1 risk, excess risk (or risk difference), and
population attributable risk.
2 rend comparison, corresponding to a negative
population attributable risk.
3 exposures; dose-response; and estimated the
population attributable risk.
4 hen computed their individual and aggregated
population attributable risks.
5 cific population burden of HF by calculating
population attributable risks.
6 nfidence interval 1.09 to 2.21, adjusted PAR(
population attributable risk) =
0.17].
7 ed risk (OR = 5.75, P=.0005) and the highest
population-attributable risk (
15.1%) for CD among report
8 associated SNP (rs1219648) = 1.1 x 10(-10);
population attributable risk =
16%).
9 ctor and decreased in contribution with age (
population attributable risk:
20.1% men and 34.5% women
10 rtality, renal insufficiency had the highest
population attributable risk (
27%).
11 ctor and increased in contribution with age (
population attributable risk:
27.8% men and 26.7% women
12 val=3.56-15.53) for the high-risk allele and
population attributable risk 28.00.
13 ly one-third of attempts with intent to die (
population attributable risk,
29.01%) in the United Stat
14 strokes were associated with nontraditional (
population attributable risk:
31.4% men and 42.7% women)
15 The
population attributable risk (
95% CI) of 90-day mortalit
16 of gene-disease associations, for estimating
population attributable risk,
and for informing health p
17 who did not use postmenopausal hormones, the
population attributable risks are 24.2% (95% CI, 19.8%-2
18 % confidence interval 3.2-7.9) for ARM and a
population attributable risk as high as 57%.
19 Hazard ratios (HRs) and
population attributable risk associated with early child
20 The
population attributable risks associated with the 80th p
21 k varies with age and to model the projected
population-attributable risk associated with 3 different
22 The
population-attributable risk associated with hospitaliza
23 The
population-attributable risk associated with LVEF less t
24 The
population-attributable risk associated with these 4 ris
25 The
population attributable risk because of annual average P
26 Population-attributable risk calculations for the associ
27 les, because a large proportion of the locus
population attributable risk can be explained by the unc
28 Population-attributable risk,
determined from predictors
29 We estimate that the
population attributable risk due to this aminoacid subst
30 The
population attributable risk due to trans fat intake was
31 The
population attributable risk estimated for a reduction i
32 y and early onset (rs4606565, P = 0.02); the
population-attributable risk,
estimated from the least-s
33 Population-attributable risk estimates associated with m
34 The
population attributable risk for 3 eggs/wk was far lower
35 Although the
population attributable risk for any of the genes identi
36 The estimated
population attributable risk for C3F was 22%.
37 Thus, the
population attributable risk for delusion was only 2.62%
38 The
population attributable risk for DM as a CVD risk factor
39 rs explained a greater proportion of overall
population attributable risk for heart failure in young
40 We applied
population attributable risk for increased number of dea
41 The
population attributable risk for job strain was 3.4%.
42 by rs481134, explains an additional 13.2% of
population attributable risk for lung cancer.
43 The adjusted
population attributable risk for mortality related to ma
44 ey have been shown to be associated with the
population attributable risk for myocardial infarction.
45 iate-adjusted relative risk of death and the
population attributable risk for preventable risk factor
46 The
population attributable risk for reduced DSST score for
47 Estimates of
population attributable risk for the common allele of th
48 The age-/sex-adjusted
population attributable risk for these Simple 7 metrics
49 Estimates of adjusted
population attributable risk for these three processes w
50 Population attributable risks for all cause mortality an
51 with those in the desirable categories; the
population attributable risks for high non-HDL-C and low
52 The
population attributable risks for obesity, overweight, c
53 alyses revealed that hypertension had a high
population-attributable risk for CHF, accounting for 39%
54 ibuting to a substantial or even majority of
population-attributable risk for type 2 diabetes and age
55 Population-attributable risks for diabetes associated wi
56 Population attributable risk fraction (PARF) was compute
57 The
population attributable risk fraction for all mortality
58 fants with encephalopathy, and therefore the
population attributable risk fraction for an IQ score th
59 The
population attributable risk fraction for perinatal deat
60 Approximately half the
population attributable risk fraction may be due to incr
61 s associated with race and ethnicity, with a
population attributable risk fraction of 12.0%.
62 The
population attributable risk fraction was considerably g
63 ophrenia being attributable to cannabis, the
population-attributable risk fraction (PARF).
64 The estimated
population-attributable risk fraction for neonatal illne
65 This corresponds to a
population-attributable risk fraction of 5.2%.
66 Overall, the
population-attributable risk fraction of patients was 5%
67 tions of obese women, were used to calculate
population attributable risk fractions (PAFs).
68 Calculation of
population attributable risk fractions demonstrated that
69 Assuming causality,
population attributable risk fractions for outcomes rang
70 The
population-attributable risk fractions for 1 or more exp
71 We estimated the
population attributable risk from passive smoking to be
72 important parameters (the odds ratio and the
population attributable risk),
guidelines for causal inf
73 heterozygous carriers aged >55 years, with a
population attributable risk in this age group of 0.93%
74 y, its modest effect translates into a large
population attributable risk-
influencing as much as 25%
75 deaths attributable to blood pressure using
population-attributable risk,
mortality, and the populat
76 h sarcoidosis in blacks and whites and had a
population attributable risk of 16% in blacks and 9% in
77 This finding corresponded to a
population attributable risk of 20.4% (95% CI 3.8-29.8)
78 The estimated
population attributable risk of 25(OH)D concentrations <
79 susceptibility to asthma and obesity, with a
population attributable risk of 39.7%.
80 or AMD at 10q26 and is estimated to confer a
population attributable risk of 49.3%.
81 with a relative risk of nearly 10-fold and a
population attributable risk of approximately 10%.
82 future arterial events and to determine the
population attributable risk of arterial events by VTE i
83 es not make an important contribution to the
population attributable risk of cardiovascular disease;
84 therosclerosis in this cohort (136/200), the
population attributable risk of dementia related to intr
85 cent confidence interval, 1.9 to 4.8), for a
population attributable risk of disciplinary action of 2
86 sessed with Cox proportional hazards models;
population attributable risk of DM as a CVD risk factor
87 The
population attributable risk of hard domestic water on A
88 ores, but did not mitigate the importance or
population attributable risk of high Alzheimer's patholo
89 Population attributable risk of important factors for al
90 We estimated the
population attributable risk of lead exposure to be 13.5
91 The
population attributable risk of long-term admission to a
92 ars of potential life lost and estimated the
population attributable risk of mortality due to mental
93 The
population attributable risk of overall obesity (BMI 30
94 The
population attributable risk of overall obesity (BMI>=30
95 The
population attributable risk of postnatal exposure for a
96 Assuming causality, the adjusted
population attributable risk of psychiatric disorders on
97 The
population attributable risk of stroke or systemic embol
98 The estimated
population attributable risk of T2D in white UK women du
99 We estimate that the
population attributable risk of the new locus, marked by
100 The
population attributable risk of these mutations was 2.2%
101 confers a 4.0% (95% CI 2.2-5.7) reduction in
population attributable risk of TIA and stroke.
102 Baseline CVD had
population attributable risks of 51% and 27% for CVD and
103 Assuming causality, ever smoking had
population attributable risks of 77% (95% CI: 0.55, 0.89
104 Similarly, the
population attributable risks of obesity (21% v 13%), hy
105 (95% CI, 2.9%-6.9%) by day 90, reflecting a
population-attributable risk of 0.8% (95% CI, .4%-1.1%).
106 The estimated
population-attributable risk of 21.6% (95% CI 10.0%-31.0
107 of obese men had low fitness, which led to a
population-attributable risk of 39% for CVD mortality an
108 ic variance in CFRD onset and had a combined
population-attributable risk of 68%.
109 confidence interval [CI], 1.96-2.72) with a
population-attributable risk of 7.7% (99% CI, 6.3-8.8).
110 (odds ratio, 2.44; 99% CI, 2.06-2.89) with a
population-attributable risk of 8.5% (99% CI, 7.0-9.6).
111 The
population-attributable risk of alcohol abuse on each ou
112 The
population-attributable risk of all risk factors combine
113 The
population-attributable risk of AS associated with 3 car
114 Genotype accounted for ~9% of the
population-attributable risk of ASD.
115 The
population-attributable risk of CHD for elevated CRP was
116 The
population-attributable risk of criminality from childho
117 Rs), life expectancies, life-years lost, and
population-attributable risk of death associated with sm
118 The
population-attributable risk of death associated with sm
119 cess mortality of smokers is tripled and the
population-attributable risk of death associated with sm
120 The
population-attributable risk of EoE was 31% (95% CI, 28%
121 tter may translate into a highly significant
population-attributable risk of obesity.
122 inked to the crime register to determine the
population-attributable risk of patients with severe men
123 The estimated
population-attributable risk of preterm birth for childh
124 Rare genic deletions contribute ~4% of the
population-attributable risk of sporadic CHD.
125 Genotype at rs11066320 was responsible for a
population-attributable risk of TOF of approximately 10%
126 have been prevented if BFP had been present (
population attributable risk (
PAF) = 4%, 95% CI 0.06, 7.
127 A
population attributable risk (
PAF) of 4.0% (95% CI, 0.1%
128 The
population attributable risk (
PAR) associated with indiv
129 Previous studies indicate that the
population attributable risk (
PAR) of bladder cancer for
130 We also estimated the
population attributable risk (
PAR) of familial factors i
131 The variant accounted for 1% of the
population attributable risk (
PAR) of TOF.
132 Moreover, estimation of
population attributable risk (
PAR) suggested that nsVT w
133 (95% confidence interval: 1.5, 2.3), and the
population attributable risk (
PAR) was 3.6%.
134 Population attributable risk (
PAR) was estimated using L
135 ith 95% confidence intervals [95% CIs]), and
population attributable risk (
PAR) were calculated.
136 of renal cell cancer cases attributable (or
population attributable risk (
PAR)) to 1) well-establish
137 We used these data to calculate
population attributable risk (
PAR), life time disease bu
138 entration Index; Receiver Operator Curve and
Population Attributable Risk (
PAR).
139 At each examination, we estimated the
population attributable risks (
PAR) of traditional risk
140 We calculated the
population-attributable risk (
PAR) by comparing incidenc
141 We estimated the
population-attributable risk (
PAR) for major MI risk fac
142 rom existing meta-analyses, we estimated the
population-attributable risk (
PAR) of Alzheimer's diseas
143 igarette smoking together explain 61% of the
population-attributable risk (
PAR) of AMD.
144 Nonlinear associations and
population-attributable risk (
PAR) of the mortality burd
145 Haplotype-based calculation of
population-attributable risk (
PAR) results in an estimat
146 elative risks (RRs) for incident cancers and
population-attributable risk (
PAR).
147 d asthma-like conditions in this population (
population attributable risk [
PAR] = 40.5% and 35.0%, re
148 The
population attributable risks (
PARs) were 0.41, 0.40 and
149 nal hazard ratios (HRs), relative risks, and
population attributable risks (
PARs) were calculated, ad
150 Odds ratios (OR) and their
population attributable risks (
PARs) were calculated, wi
151 Individual and combined
population-attributable risks (
PARs) associated with ADR
152 We calculated hazard ratios (HRs) and
population-attributable risks (
PARs) for CRC incidence a
153 In this age group, the
population-attributable risk percent of frequent cocaine
154 ce to a healthy lifestyle, we calculated the
population-attributable risk percent.
155 mine independent risk factors and univariate
population attributable risk percentage (PAR%) was estim
156 The full
population attributable risk percentage for all factors
157 When examined collectively, the
population attributable risk percentage for disorders of
158 The
population attributable risk percentage of asthma for ri
159 The
population attributable risk percentage of overall obesi
160 The
population attributable risk percentage of overall obesi
161 percentage of HIV to HSV-2 was 52%, and the
population attributable risk percentage was 19% in popul
162 The
population attributable risk percentage was calculated t
163 ere used as measures of association, and the
population attributable risk percentage was used as an i
164 The
population-attributable risk percentage for total cancer
165 ollowed by obesity (25.8%), with the highest
population-attributable risk percentage found in African
166 The
population-attributable risk percentage of pancreatic ca
167 The
population-attributable risk percentage was 30.8% for mi
168 For HFpEF, the
population-attributable risk percentage was greatest for
169 ence rates, baseline risk factors, and their
population-attributable risk percentage were analyzed.
170 er over existing methods for a wide range of
population-attributable risk,
percentage of disease-cont
171 We estimated the full and partial
population attributable risk percentages (PAR%) by combi
172 Population attributable risk percentages (PARPs) take in
173 ruction, trucking, agriculture, and logging (
population attributable risk percentages were 16.8%, 8.8
174 The ORs, 95% confidence intervals, and
population attributable risk percentages were calculated
175 Population attributable risk percentages were calculated
176 HRV and HEV showed higher
population-attributable risk percentages (25% and 20%) t
177 rd model comparing racial/ethnic groups, and
population-attributable risk percentages were calculated
178 However, higher risk allele frequencies and
population-attributable risk percentages were observed i
179 ions, and their relative contributions using
population-attributable risk percentages.
180 the high prevalence of smoking and the large
population attributable risk,
programs to reduce both sm
181 To determine the
population-attributable risk proportion (PARP) for breas
182 The
population-attributable risk proportion for 1 or more un
183 Population-attributable risk proportion of breast cancer
184 with significant odds ratios of 2.0-12.0 and
population attributable risk proportions of 6.2%-33.7%.
185 Population Attributable Risk Proportions were substantia
186 The
population-attributable risk proportions across DSM-IV d
187 The
population-attributable risk proportions of lifetime men
188 Population-attributable risk proportions of severe role
189 ons) by trend comparison, corresponding to a
population attributable risk range of one excess admissi
190 The
population-attributable risk related to this CFH risk va
191 s of medical school (1 percent and 7 percent
population attributable risk,
respectively), but the ass
192 or reduction on AD prevalence by calculating
population attributable risks (
the percent of cases attr
193 used an approach akin to the calculation of
population attributable risk to quantify the contributio
194 The
population-attributable risk to develop hyperglycemia du
195 violent crime, estimated by calculating the
population-attributable risk,
varies by gender and age.
196 They estimated that the
population attributable risk was 27% for weight increase
197 Across the 22-year study period, the
population attributable risk was 31.7% (95% CI, 23.5%-39
198 The adjusted
population attributable risk was 51 percent for cigarett
199 ed coronary heart disease, the percentage of
population attributable risk was 79% (95% CI, 40%-93%).
200 The corresponding
population attributable risk was 9 percent.
201 ty was 70.3 (95% CI, 67.7-73.1); the overall
population attributable risk was 9.5%.
202 The
population attributable risk was calculated after adjust
203 The partial
population attributable risk was estimated at 15.9% (95%
204 ommon (<1.5%), and therefore, the associated
population attributable risk was low (<1%).
205 kidney injury is substantial (8.6%), and the
population attributable risk was nearly 20%.
206 The overall
population-attributable risk was 4.3% (95% CI, 2.7%-5.8%
207 Population attributable risks were calculated.
208 aracteristics modifying the associations and
population-attributable risks were determined.
209 Population-attributable risks were used to estimate the
210 multivariable and mutually adjusted partial
population attributable risks (
women and men) were 33% a