatively large amalgam tattoo in the esthetic zone can be adequately removed by

114 a nonpathologic lesion, such as the graphite tattoo in this case report, treatment with an autogenous

115 We documented tattooing in 27 individuals of both sexes, ranging from

116 tributed hyperpigmentation following corneal tattooing in a patient with a history of multiple proced

117 Evidence for tattooing in ancient Nubia is long-standing, although no

118 The patient initially underwent corneal tattooing in December 2014 for cosmetic rehabilitation,

119 Considering the unstoppable trend of tattooing in the population, our results are crucial in

120 al's health and the increasing prevalence of tattoos in the world's population, investigators sought

121 on techniques, motifs, and the demography of tattooed individuals.

122 cility with coincident uveitis and cutaneous tattoo induration over an 18-month period.

123 s often perceived as safer than conventional tattoos, infections still occur, with 11 cases reported

124 ied the tap water and the bottle of graywash tattoo ink as the sources of the NTM infections.

125 ntinue to rise in popularity, the demand for tattoo ink has surged.

126 od for coformulating candidate vaccines with tattoo ink in both mice and pigtail macaques.

127 ating granulomatous inflammation surrounding tattoo ink in the dermis.

128 revealed that individuals who reported gray tattoo ink in their tattoos were 8.2 times as likely to

129 on, and the possible metabolic conversion of tattoo ink ingredients into toxic substances.

130 al for a significant issue around inaccurate tattoo ink labeling in the United States.

131 Tattoo ink was likely contaminated by self-prepared dilu

132 es (5 from the implicated bottle of graywash tattoo ink, 2 from tap water, and 4 from skin biopsies)

133 te safety concerns regarding the toxicity of tattoo ink, no studies have reported the consequences of

134 e of microbial infections, with contaminated tattoo inks also contributing substantially, leading to

135 When applied to 13 tattoo inks and 68 skin samples from skin biopsies in ad

136 o identify potentially harmful substances in tattoo inks and tattooed skin.

137 Historically, tattoo inks have been underregulated in the US market.

138 the transport and accumulation of different tattoo inks in the lymphatic system using a murine model

139 new standards for the regulation and use of tattoo inks should be considered.

140 Using five commercially available tattoo inks, this new technique reliably identified nond

141 Tattooing is a ubiquitous body modification involving th

142 Tattooing is associated with HCV infection, even among t

143 Episcleral tattooing is carried out by individuals with no medical

144 phin (Delphinus delphis) and in one 'dubious tattoo' lesion detected in one other porpoise.

145 lly characterized viral DNA originating from tattoo lesions collected in Delphinidae and Phocoenidae

146 ealization of the new skin-worn non-invasive tattoo-like sensing device has been realized by amalgama

147 r periodontal treatment with a large amalgam tattoo located in alveolar mucosa on the facial aspect o

148 common than the amalgam tattoo, the graphite tattoo may be encountered in the course of routine denta

149 represent a subset of patients in whom skin tattooing may have incited an immune response leading to

150 Graphite tattoos may easily be confused with amalgam tattoos but

151 25-48 years) with >= 1 unilateral permanent tattoo [median tattoo age = 6 years, IQR = 5] on the arm

152 d where skin preservation was sufficient for tattoo observation and used multispectral imaging method

153 blood transfusion prior to 1992, history of tattoo (odds ratio [OR], 2.93; 95% CI, 1.70-5.08), comba

154 This results in intradermal tattooing of the topical product.

155 Findings suggest that permanent tattoos older than 1 year may not impact local sweat EGF

156 no studies have reported the consequences of tattooing on the immune response.

157 HRSBs: incarceration (n=69), unprofessional tattoos or piercings (n=44), alternative lifestyle pract

158 < 0.001), and history of having one or more tattoos (OR, 3.81; 95% CI, 3.23-4.49; P < 0.001) were mo

159 arge-scale graphene that is transferred onto tattoo paper, resulting in an electronic device that is

160 The increasing popularity of tattoos parallels the rise in microbial infections assoc

161 k, assessment of source water and faucets at tattoo parlors, and investigation of the ink manufacture

162 against new open mass spectral libraries of tattoo pigments.

163 The iontophoretic-biosensing tattoo platform is reduced to practice by applying the d

164 l public regarding the potential risk of the tattooing practice associated with an altered immune res

165 of this review is to present an overview of tattoo practices, complications and treatment options re

166 Surgical, cosmetic, and tattooing procedures can lead to nontuberculous mycobact

167 Although rare, the tattooing process can occasionally lead to life-threaten

168 ous (atypical) mycobacteria (NTM) during the tattooing process.

169 orthy dermatologic reaction following ocular tattooing, raising questions about potential pigment mig

170 8 skin samples from skin biopsies in adverse tattoo reactions, characteristic signal patterns of isot

171 the recognized issue of adverse reactions in tattoos, regulations remain challenging with limited dat

172 Historically, tattoo-related health and safety regulations have focuse

173 ight the historical and emerging patterns of tattoo-related infections and can inform the development

174 hich detailed the microbiological aspects of tattoo-related infections over the past two centuries fr

175 The evolving dynamics of tattoo-related microbial infections since 1820 has also

176 a significant advancement for investigating tattoo-related side effects, supporting risk assessment,

177 ents on a regular basis during the period of tattoo removal are recommended.

178 As the desire for tattoo removal increases, researchers continue to explor

179 safe, innovative and efficacious methods of tattoo removal.

180 oducts that are formed during laser-assisted tattoo removal.

181 We suggest an excision before starting laser tattoo removal.

182 The e-tattoo's biocompatibility, high conductivity, and sub-10

183 However, 23.5% who had tattoo/scarification, 29.6% who used injection drug, 33.

184 Bivariate logistic regression showed that tattoo/scarification, injection drug use, history of blo

185 Attitude and behaviors by inmates such as tattooing/scarification, injection drugs use, sharing of

186 On-body testing of the tattoo sensor coupled to a wireless transceiver during e

187 via a body-worn transceiver from the sodium tattoo sensor to a notebook while the subjects perspired

188 glucose meter underscores the promise of the tattoo sensor to detect glucose levels in a noninvasive

189 In-vitro studies reveal the tattoo sensor's linear response toward physiologically r

190 "Smart tattoo" sensors-fluorescent microspheres that can be imp

191 For safety reasons, tattoos should never be placed on pigmented lesions; if

192 laced on pigmented lesions; if they are, the tattoos should not undergo laser treatment.

193 Tattoo skin disease (characterised by irregular, grey, b

194 ations, visual acuity, clinically observable tattooed skin changes, and biopsy results.

195 iffer between tattooed and contralateral non-tattooed skin during exercise.

196 ificant differences between tattooed and non-tattooed skin for sweat EGF, IL-1alpha, IL-8, cortisol,

197 ificant differences between tattooed and non-tattooed skin for sweat EGF, IL-1alpha, IL-8, cortisol,

198 tially harmful substances in tattoo inks and tattooed skin.

199 to simultaneous inflammation of the eyes and tattooed skin.

200 effects on signal transmission across the e-tattoo-skin interface.

201 The tattoo-specific spectral libraries and further informati

202 ews and offered testing, described below, to tattoo studio clients reporting rashes.

203 infection after receiving tattoos at a local tattoo studio.

204 bottles of graywash ink provided by 2 other tattoo studios in Miami-Dade County.

205 help guide and confirm the localization but tattoos the breast.

206 Although less common than the amalgam tattoo, the graphite tattoo may be encountered in the co

207 ing T cell proliferation, but in biopsies of tattoos, these cells were selectively laden with granula

208 ast 19% of Kulubnarti individuals displaying tattoos, this investigation demonstrates the importance

209 he development of many new colours, allowing tattoos to be more spectacular than ever before.

210 scribe a method that uses conducting polymer tattoos to detect UV radiation-induced deep tissue damag

211 e presence of CPV in skin lesions other than tattoos to examine specificity and sensitivity of visual

212 In this work, a platform for enzymatic tattoo-type sensors is described and prototype devices e

213 ant BB0405 or through intradermal bb0405 DNA tattoo vaccination could provide protection against diff

214 confirmed NTM inoculation from professional tattooing were uncovered, including 5 confirmed and 26 s

215 iduals who reported gray tattoo ink in their tattoos were 8.2 times as likely to report a rash (95% c

216 Biopsies of raised and indurated tattoos were performed in 2 patients and demonstrated no

217 ns in otherwise healthy persons who received tattoos, which prompted a multiagency epidemiologic inve

218 signal measured using our conducting polymer tattoos, which supports the efficacy of our method as a

219 In skin biopsies from red tattoos with adverse reactions, different organic pigmen