ライフサイエンスコーパス: calcimimetic

1 ct that can be prevented by treatment with a calcimimetic.

2 making it a highly differentiated precision calcimimetic.

3 nificantly improves cortical BMD compared to calcimimetics.

4 osphonates, hormone replacement therapy, and calcimimetics.

5 in the ECD and 7TMD and the 7TMD site(s) for calcimimetics.

6 sphonates, and a new class of drugs known as calcimimetics.

7 ellular Ca2+ at the Ca2+ receptor are termed calcimimetics.

8 mped rats the bone effects of calcitriol and calcimimetic administration.

9 iven single orally administered doses of the calcimimetic agent AMG 073 ranging from 5 to 100 mg, or

10 aluating the safety and effectiveness of the calcimimetic agent cinacalcet hydrochloride.

11 as been hypothesized that treatment with the calcimimetic agent cinacalcet might reduce the risk of d

12 posttransplant hyperparathyroidism with the calcimimetic agent cinacalcet.

13 However, with each calcimimetic agent, the decreases in PTH from baseline w

14 f hyperphosphatemia on the responsiveness to calcimimetic agents appears relatively modest, however,

15 Calcimimetic agents are a new class of drugs that increa

16 oviders of dialysis thus have suggested that calcimimetic agents are ineffective and should not be us

17 Calcimimetic agents directly inhibit PTH secretion by ac

18 oidism will indicate whether the efficacy of calcimimetic agents extends into the longer term.

19 The efficacy of treatment with calcimimetic agents for lowering plasma PTH levels among

20 discover potent, orally bioavailable type II calcimimetic agents for the treatment of secondary hyper

21 These calcimimetic agents hold promise as potential treatments

22 the administration of vitamin D analogs and calcimimetic agents may be augmented in the future by ag

23 temia diminishes the therapeutic response to calcimimetic agents, we used data from large clinical tr

24 m receptor activation by calcium ions and by calcimimetic agents.

25 ic CaSR -/- (TS-CaSR -/- ) mice treated with calcimimetics, alkali, or acid, and Klotho shed from min

26 Two calcimimetic allosteric modulators, NPS R-568 and Calind

27 We hypothesized that calcimimetics, allosteric modulators of the calcium-sens

28 In this study, the calcimimetic AMG 073 at doses up to 100 mg for 18 wk pro

29 approaches to the synthesis of new and known calcimimetic analogues employing enantiopure (1-naphthal

30 Calcimimetics and HCO 3 increase serum sKlotho levels in

31 tentiated by allosteric activators including calcimimetics and l-amino acids.

32 CaSR agonists (calcimimetics) and antagonists (calcilytics) have been i

33 te calcium concentration, vitamin K therapy, calcimimetics, and antiresorptive agents had conflicting

34 to sensing amino acids, GPRC6A is a cation-, calcimimetic-, and osteocalcin-sensing receptor and a ca

35 Calcitriol and calcimimetics are used to treat hyperparathyroidism seco

36 ow that the administration of calcitriol and calcimimetic at doses that induced a similar reduction i

37 lusion, besides the action of calcitriol and calcimimetics at parathyroid level, these treatments hav

38 SR revealed conservation of both calcium and calcimimetic binding sites.

39 No patients received treatment with calcimimetics, bisphosphonates, vitamin D, or phosphate

40 pressing the CaSR and Klotho, in response to calcimimetics, calcilytics, alkalotic and acidic pH, and

41 Initial studies have shown that calcimimetics can acutely lower parathyroid hormone leve

42 Calcimimetics can effectively reduce PTH secretion in al

43 bjective was to determine the effects of the calcimimetic cinacalcet (versus placebo) on reducing ser

44 recently confirmed the efficacy of the oral calcimimetic cinacalcet for achieving long-term reductio

45 The use of calcimimetic cinacalcet has been established to activate

46 The calcimimetic cinacalcet HCl acts on the calcium-sensing

47 l transduction, an effect rectified with the calcimimetic cinacalcet.

48 e IV calcimimetic etelcalcetide and the oral calcimimetic cinacalcet.

49 ine, Hepes buffer (pH 7.4), and CaR-specific calcimimetic, cinacalcet, stimulated gastrin and acid se

50 The novel mode of action of the calcimimetic, combined with the glucose-dependence of th

51 In this study we showed that the calcimimetic compound NPS R-467, a selective calcium-sen

52 g concentrations of calcium, neomycin, and a calcimimetic compound suppress PTHrP secretion by mammar

53 Calcimimetic compounds could conceivably provide a speci

54 The discovery of calcimimetic compounds with potent and selective activit

55 he depolarization of the cell induced by the calcimimetic could be due to a direct action on the chan

56 An intravenously (IV) administered calcimimetic could improve adherence and reduce adverse

57 proteins in the presence and absence of the calcimimetic drug cinacalcet.

58 es bound to Ca(2+) and various calcilytic or calcimimetic drug molecules.

59 The calcimimetic drug R-568 reduces serum parathyroid hormon

60 We investigated the ability of a calcimimetic drug that inhibits parathyroid hormone secr

61 his asymmetry is stabilized by 7TM-targeting calcimimetic drugs adopting distinctly different poses i

62 m homeostasis in humans and is the target of calcimimetic drugs for the treatment of parathyroid diso

63 e the relative efficacy and safety of the IV calcimimetic etelcalcetide and the oral calcimimetic cin

64 To evaluate the effect of the intravenous calcimimetic etelcalcetide on serum parathyroid hormone

65 dentified 17 patients that were treated with calcimimetics for pHPT.

66 osphonates and a new class of drugs known as calcimimetics have been used effectively in some patient

67 y has been shown to improve BMD in pHPT, but calcimimetics have recently been advocated as a medical

68 This study aims to determine the efficacy of calcimimetics in improving bone mineral density (BMD) in

69 iol decreased osteoblastic activity, whereas calcimimetic increased bone cell activity.

70 milk protein concentration were mitigated by calcimimetic infusions.

71 given concentration of PTH, the addition of calcimimetics is associated with an increased bone cell

72 An allosteric CaR agonist ("calcimimetic") is currently being tested for the treatme

73 um, strontium, aluminum, gadolinium, and the calcimimetic NPS 568 resulted in a dose-dependent stimul

74 luorescence imaging with fura-2, whether the calcimimetic NPS R-568 could activate Ca(2+)(i) oscillat

75 The calcimimetic NPS R-568 increases the potency of Ca2+ in

76 Conversely, stimulating endogenous CaSR with calcimimetic NPS-R568 accelerated wound re-epithelializa

77 lation of the calcium-sensing receptor using calcimimetic or calcilytic agents may allow the anabolic

78 s at up-regulating the parathyroid CaSR with calcimimetics or introducing earlier anti-resorptive tre

79 ultured cells, CaSR activation with high Ca, calcimimetics, or alkali increase shed Klotho levels via

80 oquinolones, antifungals, and, surprisingly, calcimimetics, phenothiazine antipsychotics, and polyaro

81 Calcimimetics promote CFTR opening by activating adenyla

82 treatment: (group 1) no treatment; (group 2) calcimimetic R-568 formulated in the diet; (group 3) R-5

83 cific CaR positive allosteric modulator, the calcimimetic R-568, mimics the suppressive effects of hi

84 stimulation of the CaSR, by Ca(2+) or by the calcimimetic R-568, produced a striking and time-depende

85 ntagonist lixivaptan in combination with the calcimimetic R-568, reduced cyst progression in two anim

86 t of ring constrained analogues of the known calcimimetic R-568.

87 show that pharmacological CaSR activation by calcimimetics stimulates lung fluid secretion through CF

88 Calcimimetics such as NPS (R)-N-(3-phenylpropyl)-alpha-m

89 Calcimimetics target the calcium-sensing receptor and lo

90 receptor (Casr) by both hypercalcemia and a calcimimetic that decreases PTH secretion, demonstrating

91 such as NPS R-568 are allosteric modulators (calcimimetics) that activate CaR by increasing the appar

92 f calcium-free intestinal phosphate binders, calcimimetics to control parathyroid hormone secretion a

93 ity of Calindol, a novel chemically distinct calcimimetic, to activate a Ca(2+) receptor construct (T

94 s normalized in 35% of patients treated with calcimimetics versus 76% of surgical patients (P = 0.036

95 ly, vascular calcification can be reduced by calcimimetics, which function as allosteric activators o

96 For hyperparathyroid states, calcimimetics, which increase activation of the CaR, hav

97 he treatment of hyperparathyroidism known as calcimimetics, which reduce parathyroid hormone (PTH) sy