ライフサイエンスコーパス: perspiration

1 real-time monitoring of sodium in the human perspiration.

2 ible losses from respiration and nonsweating perspiration.

3 s while minimizing the collection of aqueous perspiration.

4 ose below 70 mg/dL, pale complexion, profuse perspiration.

5 nd fastness, including washing, rubbing, and perspiration.

6 tantaneously, thus avoiding the awareness of perspiration.

7 w encompassing specifically the individual's perspiration.

8 dy quantification of glucose levels in human perspiration.

9 conditions better at lower humidity through perspiration(6,7).

10 tform can be efficiently exploited for smart perspiration analysis toward personalized health monitor

11 needed) sensor array for multiplexed in situ perspiration analysis, which simultaneously and selectiv

12 ches have been developed for measuring human perspiration and evaluating antiperspirant efficacy, but

13 correlation between glucose concentration in perspiration and glucose concentration in blood measured

14 s of 7.83 x 10(5 )Pa, stability against skin perspiration, and a maximum stretchability of 164%.

15 Perspiration-based wearable biosensors facilitate contin

16 uous monitoring the sodium dynamics in human perspiration during diverse activities relevant to the h

17 al-time noninvasive lactate sensing in human perspiration during exercise events using a flexible pri

18 Perspiration evaporation plays an indispensable role in

19 Sodium excreted during perspiration is an excellent marker for electrolyte imba

20 probably because of lower fluid intakes and perspiration loss during flight.

21 Owing to its exceptional personal perspiration management performance, we expect the i-Coo

22 mising design guidelines for next-generation perspiration management textiles.

23 que functional structure design for personal perspiration management.

24 poral profile of vitamin C levels in natural perspiration, observing increased levels in response to

25 ic activities involving water or significant perspiration, offering insights for the future developme

26 detection limit of 0.05 kPa, even with heavy perspiration or in underwater situations without encapsu

27 elated adverse events (transiently increased perspiration or irritability) occurred in six (13%) pati

28 In humans, perspiration regulates core body temperature.

29 has been successfully applied on real human perspiration samples and results also show a significant

30 n gradient boosted decision trees to analyze perspiration samples.

31 +/- 2% by cross-validation on analyzing 277 perspiration samples.

32 y and cooling efficiency in moderate/profuse perspiration scenarios.

33 putational algorithm extracted the perinasal perspiration signal as indicator of sympathetic arousal.

34 the flaps can close automatically after the perspiration to keep the wearer warm.

35 id heat transfer tuning in response to human perspiration vapor.