1 At age 4,
we calculated a CM-risk score (n=386) as the sum of the indiv
2 Using Poisson regression,
we calculated adjusted relative risks (ARRs) for adverse outc
3 We calculated adjusted RRs for inpatient mortality and HRs fo
4 We calculated age- and sex-adjusted standardized incidence ra
5 d on the difference in yields between the two temperatures,
we calculated an effective enthalpy of vaporization of 117-23
6 We calculated and compared the binding affinities of 20 caref
7 We calculated C statistics for the new model and did a compar
8 We calculated correlations between patient age, clinical stro
9 We calculated DD prevalence for each definition and determine
10 We calculated disease group differences from young controls (
11 We calculated each participant's residential-based distance t
12 We calculated hazard ratios and 95% confidence intervals for
13 We calculated hazard ratios for 1-year adverse outcomes, incl
14 We calculated incidence ratios to assess the inter-relations
15 We calculated influenza-associated deaths for children younge
16 We calculated intraclass correlation coefficients (ICCs) of b
17 For maternal and child samples,
we calculated intraclass correlation coefficients (ICCs) to a
18 To estimate algorithm performance,
we calculated leave-one-subject out cross-validated accuracy.
19 s as cases and a sample of matched livebirths as a control,
we calculated matched odds ratios (mORs) using conditional lo
20 We calculated mortality rate ratios (MRR) to account for diff
21 We calculated odds ratios (ORs) and 95% confidence intervals
22 We calculated partial Pearson correlations between 617 metabo
23 We calculated polygenic scores from genome-wide association s
24 We calculated pooled estimates using random effects meta-anal
25 We calculated pooled odds ratios (ORs) using a random-effects
26 We calculated pooled random-effect estimates of the associati
27 We calculated population attributable fractions for smoking,
28 ) and numbers of viable seagrass seeds excreted (per g DW),
we calculated potential seagrass seed dispersal distances.
29 assess differences between NRS and non-NRS plaques, whereas
we calculated receiver-operating characteristics' area under
30 We calculated relative and absolute risks of CRC for PLP and
31 We calculated response ratios (i.e. effect size) and used str
32 We calculated risks and standardized incidence ratios of canc
33 Using computed tomography scans,
we calculated skeletal muscle index (muscle area at the third
34 We calculated standardised rates by applying direct age and s
35 We calculated standardized incidence ratios and cumulative in
36 We calculated standardized incidence ratios, excess absolute
37 We calculated stationary hub load score (SHub) indicating to
38 We calculated the (1) time required for adjusted rehospitaliz
39 We calculated the association between use of PPIs and related
40 We calculated the median distance to an abortion clinic for w
41 We calculated the median, mean, and proportion rating 7 to 9
42 We calculated the per-patient number of missed appointments f
43 We calculated the percentage of excess risk mediated by risk
44 Using diagnoses in MESA as the criterion standard,
we calculated the performance of HealthLNK for hypertension,
45 We calculated the prevalence of the five major HRBs-alcohol u
46 We calculated the probabilities of death from birth to age 5
47 We calculated the proportion of hospitalized influenza that i
48 We calculated the proportion of participants with a current p
49 We calculated the sensitivity and specificity of point-of-car
50 Finally,
we calculated when the gustatory stimulation phase is short o