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1 cess to international surgical rotations and medical information.
2 y special restrictions their state places on medical information.
3 twork-based transmission of patients' stored medical information.
4 thus clinician exposure to variable quality medical information.
5 t to develop better methods of communicating medical information.
6 stionnaires assessed dietary, lifestyle, and medical information.
7 anxiety, as well as demographic, health, and medical information.
8 lly changed the creation and distribution of medical information.
9 s a crucial role in disseminating up-to-date medical information.
10 nd often attributed to poor comprehension of medical information.
11 ional, mechanistic, evolutionary and disease/medical information about transporters from organisms of
12 ientific inquiry and training, disseminating medical information and best practices, and monitoring a
13 ning and temporal maintenance play in modern medical information and decision support systems; it als
14 s made available a large variety of valuable medical information and education resources only dreamed
15 f comfort with secondary use of deidentified medical information and evaluated its correlates in a mu
16 ific discovery, unparalleled availability of medical information and knowledge are currently paired w
17 gen users can bypass traditional channels of medical information and learn in great detail how to obt
18 drug samples, can compromise judgment about medical information and subsequent decisions about patie
20 ion of 'patient initiations' were in 'giving medical information' and reflected what patients wanted
21 reporting practices, the confidentiality of medical information, and the immunity of clinician repor
22 n, the patient's demographic and preexisting medical information available in medical database server
23 conjunction with the ever-expanding body of medical information available on the internet, significa
24 -subsidization among policyholders and where medical information becomes inviolate simply because it
25 pared with children who received end-of-life medical information before their loss, the risk of distr
27 Most (93 of 98 [95%]) provided at least some medical information, but few explained the short-term pr
28 nters for communication behaviors (providing medical information, eliciting preferences/values, engag
29 Whole-genome and exome sequencing unveils medical information embedded in individual genomes and e
30 care providers, and rapid access to reliable medical information for both physicians and patients.
34 erology outpatients reported having obtained medical information from the Web within the previous yea
35 e role of the Internet, and accessibility of medical information have been central elements in the de
36 that permit the aggregation of computerized medical information have led to pressure for greater acc
37 rowth of the Internet, the ability to access medical information in the most isolated of locations is
39 f these patients must ensure that his or her medical information is current and that patients receive
40 Because health care systems are complicated, medical information is difficult to understand, and medi
42 d is too expensive; the quality of Web-based medical information is inadequate; software programs may
43 th information about individuals and general medical information is increasingly available in electro
46 ured reports, detailing known biological and medical information, literature and database cross-refer
47 without risk classification, and much of the medical information needed to classify risks will have a
51 ecision-making roles: informative (providing medical information only), facilitative (information + e
53 4%) consented for their physician to provide medical information (received for 266 of 321 [82.9%]).
57 2000, the site has grown to become a leading medical information site, currently with more than 100 r
59 ting in the Arthritis, Rheumatism, and Aging Medical Information System (ARAMIS) who resided in the S
61 rs were identified from relevant Read/Oxford Medical Information System codes in the patient's clinic
62 ls, and the Arthritis, Rheumatism, and Aging Medical Information System cohort, comprising 58 patient
63 ased on the Arthritis, Rheumatism, and Aging Medical Information System Post-Marketing Surveillance P
66 ed from the Arthritis, Rheumatism, and Aging Medical Information Systems database and were matched wi
68 generation, collation, and dissemination of medical information than it does on production of medici
69 es benefit from extensive cross-linking with medical information to create a unique resource, spannin
71 e use of "fix-it" is familiar for explaining medical information to patients, surgeons recognize that
74 who did not know or remember if end-of-life medical information was provided (RR, 1.7; 95% CI, 1.1 t
77 lth care professionals to use and share full medical information when treating patients, the provisio
79 gly using the Internet to supplement finding medical information, which can be complex and requires a
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