Ichiyama M, Sada S, Takahashi Y, Sada H, Ban T
Naunyn Schmiedebergs Arch Pharmacol. 1986 Mar;332(3):297-304. doi: 10.1007/BF00504871.
The effects of bucumolol (BUC), nadolol (NAD) and nifenalol (NIF) on contractile forces and on action potentials (APs) were investigated in isolated guinea pig atrial and papillary muscles, respectively. Log 1/ED40 values for the negative inotropic effects of these drugs were 0.097, 10 and 0.74 mmol/l in this order. BUC (50 mumol/l), NAD (0.5 mmol/l) and NIF (0.2 mmol/l) produced about 60, 20 and 20% reduction of Vmax at 1 Hz. The frequency-dependent reductions at these and higher concentrations were greatest for BUC, intermediate for NAD and least for NIF. These potencies at certain frequencies were, as a whole, consistent with log P-potency relationship established in our previous papers (Harada et al. 1981; Ban et al. 1985). The reductions of Vmax in APs in response to premature stimuli during basic stimuli at the rate of 0.25 or 0.027 Hz decayed exponentially during diastolic intervals (DI). The time constants of these decay process (tau) estimated by linear and nonlinear regression analyses and by eye were 12.2-9.6 s for BUC (50-100 mumol/l) and 2.9-4.8 s for NAD (1-2 mmol/l) and 57-87 ms for NIF (0.2-1 mmol/l). In terms of the molecular weight (MW)-log tau relationship (Ban et al. 1985), these tau values are within the 95% fiducial limit for BUC and NAD and deviated from the lower fiducial limit for NIF. The frequency-dependent reductions of Vmax by these drugs were explained in terms of a function of tau and the intercept Ao. Based on the study made by Cohen et al.(ABSTRACT TRUNCATED AT 250 WORDS)
分别在豚鼠离体心房肌和乳头肌中研究了布库洛尔(BUC)、纳多洛尔(NAD)和硝苯洛尔(NIF)对收缩力和动作电位(AP)的影响。这些药物负性肌力作用的对数1/ED40值依次为0.097、10和0.74 mmol/L。BUC(50 μmol/L)、NAD(0.5 mmol/L)和NIF(0.2 mmol/L)在1 Hz时使最大去极化速率(Vmax)分别降低约60%、20%和20%。在这些及更高浓度下,频率依赖性降低对BUC最大,NAD居中,NIF最小。这些药物在特定频率下的效力总体上与我们之前论文(原田等人,1981年;班等人,1985年)中建立的脂水分配系数-效力关系一致。在基础刺激频率为0.25或0.027 Hz时,对早搏刺激产生的动作电位中Vmax的降低在舒张期(DI)呈指数衰减。通过线性和非线性回归分析以及目测估计的这些衰减过程的时间常数(τ),BUC(50 - 100 μmol/L)为12.2 - 9.6秒,NAD(1 - 2 mmol/L)为2.9 - 4.8秒,NIF(0.2 - 1 mmol/L)为57 - 87毫秒。根据分子量(MW)-对数τ关系(班等人,1985年),这些τ值在BUC和NAD的95%置信限内,而偏离了NIF的下限置信限。这些药物对Vmax的频率依赖性降低可以用τ和截距Ao的函数来解释。基于科恩等人的研究(摘要截断于250字)