ライフサイエンスコーパス: internet access

1 applied to 288 patients (233 of whom had no Internet access).

2 with uncontrolled essential hypertension and Internet access.

3 net to obtain cancer information if they had Internet access.

4 provements in visualization capabilities and internet access.

5 aged 18 years and older with a smartphone or internet access.

6 re 14 to 16 years old, read English, and had internet access.

7 ages 14 to 16 years who read English and had internet access.

8 approach might neglect individuals who lack internet access.

9 ble and can be accessed on any computer with Internet access.

10 uses: from broadcast television to wireless Internet access.

11 95% CI, 1.5%-2.4%; P < 0.001), no household internet access (17.2% vs. 9.6%; difference 7.6%; 95% CI

12 Inclusion criteria included daily internet access, age older than 19 years, fluency in Eng

13 e problem of data collection, the paucity of internet access among low-income and minority communitie

14 n 5 G/6 G networking and broadband satellite internet access amplifies the demand for innovative wire

15 Widespread internet access and advancing health technologies (e.g.,

16 a substantial burden of influenza and rising Internet access and could benefit from real-time influen

17 ing the application in settings with limited Internet access and information technology support.

18 Trials without clinical sites require internet access and must adapt to the lack of face-to-fa

19 ical education is necessary given widespread internet access and thus clinician exposure to variable

20 o technological advances in computing power, internet access, and availability of "big data" resource

21 bile health, and remote patient monitoring), Internet access, and cellular technologies provides an o

22 country who were 15 to 24 years of age, had internet access, and could read and understand English.

23 was developed with standard hardware, secure Internet access, and customized image viewing software w

24 low-income urban neighborhoods, directed to Internet access, and given portal training.

25 ic characteristics, comorbidities, broadband internet access, and tablet access).

26 We need internet access at this time, not only to promote freedo

27 federal poverty level, and having broadband internet access (calculated using census data).

28 ent of patients with a college education had Internet access compared with 38% of patients with a hig

29 ed to address telehealth infrastructure (eg, Internet access, equipment, and literacy), are urgently

30 en by requests for maintaining uninterrupted internet access for users in tunnels as well as wireless

31 aged 18 to 75 years with gambling problems, internet access, German proficiency, and willingness to

32 oss all community types, places with limited internet access had higher mortality rates, especially i

33 As Internet access has become easier, faster and more ubiqu

34 ch as housing tenure, income inequality, and internet access have the capability to trigger transform

35 uthoritarian regimes have taken to censoring internet access in order to stop the spread of misinform

36 ds Survey to examine whether smartphone-only internet access is associated with patient portal use.

37 ating access to the data in situations where internet access is difficult (e.g. by malaria researcher

38 ating access to the data in situations where Internet access is difficult (e.g. by malaria researcher

39 Internet access is given to a computer code for several

40 Yet, among the patients who did have Internet access, most of them indeed used ePROs (66%).

41 using US county-level data on the impact of Internet access on the formation of beliefs about global

42 imary failure applied to patients who had no Internet access or declined to test ePROs, while the oth

43 ations but not a practical constraint (e.g., Internet access) or a lack of time.

44 Approximately 40% of respondents with Internet access reported using the Internet to look for

45 Internet-accessed sexually transmitted infection testing

46 Saccharomyces Genome Database (SGD) provides Internet access to the complete Saccharomyces cerevisiae

47 hborhoods and living conditions plus limited Internet access were barriers for patients to complete t

48 years or more who resided in France and had Internet access were eligible for enrollment.

49 A limitation of the open call was requiring internet access, which likely discouraged participation

50 individuals with low income and with limited internet access who are underrepresented in cost-effecti

51 ncluded people with lower income and lack of internet access who typically have been underrepresented

52 Together, findings suggest that free Internet access widens the circle of those who read and

53 based solely on patient device ownership and internet access will exclude a large proportion of indiv

54 on barrier to Internet use cited was lack of Internet access, with 44% reporting that they would use