ライフサイエンスコーパス: sidestream

1 lues of 2.0041 for mainstream and 2.0044 for sidestream.

2 onalized starch derived from potato industry sidestreams.

3 oncentrations of EPFRs were detected in both sidestream (8.05 +/- 1.32) x 10(4) pmol/g and mainstream

4 ischarge limits prior to making decisions in sidestream and biosolids management.

5 ers, e.g., anaerobic digestion liquor (i.e., sidestream), and further expanded to the main line of wa

6 rising ozone-based treatment with a membrane sidestream, and (2) delivering that water to stormwater

7 ines the progress of NOB suppression in both sidestream- and mainstream PN/A over the past two decade

8 In water resource recovery facilities, sidestream biological nitrogen removal via anaerobic amm

9 ts) had end-tidal CO2 obtained by oral/nasal sidestream capnometry, and respiratory rates, oxygen sat

10 ral KCs exposed for 24 h to aged and diluted sidestream cigarette smoke (ADSS) or an equivalent conce

11 We reported that gestational exposure to sidestream cigarette smoke (SS), or secondhand smoke, pr

12 ce were exposed for 4 weeks to either air or sidestream cigarette smoke (SS; 5 mg/m(3) total particul

13 posed to filtered air or to aged and diluted sidestream cigarette smoke as a surrogate to environment

14 lingual microcirculation was assessed with a Sidestream Dark Field imaging device before and after RB

15 Sublingual Sidestream Dark Field imaging was performed to determine

16 l microcirculation was evaluated by means of sidestream dark field imaging.

17 icrocirculatory changes were investigated by sidestream dark-field imaging in the sublingual capillar

18 blingual microcirculation was observed using sidestream dark-field imaging, and peripheral tissue per

19 microcirculatory blood flow was assessed by sidestream dark-field imaging.

20 We performed sidestream dark-field videomicroscopy of the sublingual

21 luated (at baseline, 6, 12, and 18 hr) using sidestream dark-field videomicroscopy.

22 lingual microcirculation was evaluated using sidestream dark-field videomicroscopy.

23 Microvascular imaging using sublingual sidestream darkfield imaging (SDF) and endothelial funct

24 ed using orthogonal polarization spectral or sidestream darkfield imaging techniques.

25 Here, we used Sidestream Darkfield imaging to detect changes in glycoc

26 volatile organic compounds in mainstream and sidestream emissions.

27 d platelets less than high-tar extracts, the sidestream extracts were almost equally potent.

28 lets subjected to mainstream smoke extracts, sidestream extracts, and nicotine was measured in vitro

29 s stream, thus avoiding errors introduced by sidestream gas analysis.

30 tual pilot-scale granular sludge reactor for sidestream nitritation, but significantly underestimated

31 otential, and economic costs and benefits of sidestream nutrient management and biosolid management s

32 Five sidestream nutrient management strategies were analyzed

33 es (WRRFs) to consider the implementation of sidestream nutrient removal or recovery technologies.

34 While sidestream PN/A has been well-established with extensive

35 The successful NOB suppression in sidestream PN/A was reviewed, and these successes were e

36 End-tidal PCO2 was measured, using a sidestream sensor placed in line of the ventilator circu

37 known about the effects of acute exposure to sidestream smoke (passive smoking).

38 Sidestream smoke exposure significantly augmented the pe

39 Mainstream and sidestream smoke extracts caused increased platelet acti

40 ere measured before and during inhalation of sidestream smoke in one session (n = 16) and before and

41 Rats were exposed to sidestream smoke in smoking chambers.

42 The source of ETS was sidestream smoke of 4 cigarettes/15 min, 6 h/day, 5 days

43 We examined the effects of sidestream smoke on muscle sympathetic nerve activity (M

44 ed to ETS in a chamber in which steady-state sidestream smoke was continuously circulating.

45 Sidestream smoke, but not vehicle inhalation, increased

46 he stressful stimuli were not potentiated by sidestream smoke, except for an increased BP response to

47 After 15 minutes' exposure to sidestream smoke, plasma nicotine and carboxyhemoglobin

48 both in smokers and in nonsmokers exposed to sidestream smoke.

49 BP, and HR were not changed significantly by sidestream smoke.

50 Acute short-term passive (sidestream) smoke exposure elicits a modest increase in

51 d (iv) membrane technology in mainstream and sidestream systems.

52 phen [100 mg/kg intraperitoneal (ip)] and/or sidestream tobacco smoke (as a surrogate for ETS, 5 mg/m

53 term exposure to mainstream tobacco smoke or sidestream tobacco smoke (STS), the main component of se

54 Guinea-pigs were chronically exposed to sidestream tobacco smoke (surrogate for environmental to

55 onary C-fibre endings by chronic exposure to sidestream tobacco smoke is transmitted to the NTS and i

56 n shown to be present in both mainstream and sidestream tobacco smoke using an EM-MS system.

57 l particulate matter (TPM) of mainstream and sidestream TPM of conventional cigarettes and the TPM of

58 cation is already widespread, especially for sidestream treatment, maintaining a functional populatio

59 much lower eutrophication potential than no sidestream treatment; significantly higher fertilizer pr

60 FeCl(3) was chosen to be dosed in a proposed sidestream unit rather than in a primary settler or a ma

61 dimensional or organ culture were exposed to sidestream whole (SSW) smoke, a major component of secon