ライフサイエンスコーパス: burn

1 =40% TBSA burned) and large burns (>40% TBSA burned).

2 e burn treatments when compared to the first burn.

3 tributes, at most, 10% to [INP] during these burns.

4 uccess of thinning operations and prescribed burns.

5 hence, the survival of patients with severe burns.

6 n vivo on a murine model of UVB-induced skin burns.

7 rosis, compromised immune systems, or severe burns.

8 ed emissions for the first- and second-entry burns.

9 ed to a neighboring site not scheduled to be burned.

10 rbon) is produced when hydrocarbon fuels are burned.

11 ing to the regional air pollution is garbage burning.

12 .5) enriched in particles from domestic wood burning.

13 heric carbon dioxide increase by fossil fuel burning.

14 1802 ad that disrupted Aboriginal landscape burning.

15 hat coincide with periods of intense biomass burning.

16 ated in predicting the seasonal agricultural burning.

17 , indicative of large-scale regional biomass burning.

18 rowsiness, unpleasant taste, and stinging or burning.

19 lly aged organics, from sources like biomass burning.

20 timate burn depth severity immediately after burning.

21 We experimentally burned 102 plots, for which we measured vegetation struc

22 ability Experiment, we sampled 79 stands (47 burned, 32 unburned) throughout central Saskatchewan to

23 nd significant differences in R(eco) between burnt (432 +/- 83 mg CO(2) m(-2) hr(-1) ) and intact PSF

24 es distribution models, we found these fires burnt ~97,000 km(2) of vegetation across southern and ea

25 derstudied source of INPs in natural biomass-burning aerosol emissions in addition to lofted primary

26 These mineral components produced in biomass-burning aerosol should also be studied in relation to ot

27 ng our understanding of the aging of biomass burning aerosol.

28 concentration of furfural, assuming a bitter/burned almond aroma.

29 Inclusion of BC from open burning alone does not reconcile predictions (f(biomass)

30 AL to accelerate detection of AKI in at-risk burn and non-burned trauma patients.

31 Global Disease Outcomes (KDIGO) criteria for burn and non-burned trauma patients.

32 jections, poorest walking ability, most hock burn and pododermatitis) and litter quality.

33 ovascular and coagulation effects of thermal burn and smoke inhalation in cats.

34 of plants can also alter their propensity to burn and the degree to which they are eaten.

35 Severely burned and non-burned trauma patients are at risk for ac

36 o differences in pathogen prevalence between burned and UBUB sites, risk of pathogen transmission is

37 ed colony abundance before and after fire in burned and unburned areas using a genetic mark-recapture

38 r vegetation, differed substantially between burned and unburned patches.

39 ing fire, queen abundance was higher in both burned and unburned sites, potentially due to the disper

40 ing area and body sizes were similar between burned and unburned sites.

41 -cover change in 114 study sites across four burned and unburned upland (ice-poor) and lowland (ice-r

42 f aged regional emissions, including biomass burning and coal combustion emissions from nearby region

43 quantify the total emissions due to garbage burning and its contribution to regional air quality, us

44 e function after exposure to both the candle burning and outdoor commuting compared to ambient indoor

45 lucosidase activity were strongly reduced by burning and significantly increased with 'time since fir

46 Air pollution from fossil fuel burning and traffic-related emissions can alter respirat

47 (3) the interactions between indoor incense burning and vascular disease markers upon cognitive func

48 re interactions while considering prescribed burns and forest management operations.

49 , which can be expanded to treat less severe burns and other skin defects, such as chronic diabetic w

50 centrations ([INP]) in real-world prescribed burns and wildfires.

51 ansplantation, a curative therapy for severe burns and, recently, diseases with epidermal loss, such

52 d assist the recovery of populations in both burnt and unburnt areas.

53 2% of respondents had large burns (>40% TBSA burned) and 58% reported smaller burns (TBSA <=40%).

54 en participants with small burns (<=40% TBSA burned) and large burns (>40% TBSA burned).

55 DCD (including hemorrhage, major polytrauma, burns, and poisoning).

56 Skin burns are a significant source of injury in both militar

57 Mechanical thinning and prescribed burns are effective techniques to manage fuel loads and

58 Burn injuries, particularly severe burns, are accompanied by an immune and inflammatory res

59 matic conditions in regions with the highest burned area differ from regions with highest absolute fi

60 (0.12 to 0.19 K) one year following fire in burned area globally.

61 rn US, have been increasing in frequency and burned area in recent decades.

62 composition method to satellite-derived fire burned area, we investigated the spatio-temporal evoluti

63 ous sampling errors when interrogating large burn areas.

64 h varying burn regimes (burned surrounded by burned areas [BB], burned surrounded by unburned areas [

65 rned areas [BUB], and unburned surrounded by burned areas [UBB]).

66 nd forest cover changes, population density, burned areas and livestock density.

67 recent drought causes a general reduction of burned areas, in particular in xeric savannas.

68 mportance of nocturnal chemistry and biomass burning as a global source of OOA.

69 -loaded liquid bandages as a method for skin burn assessment in settings such as emergency medicine t

70 Biomass burning (BB) emits organic gases that, with chemical agi

71 Regional biomass burning (BB) was identified as the largest contributor o

72 ulfate (SS), secondary nitrate (SN), biomass burning (BB), pyrolyzed organic carbon (OP), road dust (

73 we developed a parameterization for biomass burning BC and combined it with a BC parameterization pr

74 ass burning; however, the ability of biomass burning BC to act as an INP in mixed-phase cloud conditi

75 orption and lower warming effects of biomass burning BrC.

76 Transformations of biomass burning brown carbon aerosols (BB-BrC) over their diurna

77 e Gondwanan conifer was able to persist with burning by Aboriginal Tasmanians, despite episodic wides

78 t the positive feedback effects of landscape burning can substantially change the way people value la

79 Post-burn cardiac injury is a common finding and predictor of

80 Burn care providers are, therefore, faced with a plethor

81 ot only to give an overview and update about burn care, but also to raise awareness of the ongoing ch

82 n septic and nonseptic patients during acute burn care.

83 formed on 90 patients admitted to the Zurich Burn Center between May 2015 and October 2018 with burns

84 f the esophagus symptoms included narrowing, burning, choking, and pressure in the esophagus appearin

85 highlight that the ultrasound imaging-based burn classification approach in conjunction with the GLC

86 We show that when birch bark burns close to a vertical to subvertical hard surface, s

87 Burning coal in power plants emits more nitrogen oxides,

88 seasonal variability by regulating regional burning condition and fuel supply.

89 for pair-wise binary classification of four burn conditions in ex vivo porcine skin tissue: (i) 200

90 water filters and higher-efficiency biomass-burning cookstoves have been widely promoted to improve

91 - and postnatal exposure to HAP from biomass burning cookstoves in the control arm and LPG stoves in

92 inties on the cross-section of the deuterium burning D(p,gamma)(3)He reaction.

93 st with the real-time clinical assessment of burn degrees, particularly for discriminating between su

94 s a real-time approach for classification of burn depth based on B-mode ultrasound imaging.

95 n the HSB colorspace can be used to estimate burn depth severity immediately after burning.

96 emperature produce complex responses on area burned, directly, and through feedback relationships.

97 samples from rice straw and sugar cane leaf burning displayed unambiguous suppression or enhancement

98 numerous yet small, open, uncontrolled fires burning diverse fuels, making it difficult to quantify a

99 ion is lower at sites subjected to long-term burning due to lower encounter rates with infected ticks

100 We present a new municipal open waste burning emission inventory from India (OWBEII), at a res

101 ffects of drought- mortality on second-entry burn emissions and compared emissions for the first- and

102 ts, which contributed to higher second-entry burn emissions for two of the three burn treatments when

103 unting for oxygenated aromatics from biomass-burning emissions and their SOA formation in chemical me

104 Our results show that garbage burning emissions could increase PM(2.5) concentrations

105 ion from the synchronous increase in biomass burning emissions from deforestation in the Northern Hem

106 secondary organic aerosol (SOA) from biomass-burning emissions observed in dry (RH <20%) environmenta

107 rios, we assessed the impact of open garbage burning emissions on regional air quality.

108 te observations of fires, shows that biomass-burning emissions over the northwest IGP play a crucial

109 etals, organic carbon, vehicles, and biomass burning emissions to PM exposures that could impact heal

110 nt measurements of SOA precursors in biomass-burning emissions, and (iii) development of SOA paramete

111 One class of biomass-burning emissions, phenols, are of interest because they

112 ban locations that are influenced by biomass burning emissions.

113 ilm matrix genes of P. aeruginosa within the burn eschar.

114 ple local urban sources and regional biomass burning events.

115 We used a long-term thinning and burning experiment in a mixed-conifer forest to investig

116 re we show that fresh emissions from biomass burning exposed to NO(2) and O(3) (precursors to the NO(

117 A single laser (532 nm) burn flagged the location, and OCT evaluated the tumor-l

118 Lifetime duration of biomass burning for both cooking and house heating (exclusive bi

119 ls of air pollution attributed to solid fuel burning for household cooking and heating.

120 anada has reduced the proportion of recently burned forests (RBF; <30 years) near human communities,

121 regarding air pollution which is induced by burning fossil fuels to generate electrical power, utili

122 ening situation of global warming related to burning fossil fuels.

123 es for space heating, that currently involve burning fossil fuels.

124 distinguishable contribution of C(4)-biomass burning from peninsular India (PI).

125 drivers of climate and ecological change on burned grasslands in Xilingol, China.

126 ion is 99% with just over 30 samples in each burn group and the average multiclass classification acc

127 Participants with burns >40% TBSA scored lower for several individual item

128 enter between May 2015 and October 2018 with burns >=15% total body surface area with regard to infec

129 42% of respondents had large burns (>40% TBSA burned) and 58% reported smaller burns

130 th small burns (<=40% TBSA burned) and large burns (>40% TBSA burned).

131 en prevalence except that A. americanum from burned habitats had significantly lower prevalence of Ri

132 40% of global BC emissions are from biomass burning; however, the ability of biomass burning BC to a

133 d compounds (e.g., imidazoles) in rice straw burning HULIS was consistent with the suppression effect

134 s in combustion are unwanted consequences of burning hydrocarbon fuels.

135 n hectares of young forests (<60 years) that burned in the 2014 fires could have experienced legacy c

136 el uncertainties, we estimate that for fires burning in the current era (2016) the cooling effect fro

137 se contribution of post-monsoon crop residue burning in the northwestern states of India to surface P

138 indicate that methane emissions from biomass burning in the pre-Industrial Holocene were 22 to 56 ter

139 lls retain 80 and 95% of their peak and post-burn-in efficiencies for 1010 and 1200 hours at 60 degre

140 s called ageing(16,17), which can result in 'burn-in' effects on the display.

141 door incense use was self-reported as having burnt incense at home >= weekly basis over the past 5 ye

142 ons, including pneumonia, sepsis, wound, and burn infections.

143 Thermal burn injuries are an important environmental stressor th

144 Burn injuries are under-appreciated injuries that are as

145 Domestic cats (n = 51) sustaining burn injuries from the Tubbs (2017) and Camp (2018) wild

146 nd understand the long-term social impact of burn injuries on adult populations.

147 ong the biomarkers measured in patients with burn injuries, a one-standard deviation increase in log-

148 Burn injuries, particularly severe burns, are accompanie

149 oing challenges and stigmata associated with burn injuries.

150 adult patients (age >= 18 years) with severe burn injury (>= 20% total body surface area) to generate

151 e examination of the contributing factors of burn injury and severity.

152 adults who survived to discharge after major burn injury between 2003 and 2013 were matched to betwee

153 Accordingly, patients with burn injury cannot be considered recovered when the woun

154 ted an increase in the relative mortality of burn injury during the study period.

155 overed when the wounds have healed; instead, burn injury leads to long-term profound alterations that

156 previous studies have indicated that thermal burn injury of the skin keratinocyte in vitro results in

157 The present studies demonstrate that thermal burn injury to keratinocytes in vitro and human skin exp

158 Of note, burn injury-stimulated microvesicle particles do not car

159 blished clinical predictor of survival after burn injury.

160 etabolic and inflammatory response following burn injury.

161 d the gut microbiota in the acute setting of burn injury.

162 exist for onset of ARDS nor in patients with burn injury.

163 tus, burns to critical areas, and time since burn injury.

164 vance the realistic incorporation of biomass-burning INPs into atmospheric cloud and climate models.

165 mosphere interactions as climate warming and burning intensify in high latitudes.

166 entially due to the dispersal of queens from burned into unburned areas.

167 Indoor incense burning is (1) associated with poorer cognitive performa

168 Biomass burning is a significant global source of atmospheric pa

169 hat over 70% of organic aerosol from biomass burning is substantially influenced by dark oxidation.

170 Biomass burning is the largest combustion-related source of vola

171 the current gold standard for assessing skin burns is through tissue punch biopsies followed by histo

172 functional questions can be used to resolve burning issues on tree disease.

173 ), Local Alluvium (Al, Fe, Ti), Agricultural Burning (K, PO(4)(3-)), Sea Spray (Na, Cl(-), Se), Anthr

174 s sampled included commercial cooking, trash burning, kerosene lanterns, and diesel generators.

175 ach fire, a portion of this soil beneath the burned layer can escape combustion, leading to a net acc

176 By contrast, European burning led to the restriction of A. selaginoides to pri

177 beetle richness was significantly higher in burned logs two weeks after the fire.

178 .001), but accelerated shrub-cover losses in burned lowlands (r = -0.82, p < 0.001).

179 ere compared between participants with small burns (<=40% TBSA burned) and large burns (>40% TBSA bur

180 Organic burn markers are observed in K-Pg boundary records globa

181 The burnt material consists of bone, charcoal and, possibly,

182 site as dead and partially 'pyrolysed' (i.e. burnt) material that has long residency times and consti

183 hermore, the synchronization of flowering by burning may improve mating opportunities, reproduction,

184 the recently updated Walker-Mason rat scald burn model, we demonstrated that Pseudomonas aeruginosa

185 vitro and attenuating infection in a porcine burn model.

186 nt and make electrified heating cheaper than burning natural gas.

187 Three billion people burn nonclean fuels for household purposes.

188 primary versus secondary sources of biomass-burning OA (BBPOA versus BBSOA) and BrC in wildfire plum

189 ical-driven oxidation on the fate of biomass-burning OA and BrC in daytime wildfire plumes and point

190 brew samples was the guaiacol with phenolic-burnt odour.

191 Household burning of biomass or kerosene, especially without a chi

192 investigated the relationship between indoor burning of biomass, kerosene, and natural gas with the s

193 The burning of birch bark near suitable surfaces provides us

194 ombustion processes on land (e.g., wildfire, burning of fossil fuels) enters aquatic systems as disso

195 Air pollution from indoor burning of mosquito repellants is a potential anticipato

196 sites, attributed to the prevalence of open burning of waste (particularly e-waste) across Africa.

197 estigate the impacts of long-term prescribed burning on human disease risk.

198 aled no differences on the effect of residue burning on macronutrient concentration over time.

199 Till recently, the effect of crop residue burning on the air quality in Delhi has not been fully q

200 our understanding of the effects of biomass burning on the environment and climate.

201 l and life-threatening cases, such as severe burns on >30% of total body surface area and EB.

202 with farmyard manure (FYM) or pea vines, no burn or spring burn with application of N fertilizer (0,

203 however, with some species preferring either burned or unburned logs.

204 sting and that are usually removed by either burning or grinding and scattering them on fields.

205 n 2007 and 2017, with deep partial-thickness burns or delayed healing provided blood samples for geno

206 ons to severe injury including major trauma, burns, or hemorrhagic shock (HS).

207 have identified the high OP of fresh biomass burning organic aerosols (BBOA), it remains unclear how

208 d, but not between years, suggesting disease burnt out with periodic reintroduction.

209 re satisfied with leadership, they felt less burned-out and strained in interpersonal relationships,

210 tburn should be considered when retrosternal burning pain or discomfort persists despite maximal (dou

211 Activation of lipid-burning pathways in the fat-storing white adipose tissue

212 emperature of the operating room can improve burns patient outcomes, but risks increased cognitive im

213 Liver dysfunction is common in burn patients and gut dysbiosis is an understudied aspec

214 s aeruginosa is an opportunistic pathogen in burn patients and individuals with cystic fibrosis (CF),

215 Adult burn patients, admitted between 2007 and 2017, with deep

216 observed in all the examined allografts from burn patients.

217 lted in an increased frequency of veterinary burn patients.

218 resuscitation improves clinical outcomes of burn patients; however, its execution in resource-poor e

219 3-D laser system that can generate a square burn pattern of <10 x 10 mum at the sample surface.

220 redict lower cumulative CO(2) emissions from burned peat after 1-3 years.

221 mal equilibrium with the fuel throughout the burn phase.

222 to discuss the aqueous processing of biomass-burning phenols in cloud/fog water versus aerosol liquid

223 ratus to measure K(H) for a suite of biomass-burning phenols that span a wide range of air-water part

224 Forest Inventory and Analysis data from 989 burned plots.

225 stinal tract and includes epigastric pain or burning, postprandial fullness, or early satiety.

226 atmospheric carbon dioxide and methane from burning, preparing, and maintaining these field systems

227 NP of the COMT gene are associated with post-burn pruritus and scarring.

228 characteristics in an intact and a degraded burnt PSF in Brunei Darussalam affected by seven fires o

229 no significant difference between intact and burnt PSF with a modern signature for both CO(2) and CH(

230 A burning question for the field is whether we will retros

231 ic study reported here of the by-products of burning recorded in layer X suggests the presence of ant

232 ing that these unexpected benefits from coal-burning reduction may be widespread.

233 reduced tick abundance at sites with varying burn regimes (burned surrounded by burned areas [BB], bu

234 Sepsis is the primary cause of burn-related mortality and morbidity.

235 location, and OCT evaluated the tumor-laser burn relationship; laser treatment was then continued in

236 Localization and tumor-laser burn relationships were accurate in 11 of 11 tumors (100

237 The resulting burns remain sensitive to touch for weeks, but it is unk

238 The treatments included: no burn residue incorporation with farmyard manure (FYM) or

239 related with potassium for the domestic wood burning sample.

240 nd subjective changes in mature hypertrophic burn scars treated with a fractional ablative carbon dio

241 preserve, with management units on different burn schedules, we investigated Echinacea mating scenes,

242 Machine learning augments burn sepsis prediction.

243 gression (LR) identified seven predictors of burn sepsis when controlled for age and burn size (OR 2.

244 tomatically produce ML models for predicting burn sepsis.

245 d gut dysbiosis is an understudied aspect of burn sequelae.

246 els predicted maximum occupancy rates across burn severity levels but only one species occurred most

247 l method for the early visualization of skin burn severity using a topically applied fluorescein-load

248 Savanna burning shifted the catchment to a net C source for seve

249 up to an annual 9% growth in western forests burned since 1984, and 5 day earlier snow disappearance

250 gnificantly higher soil respiration rates in burned sites.

251 vironmental selection pressure was higher in burned sites.

252 s of burn sepsis when controlled for age and burn size (OR 2.8, 95% CI 1.99-4.04, P = 0.032).

253 ression models examined associations between burn size and LIBRE Profile scale scores with adjustment

254 Burn size is an established clinical predictor of surviv

255 Increasing burn size was found to be negatively associated with sel

256 les, including race/ethnicity, age, sex, and burn size, the GG homozygotes demonstrated worse scarrin

257 sed 562 participants with data available for burn size.

258 We show that burned slopes are measurably smoother than vegetated slo

259 ection rates (GMR = 0.43), compared to areas burning smokeless coal.

260 g linear mixed effects models, we found that burning smoky coal was associated with higher outdoor Ba

261 HULIS showed negligible impacts, two biomass burning source HULIS samples from rice straw and sugar c

262 Burned stands have very few regenerating A. selaginoides

263 dels of color images from a four day porcine burn study demonstrate that colorimetric changes within

264 this study to drive best-practices for acute burns surgery and design work to enable burns teams to m

265 ings have not been studied in the context of burns surgical teams.

266 lying medical conditions, such as those with burns, surgical wounds or people with cystic fibrosis.

267 bundance at sites with varying burn regimes (burned surrounded by burned areas [BB], burned surrounde

268 mes (burned surrounded by burned areas [BB], burned surrounded by unburned areas [BUB], and unburned

269 ween October 2014 and December 2015 from 601 burn survivors aged >=18 years with >=5% total body surf

270 Burn survivors had increased mortality related to trauma

271 nalysis of a cross-sectional survey of adult burn survivors.

272 east pain, (2) bother from itching, stinging/burning, swelling, or hurting of the treated breast, and

273 (>40% TBSA burned) and 58% reported smaller burns (TBSA <=40%).

274 cute burns surgery and design work to enable burns teams to maintain their cognitive stamina, lower t

275 usted regression models, patients with large burns tended to score lower on the Social Activities and

276 more typically occur as low-severity surface burns that arise in the dormant season when vegetation i

277 After a burn, the innate immune system is activated with subsequ

278 NaOH causes a chemical burn to the corneal tissue, simulating a disease associa

279 arcoal production and use, including plastic burning to initiate combustion, release large quantities

280 th adjustments for sex, current work status, burns to critical areas, and time since burn injury.

281 with >=5% total body surface area (TBSA) or burns to critical areas.

282 Severely burned and non-burned trauma patients are at risk for acute kidney inju

283 ate detection of AKI in at-risk burn and non-burned trauma patients.

284 e Outcomes (KDIGO) criteria for burn and non-burned trauma patients.

285 eviously derived and internally validated in burn, trauma, and medical patients at Loyola University

286 nd-entry burn emissions for two of the three burn treatments when compared to the first burn.

287 rline the significance of increasing biomass burning under the recent climate change.

288 nvestigate (1) the effects of indoor incense burning upon cognition over 3 years; (2) the association

289 d gastric cancer were lower when biomass was burned using chimney-equipped heating-stoves (strata dif

290 Duration of exclusive kerosene burning using heating-stoves without chimney was associa

291 hich dates to the year ~2004 CE, when a fire burned vegetation over the cave; n-alkanes were detected

292 The burn victim's inherent state of hyperinflammation freque

293 Scars are a serious health concern for burn victims and individuals with skin conditions associ

294 Further studies in veterinary burn victims are warranted and serve as a translational

295 Indoor incense burning was associated with reduced performance across m

296 efficiency of in-stream nitrate in recently burned watersheds.

297 rtilizer (0, 45, and 90 kg ha(-1)), and fall burn wheat residue incorporation.

298 g between superficial and deep second degree burns, which is challenging in clinical practice.

299 manure (FYM) or pea vines, no burn or spring burn with application of N fertilizer (0, 45, and 90 kg

300 (2) the associations between indoor incense burning with the brain's structure and functional connec

301 dels, including the surgical wound, abscess, burn wound, and acute pneumonia models.

302 xist regarding diagnostics and management of burn wounds in veterinary patients and current knowledge

303 odels including mouse deep partial-thickness burn wounds.

304 eadily formed biofilms within full-thickness burn wounds.