ライフサイエンスコーパス: dietary potassium

1 T-induced inhibition of ENaC similar to high dietary potassium.

2 Dietary potassium, an indicator of NEAP and fruit and ve

3 stroke, and an inverse relationship between dietary potassium and CVD.

4 dance of kidney ARH protein was modulated by dietary potassium and inversely correlated with changes

5 We investigated the relation between dietary potassium and protein, NEAP (with an algorithm i

6 fruit and vegetable intake may help increase dietary potassium and reduce hypertension-related diseas

7 Observational studies on dietary potassium and risk of cardiovascular disease (CV

8 Dietary potassium and the molar ratio of dietary sodium

9 enoprotective, but the effects of increasing dietary potassium and the risk of hyperkalemia are unkno

10 Moreover, high dietary potassium and valsartan each augmented the inhib

11 Dietary potassium can bypass mTORC2 to regulate sodium-g

12 Consumption of low dietary potassium, common with ultraprocessed foods, act

13 In dietary potassium deficiency there is a decrease in the

14 Both dietary sodium and dietary potassium depletion substantially increase activ

15 increase in potassium absorption induced by dietary potassium depletion.

16 In conclusion, high dietary potassium enhances the inhibitory effect of AA a

17 High dietary potassium increased 11,12-EET in the isolated co

18 ith 109 +/- 35 mmol/d at 4 wk, P = 0.01) and dietary potassium intake (3775 +/- 1189 mg/d at baseline

19 Observational studies suggest that adequate dietary potassium intake (90-120 mmol/day) may be renopr

20 When dietary potassium intake and plasma potassium are low, t

21 ortantly, in experimental animal models, low dietary potassium intake induces kidney injury through s

22 understand one important mechanism by which dietary potassium intake influences sodium excretion and

23 In contrast, when dietary potassium intake is high, aldosterone is stimula

24 In healthy adults, higher dietary potassium intake is recommended given that potas

25 (encoded by Kcnj16) in mediating effects of dietary potassium intake on the NCC and renal potassium

26 plays a key role in mediating the effect of dietary potassium intake on the thiazide-sensitive NaCl

27 We examined associations between daily dietary potassium intake scaled to energy intake, ascert

28 In patients with CKD stage G3b-4, increasing dietary potassium intake to recommended levels with pota

29 recommendations, we examined associations of dietary potassium intake with mortality in a nationally

30 volume], the gold standard for assessment of dietary potassium intake, represents a risk factor for g

31 It is concluded that dietary potassium is a potent determinant of hypertensio

32 iated with incident type 2 diabetes, and low dietary potassium is more common in African Americans th

33 It was demonstrated previously that low dietary potassium (K) intake stimulates Src family prote

34 is model stems from the combination of fixed dietary potassium load in the face of reduced filtration

35 secretion in this model is a function of the dietary potassium load.

36 t in the distal tubules of mice subjected to dietary potassium loading and restriction, KS-WNK1 knock

37 Acute dietary potassium loading increases the relative abundan

38 nts contributing to an alkaline environment (dietary potassium, magnesium, and fruit and vegetables)

39 cortical collecting duct, we tested whether dietary potassium modulates ENaC function.

40 Future studies that measure the effect of dietary potassium on blood pressure will need to evaluat

41 The beneficial effects of dietary potassium on both systolic and diastolic blood p

42 study was to assess the effect of increasing dietary potassium on serum potassium concentration in hy

43 This study demonstrates that an increase in dietary potassium over a 4-wk period is safe in hyperten

44 ced kidney dysfunction, guidelines recommend dietary potassium restriction given concerns about hyper

45 Lowering plasma potassium levels by dietary potassium restriction increased NCC activity in

46 however, followed a reverse pattern in which dietary potassium restriction resulted in higher levels

47 This hypothesis predicted that dietary potassium restriction would lower aldosterone an

48 out mice maintained plasma [K(+) ] following dietary potassium restriction, but DKO mice developed se

49 d PTK-dependent pathways under conditions of dietary potassium restriction.

50 Kir5.1 is essential for dietary potassium's effect on NCC and for maintaining po

51 from protein metabolism and bicarbonate from dietary potassium salts of organic acids are the major v

52 ormal kidney function, the lowest tertile of dietary potassium scaled to energy intake was associated

53 Lower dietary potassium scaled to energy intake was associated

54 examined the impact of the interplay between dietary potassium, source of potassium intake (animal- c

55 High dietary potassium stimulates the renal expression of cyt

56 Dietary potassium stimulates the surface expression of R

57 Dietary potassium was not associated with albuminuria.

58 c/Latino adults, high dietary sodium and low dietary potassium were independently associated with an

59 vity, NCC could be stimulated by restricting dietary potassium, which also returned BP to control lev

60 We hypothesized that an increase in dietary potassium would not provoke hyperkalemia in this