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1 smokers (33.5%) than in the BE group (52.6% smokers).
2 or poor (PR, n = 7; including five cigarette smokers).
3 unger and less likely to be hypertensive and smokers.
4 are needed to assess this within abstaining smokers.
5 ous activity in the resting state in chronic smokers.
6 oft tissue status in healthy smokers and non-smokers.
7 only lysine was depleted in biofilm from non-smokers.
8 nerability in 2 independent studies of adult smokers.
9 ing augmented risk to periodontitis, such as smokers.
10 ater opportunities for detection among never smokers.
11 nd in patients with COPD compared with never-smokers.
12 ive; 22% were diabetic; and 15% were current smokers.
13 ost all of which are affected only in female smokers.
14 hip between ambient PM2.5 and LC among never smokers.
15 atio to forced vital capacity (FVC) in never-smokers.
16 erapy may also result in clinical benefit in smokers.
17 ever vs current smokers, and never vs former smokers.
18 ibution in non-alpha-1 antitrypsin-deficient smokers.
19 CHD protection in never-smokers than in ever-smokers.
20 ed among ADHD smokers compared with non-ADHD smokers.
21 altrexone was superior to placebo only among smokers.
22 can American (AA) and European American (EA) smokers.
23 s old and 47% male with 47.2% current/former smokers.
24 on has been shown to increase quitting among smokers.
25 D2R did not differ between nonsmokers and ex-smokers.
26 contribute to the loss of CHD protection in smokers.
27 smoked and a reference group of twelve never smokers.
28 scores compared with both nonsmokers and ex-smokers.
29 ncreased striatal activation only among ADHD smokers.
30 ion of nondrug and drug rewards in abstinent smokers.
31 ver, ex-drinkers/smokers or current drinkers/smokers.
32 ayed loaded (DL) implants in smokers and non-smokers.
33 ssion was lower in COPD patients compared to smokers.
34 creased behavioral aggression seen in active smokers.
35 disease in normal-appearing lung regions in smokers.
36 correlated with years of smoking across the smokers.
37 volving healthy individuals, asthmatics, and smokers.
38 o smokers having 16.8% lower values than non-smokers.
39 or clinical effect either in non-smokers or smokers.
40 among those younger than 70 years and never-smokers.
41 table associations were observed among never smokers.
42 er expression in COPD current compared to ex-smokers.
43 of the asthmatic smokers compared to the non-smokers.
45 lyzed D2R availability measures of 8 current smokers, 10 ex-smokers, and 18 nonsmokers who were scann
46 ents (screening cohort) encompassing 8 never-smokers, 10 smokers without airflow limitation, and 12 s
49 ysis of nicotine dependence, totaling 38,602 smokers (28,677 Europeans/European Americans and 9925 Af
50 patients as nonsmokers (< 3.1 ng/mL), light smokers (3.1-20.9 ng/mL), or heavy smokers (>/= 21.0 ng/
51 patients in the irregular Z-line group were smokers (33.5%) than in the BE group (52.6% smokers).
54 full-term pregnancy <30y of age (79%), never-smokers (56%) with body mass indexes (BMIs) of <29.9( )k
55 ean age, 47 [SD, 16.0] years; 63% women; 17% smokers; 77% phlegm; 70% shortness of breath; 47% wheezi
57 ive risk vs never-smokers was 3.4 for former smokers (95% confidence interval [CI] 1.3, 9.5; P = .02)
62 n 30 years old, a female, an ever water pipe smoker, an ever alcohol consumer are significantly assoc
63 20 positive measurements above the LOD, with smoker and nonsmoker DNA containing 3.1 and 1.3 BPDE-N(2
64 5 doses were combined and applied to current smoker and nonsmoker lung cancer and cardiac mortality r
66 r, approximately 4% for long-term continuing smokers and 0.3% for nonsmokers; and cardiac mortality,
67 Here, we use GWAS data from 51,080 current smokers and 190,178 nonsmokers (87% European descent) to
71 is up-regulated and nuclear translocated in smokers and COPD, and their expression is closely relate
72 ure, sex differences were present in both ex-smokers and current smokers for cigarettes per day (P fo
73 oor oral health and oral health habits among smokers and determine if trying to quit smoking is assoc
74 her smoker nor drink, only patients who both smokers and drinkers were associated with reduced surviv
75 s recruited to SPIROMICS, 2499 patients were smokers and had available blood counts, and so were stra
76 both genders but slightly stronger in former smokers and in participants diagnosed with squamous cell
77 NA methylation and comparing smokers, former smokers and never smokers in two Swedish cohorts, differ
84 iology of periodontal disease progression in smokers and suggest that focused therapies that target k
85 d inflammatory functioning compared with non-smokers and that constituents of tobacco smoke other tha
87 ore likely to be reported among female never smokers and those who had been exposed for >/=20 years.
88 o task; both reductions were "normalized" in smokers (and increased in nonsmokers) after acute nicoti
89 nce was performed, with group (smoker vs non-smoker) and genotype as factors, thereby controlling for
90 individuals have zero exposure (e.g., never smokers) and among those exposed the variable has a cont
91 mortality rate difference (current vs former smokers) and the probability of cancer being mutagen-ind
94 ability measures of 8 current smokers, 10 ex-smokers, and 18 nonsmokers who were scanned with positro
95 , lower/upper quartile: 49.8/68.3 years; six smokers, and 9 IL-1 positive) were included for analysis
96 rationale for the higher AD prevalence among smokers, and indicate that certain forms of lead in part
99 sensitivity analysis in the subset of never-smokers, and these two probes are known to be strongly a
100 opausal women and in smokers compared to non-smokers, and was positively correlated with urinary MDA.
101 nts with higher WBC were more often younger, smokers, and with less comorbid risk factors compared wi
102 contained similar doses of nicotine as human smokers are exposed to, we argue that our model mimics h
103 ycotinine/cotinine) computed, characterising smokers as slow (NMR < 0.31) or normal (NMR >/= 0.31) me
104 dence interval (CI): 1.28, 3.68) and being a smoker at the time of enlistment (HR = 1.91, 95% CI: 1.3
105 iation was observed only in past and current smokers at the end of follow-up [HR=1.00 (95% CI: 0.94,
106 ients who are alcohol drinkers and long-term smokers before diagnosis have a significantly higher ris
108 ate-induced DA release tended to be lower in smokers but the difference was not significant (p=0.08).
109 vs 3.87% in smokers with none; P < .0001) in smokers, but did not increase risk of HCC in nonsmokers.
112 t vitamin C may reduce TB risk among current smokers by ameliorating oxidative stress, while vitamin
113 l that vitamin C supplementation to pregnant smokers can lessen the impact of maternal smoking on off
115 ausal compared to premenopausal women and in smokers compared to non-smokers, and was positively corr
119 ) were statistically significantly higher in smokers compared with non-smokers in patients with IL an
120 ses to external stimuli in chronic cigarette smokers compared with nonsmokers, only a few studies ass
122 uffs was higher than the amount inhaled by a smoker consuming 10 conventional cigarettes per day.
123 erceived oral symptoms (OSs) among cigarette smokers (CSs) (group 1), individuals exclusively vaping
125 5% CI: 0.4, 2.5) larger RV mass among former smokers, current smokers, and persons with emphysema, re
127 e data support the hypothesis that asthmatic smokers develop neutrophilic inflammation of the airways
128 significant advances in screening high-risk smokers, diagnostic modalities, and chemopreventive appr
130 metry use is only recommended in symptomatic smokers, even though early stages of COPD can be asympto
131 s obtained from nonsmoking patients with SA, smokers/ex-smokers with severe asthma, nonsmoking patien
134 were present in both ex-smokers and current smokers for cigarettes per day (P for interactionex = 6.
135 ociations seemed to be stronger among former smokers (for fourth quartile vs. first quartile, odds ra
136 ng genome-wide DNA methylation and comparing smokers, former smokers and never smokers in two Swedish
137 acco) at 3 academic sites included 169 daily smokers from the following 3 vulnerable populations: ind
138 ed by comparing blood levels among cigarette smokers from the National Health and Nutrition Examinati
139 ncrease in obese patients (grade A), current smokers (grade A), and patients with glycosylated hemogl
140 ents with BMI >/= 50 kg/m (grade C), current smokers (grade A), or patients with HbA1C >/= 8.0% (grad
143 sured within 5 years before diagnosis, heavy smokers had a multivariable-adjusted HR for death of 2.4
145 tional analyses showed that current vs never smokers had lower risk of hay fever (odds ratio (OR) = 0
148 gher among patients who were white, younger, smokers, had a history of Medical Assistance, and had ot
150 with much prior research demonstrating that smokers have impaired inflammatory functioning compared
152 rimary outcome were more likely to be older, smokers, have a history of hemorrhagic stroke, hypothyro
153 fered in whole-brain SUVs (P=0.006) owing to smokers having 16.8% lower values than non-smokers.
154 I: 0.94, 1.07) based on 2,215 cases in never smokers; HR=1.10 (95% CI: 1.01, 1.19) based on 1,034 cas
157 ficantly higher in smokers compared with non-smokers in patients with IL and DL dental implants.
158 After controlling for confounding, among smokers in the 2014 BRFSS, trying to quit was associated
159 with bolus injection of [(11)C]DAA1106 (with smokers in the satiated state) and blood draws during PE
162 comparing smokers, former smokers and never smokers in two Swedish cohorts, differing for known MS r
164 with smaller alterations in current tobacco smokers, increased production of antioxidants in individ
165 onmental tobacco smoke (ETS) exposure of non-smokers is associated with a two- to three-fold increase
167 Frequent decrease of FSTL1 expression in smokers LUAD further indicates its importance and therap
169 hese results suggest that with abstinence ex-smokers may recover from low striatal D2R availability a
170 data from 20 moderately dependent cigarette smokers (mean age = 25 years; no history of neuropsychia
171 e Stop Smoking Services (SSSs) offer help to smokers motivated to quit; however, attendance rates are
172 ary patterns and metabolites in male Finnish smokers (n = 1336) from 5 nested case-control studies wi
176 combined), comparing data for never vs ever smokers, never vs current smokers, and never vs former s
181 hly similar levels of nicotine compared with smokers of combustible cigarettes only, but results vari
182 obacco-related carcinogens, and toxins among smokers of combustible cigarettes only, former smokers w
183 rd-related behavior and may help explain how smokers of menthol cigarettes exhibit reduced cessation
185 ciation studies were performed in 5070 never-smokers of the identification cohort LifeLines, and resu
187 years (range, 45-83 years); male, 28 (67%); smoker or former smoker, 39 (93%); stage III, 38 (90%).
191 on of rs660895-(AG+GG) with PD seen in never smokers (OR = 0.64, p < 0.001) disappeared among ever sm
195 dence interval (CI): 1.55, 4.70) and current smokers (OR = 1.99, 95% CI: 1.15, 3.44) for IL-6 and amo
196 5% CI: 1.15, 3.44) for IL-6 and among former smokers (OR = 2.83, 95% CI: 1.18, 6.75) and current smok
199 tus was stronger in women (odds ratio for ex-smokers [ORex], 1.44; ORcurrent, 3.45) than in men (ORex
203 with an elevated risk of rosacea among past smokers (P for trend = 0.003) and with a decreased risk
204 sociated with lower CHD risk by 12% in never-smokers (P=1.3x10(-16)) in comparison with 5% in ever-sm
205 P=1.3x10(-16)) in comparison with 5% in ever-smokers (P=2.5x10(-4)), translating to a 60% loss of CHD
207 rformed a metabolomic analysis of 1,282 male smoker participants based on pre-supplementation fasting
208 elial type II (ATII) cells of never-smokers, smokers, patients with COPD, and two experimental COPD m
209 es in blood leukocytes of apparently healthy smokers predicts with remarkable efficiency diseases and
210 er used any tobacco daily, pure ever tobacco smokers, pure ever snus users, and combined users had ad
211 ctive in future research and to suggest that smokers quit smoking as soon as possible, regardless of
217 effects, treatment of periodontal disease in smokers remains a challenge of periodontal therapy.
218 t role in tumor initiation or progression in smokers, representing novel therapeutic targets for brea
219 menthol cigarettes is lower than non-menthol smokers requires identifying the neurons that are altere
222 Mendelian randomization analyses in current smokers showed a slightly lower risk of hay fever (OR =
225 line striatal D2R availability; with current smokers showing lower striatal D2R availability compared
227 substance use combination as controls (CTR), smokers (SMK), drinkers (DRN), smoking-and-drinking subj
228 lar epithelial type II (ATII) cells of never-smokers, smokers, patients with COPD, and two experiment
229 within-subject cross-over design, 36 healthy smokers (Study 1) and 62 smokers with schizophrenia (Stu
230 The 10-fold lower DMXB-A plasma levels in smokers suggest that chronic smoking enhances DMXB-A met
231 atment reduced [(11)C]FLB457 BPND in tobacco smokers, suggesting an increase in dopaminergic tone.
232 skin examinations and procedures than never smokers, suggesting greater opportunities for detection
233 nd the persistence of methylation changes in smokers support our hypothesis, for which a mechanistic
234 n disproportionately underreport smoking and smokers tend to have lower follow-up rates to repeat que
238 g cessation should be offered to all current smokers; that management of detected solid nodules shoul
239 he benefits, yet for most nonsmokers (and ex-smokers), the benefits of radiotherapy far outweigh the
243 Because the CYP2A6 effect was seen only in smokers, these data suggest that the rate of nicotine me
244 of the heterogeneity of pulmonary disease in smokers, they have not yet translated into new treatment
246 We compared responses of 46 young adult smokers to research cigarettes, delivering 0.027, 0.110,
248 lood pressure, and the percentage of current smokers varied by income strata (P </= .02 for interacti
249 lysis of variance was performed, with group (smoker vs non-smoker) and genotype as factors, thereby c
250 terval [CI]: 11.0, 64.4; P = .006), smoking (smokers vs nonsmokers, 45.2 mm(3); 95% CI: 7.1, 83.4; P
251 CI: 1.01, 1.19) based on 1,034 cases in past smokers vs. HR=1.21 (95% CI: 1.07, 1.37) for 300 cases i
252 ignatures of decreased reward sensitivity in smokers (vs nonsmokers; familywise error-corrected P < .
253 SOCA was smoking; the relative risk vs never-smokers was 3.4 for former smokers (95% confidence inter
254 ated with cognitive flexibility in abstinent smokers was restored to the level of nonsmokers followin
257 putational modeling indicated that abstinent smokers were biased toward response shifting and that th
260 Forty-three smokers and thirty-seven non-smokers who met DSM-IV criteria for schizophrenia were e
261 e SNPs, rs31746, in an independent sample of smokers who participated in an intravenous nicotine infu
262 , in contrast, are usually current or former smokers who present after the age of 40 years with sympt
263 Among baseline non-past 30-day cigarette smokers who were past 30-day e-cigarette users, past 30-
264 patient's father is not anemic, but he is a smoker with high levels of HbCO ( approximately 16%).
267 0-year cumulative incidence of HCC (25.0% in smokers with 3 or more metabolic risk factors vs 3.87% i
274 ed: combustible cigarette-only users, former smokers with long-term (>/=6 months) e-cigarette-only or
275 okers of combustible cigarettes only, former smokers with long-term e-cigarette use only, former smok
277 with long-term e-cigarette use only, former smokers with long-term nicotine replacement therapy (NRT
279 3 or more metabolic risk factors vs 3.87% in smokers with none; P < .0001) in smokers, but did not in
282 y control, and these effects are greater for smokers with preexisting attention problems, such as att
285 design, 36 healthy smokers (Study 1) and 62 smokers with schizophrenia (Study 2), both groups high i
286 from nonsmoking patients with SA, smokers/ex-smokers with severe asthma, nonsmoking patients with mil
287 centrations were higher in current or former smokers with severe COPD than in controls who had never
288 ons of MUC5B and MUC5AC in current or former smokers with severe COPD were approximately 3 times as h
290 R-218-5p was significantly down-regulated in smokers without airflow limitation and in patients with
291 ing cohort) encompassing 8 never-smokers, 10 smokers without airflow limitation, and 12 smokers with
292 COPD or similar acute respiratory events in smokers without airflow obstruction affect lung function
295 revalent in normal-appearing lung regions in smokers without airflow obstruction, and it is associate
296 ons of COPD (and acute respiratory events in smokers without COPD) and the change in lung function ov
299 s cardiovascular events [yes or no], current smoker [yes or no], and diabetes [yes or no]), and their
300 Inverse associations were also seen in never-smokers, younger participants (<55 years), and those who
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