ライフサイエンスコーパス: blackout

1 d physician-reviewed for relationship to the blackout.

2 ery power plant available to avoid causing a blackout.

3 n the management of patients with convulsive blackouts.

4 ormance, in particular the stability against blackouts.

5 st be accomplished, while avoiding recurring blackouts.

6 tworks have caused several large-scale power blackouts.

7 n exacerbate the probability of catastrophic blackouts.

8 rticipation in a program designed to prevent blackouts.

9 he prevention of undesired power outages and blackouts.

10 verlap in the report of falls, dizziness and blackouts.

11 genetic contribution unique to risk for the blackouts and a significant component of genetic risk sh

12 Outcome Measure Data on lifetime blackouts and having had 3 or more blackouts in a year w

13 ion in South Africa, where regular scheduled blackouts are being implemented, to highlight this oppor

14 concern recently due to several large-scale blackouts around the world.

15 fined as the peak number of outages during a blackout), but is independent of the number of customers

16 ures in response to concurrent heat wave and blackout conditions for more than 2.8 million residents

17 ealistic outage data, especially large-scale blackout datasets.

18 The blackout dramatically increased EMS and hospital activit

19 overall system performance and even promote blackouts due to Braess' paradox.

20 risks of more frequent and widespread power blackouts due to the malfunction of gas networks.

21 dated with the 2022 Puerto Rico catastrophic blackout during Hurricane Fiona - a unique system-wide b

22 uring Hurricane Fiona - a unique system-wide blackout event with complete records of weather-induced

23 We find the concurrence of a multiday blackout event with heat wave conditions to more than do

24 When such blackout events coincide in time with heat wave conditio

25 Major electrical grid failure or "blackout" events in the United States, those with a dura

26 periencing at least one longer-than-5-day TC-blackout-heatwave compound hazard in a 20-year period co

27 overy process analysis to investigate how TC-blackout-heatwave compound hazard risk may vary in a cha

28 deling, to evaluate historical and future TC-blackout-heatwave compound risk in Louisiana, US.

29 The emerging tropical cyclone (TC)-blackout-heatwave compound risk under climate change is

30 surveyed their customers about hypothetical blackouts, identifying and classifying mitigating/resili

31 Alcohol-induced blackouts (ie, periods of anterograde amnesia) have rece

32 s was 52.5% and that of having had 3 or more blackouts in a year was 57.8%.

33 lifetime blackouts and having had 3 or more blackouts in a year were collected within an examination

34 d 20.9% of men reported having had 3 or more blackouts in a year.

35 and the overlap between falls, dizziness and blackouts, in a population-based sample of 85 year olds.

36 ontribution to liability for alcohol-induced blackouts including a component of genetic loading share

37 teorology during the California 2020 rolling blackouts, indicating continued vulnerability of power s

38 use in the past 3 months and alcohol-related blackouts, injuries, vomiting, or emergency department v

39 with the downtime of its nearby outages and blackout intensity (defined as the peak number of outage

40 Our study reveals that suppressing blackout intensity is a promising way to speed up restor

41 een outages, and interpret the dominant role blackout intensity plays in recovery.

42 The recovery of blackouts is not random and has a universal pattern that

43 The impacts of TC-caused blackouts may worsen in the future as TCs and heatwaves

44 xamples including the famous 2003 electrical blackout of Italy.

45 Widespread energy blackouts offer such an 'experiment' to test the impacts

46 We report the effects of this blackout on New York City's healthcare system by examini

47 d the impact of South Africa's rolling power blackouts on the center's operations.

48 esilience in the face of emergencies such as blackouts or adverse geo-political events.

49 nfluence a power grid's ability to withstand blackout-prone large perturbations.

50 or whom both twins' responses were coded for blackout questions and for frequency of intoxication.

51 The rolling blackout (rbo) gene encodes an integral plasma membrane

52 Rolling blackout (RBO) is a putative transmembrane lipase requir

53 mperature pattern changes into variations in blackout risk for power distribution grids (DGs).

54 tegration framework to assess the associated blackout risk, showing that GCC raises blackout risks du

55 iated blackout risk, showing that GCC raises blackout risks during peak hours by 4-6%, depending on G

56 ('concurrent malfunction') is the electrical blackout that affected much of Italy on 28 September 200

57 In areas of conflict and communication blackouts, the perception of the vaccines by health work

58 During the blackout, there were increases in "respiratory" (189%; p

59 The heritability of lifetime blackouts was 52.5% and that of having had 3 or more bla

60 A lifetime history of blackouts was reported by 39.3% of women and 52.4% of me

61 Dizziness and blackouts were reported by 40.0% (318/796) and 6.4% (52/

62 been observed to result in voltage collapse blackouts, where nodal voltages slowly decline before pr

63 ly conserved complex containing Efr3/rolling blackout, which we found was a palmitoylated peripheral