Observation on the efficacy and pharmacokinetics of betaxolol (SL 75212), a cardioselective beta‐adrenoceptor blocking drug.

Balnave, K; Neill, JD; Russell, CJ; Harron, D. W. G.; Leahey, William J.; Wilson, Richard W.; Shanks, R. G.

doi:10.1111/j.1365-2125.1981.tb01121.x

Cited by 32 publications

(13 citation statements)

References 17 publications

(13 reference statements)

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“…Although all doses of H-I 42 significantly reduced standing and exercise heart rate for 96 h after a single dose, the most striking feature of H-I 42 was the marked reduction in exercise tachycardia for 96 h. The 400 mg dose produced a 22% reduction at 8 h and 24, 21, and 17% reductions at 24, 72, and 96 h respectively. Even though atenolol 100 mg produces a greater reduction in exercise tachycardia (109.5 ± 8.6 beats min-') in comparison to H-I 42 400 mg (121.7 ± 13.2 beats min-'), its effect had declined considerably at 24 h (atenolol-135.9 ± 14.6; H-I 42-122.4 ± 10.5 beats min-1) and had disappeared at 72 h. Similar results have been previously described for atenolol, sotalol and betaxolol which have relatively long durations of effect and reduced an exercise tachycardia at 3 h by 34, 37 and 35% and at 24 h by 18, 19 and 25% (Shanks, 1985;Balnave et al, 1981). Although the maximum effect on an exercise tachycardia of H-I 42 was less than that of any of these drugs, the decline in effect with time was less and thus the duration of effect was longer after H-I 42.…”

Section: Discussionsupporting

confidence: 80%

The assessment in man of the beta‐adrenoceptor blocking activity and cardioselectivity of H‐I 42 BS, a long acting beta‐adrenoceptor blocking drug.

Pringle

Deering

Scott

et al. 1987

Brit J Clinical Pharma

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Ireland1 The pharmacokinetic and pharmacodynamic effects of the ,3-adrenoceptor antagonist H-I 42 BS were examined in healthy subjects. 2 In an open dose ranging study, H-I 42 BS 50, 100, 200 and 400 mg were given as single oral doses to four subjects. H-I 42 BS 400 mg caused maximum reduction in exercise heart rate (20.4 ± 1.0% -mean ± s.d.) at 4 h and still reduced exercise heart rate at 96 h (18.4 ± 7.2%). 3 Seven subjects received in double-blind, randomised order, single oral doses of H-I 42 BS 50, 100 and 200 mg, atenolol 50 and 100 mg and placebo. H-I 42 BS 400 mg was given in a single blind manner as the last dose of the study. Both H-I 42 BS and atenolol reduced supine and standing heart rate and systolic blood pressure (P < 0.05) although atenolol had the more marked effect. The maximum percent reduction of exercise heart rate after H-I 42 BS 50 mg was 10.9 ± 7.1%, after 100 mg was 18.7 ± 5.8%, after 200 mg was 20.6 + 6.4% and after 400 mg was 21.9 ± 8.2%. H-I 42 BS 400 mg still caused 11.0 ± 3.5% reduction at 168 h. Atenolol 50 mg caused maximum percent reduction of exercise heart rate of 26.0 ± 6.0% but did not reduce exercise heart rate after 24 h. 4 The mean peak plasma concentrations for all doses of H-I 42 BS occurred at 5.1 ± 1.5 h. The plasma elimination half-life was 47.6 ± 8.1 h. There was a linear correlation between the dose and AUCO-o (r = 0.97). 5 The cardioselectivity of H-I 42 BS and atenolol was compared. Six subjects received in double-blind random order H-I 42 BS 100 and 400 mg, atenolol 50 mg and placebo. After each dose, graded infusions of isoprenaline were given until the heart rate increased by 50 beats min-1 . Dose-response curves for heart rate, diastolic blood pressure, forearm blood flow and finger tremor were constructed. 6 There was no difference in the dose-response curves for forearm blood flow or finger tremor after H-I 42 BS400 mg or atenolol 50 mg. Atenolol 50 mg caused more attenuation (P < 0.01) of the diastolic blood pressure response. 7 These results indicate that H-I 42 BS is a cardioselective ,B-adrenoceptor antagonist with a long duration of action in man.

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Section: Discussionsupporting

confidence: 80%

The assessment in man of the beta‐adrenoceptor blocking activity and cardioselectivity of H‐I 42 BS, a long acting beta‐adrenoceptor blocking drug.

Pringle

Deering

Scott

et al. 1987

Brit J Clinical Pharma

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“…In addition to direct stimulation of cardiac Pl-and 132-adrenoceptors (Arnold et al, 1985;Brown et al, 1986;Corea et al, 1984; Strauss et al, 1986), isoprenaline also produces a decrease or increase in cardiac vagal tone, depending on whether administration is by bolus injection or infusion respectively (Arnold & McDevitt, 1986 There were comparable reductions in exercise heart rate after 24 h between atenolol 50 mg and betaxolol 10 mg, and between atenolol 200 mg and betaxolol 40 mg. This is surprising in view of the known difference in pharmacokinetic half-lives between atenolol (6 h) and betaxolol (14 h) (Balnave et al, 1981;Brown et al, 1976;Cadigan et al, 1980;Fitzgerald et al, 1978;Warrington et al, 1980). In a previous single-dosing study (Balnave et al, 1981), there was a significantly greater reduction in exercise tachycardia 24 h after administration of betaxolol 40 mg in comparison with atenolol 200 mg.…”

Section: Isoprenaline Responsesmentioning

confidence: 68%

“…This is surprising in view of the known difference in pharmacokinetic half-lives between atenolol (6 h) and betaxolol (14 h) (Balnave et al, 1981;Brown et al, 1976;Cadigan et al, 1980;Fitzgerald et al, 1978;Warrington et al, 1980). In a previous single-dosing study (Balnave et al, 1981), there was a significantly greater reduction in exercise tachycardia 24 h after administration of betaxolol 40 mg in comparison with atenolol 200 mg. In a chronic dosing study comparing atenolol 200 mg once daily vs atenolol 100 mg twice daily, the latter regime was associated with higher blood levels and greater reduction of exercise heart rate prior to the morning dose, whereas differences were less marked at 3 h after the morning dose (Brown et al, 1976).…”

Section: Isoprenaline Responsesmentioning

confidence: 68%

The effects of time and dose on the relative beta 1‐ and beta 2‐ adrenoceptor antagonism of betaxolol and atenolol.

Lipworth

Irvine

McDevitt

1991

Brit J Clinical Pharma

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1. Six normal subjects were given single oral doses of betaxolol 10 mg (B10), 40 mg (B40), 80 mg (B80); atenolol 50 mg (A50), 200 mg (A200); or placebo (PL). Measurements of beta 1‐adrenoceptor blockade (reduction of exercise heart rate) and of beta 2‐adrenoceptor blockade (attenuation of isoprenaline responses) were made at baseline, and at 2, 4, 6, 8 and 24 h after drug ingestion. 2. Mean values for Cmax and tmax were as follows: B10 (33 ng ml‐1, 3.7 h), B40 (84 ng ml‐1, 4.0 h), B80 (179 ng ml‐1, 3.7 h); A50 (261 ng ml‐1, 2.7 h), A200 (1369 ng ml‐1, 2.0 h). 3. Reduction of exercise heart rate (EHR) occurred in dose‐ dependent fashion up to a ceiling at B40 (as % reduction c.f. placebo, at peak and 24 h): B10 16.2 to 10.2%, B40 27.1 to 16.2%, B80 27.0 to 18.7%; A50 20.9 to 9.1%, A200 28.8 to 15.8%. There were also dose‐ related increases in beta 2‐adrenoceptor antagonism (IT100 dose ratios, at peak and 24 h): B10 2.1 to 1.2, B40 4.7 to 2.6, B80 6.0 to 4.7; A50 2.0 to 1.2, A200 4.7 to 1.8. There were similar trends for attenuation of heart rate and DBP responses to isoprenaline. 4. Ratios of beta 1:beta 2‐adrenoceptor antagonism were calculated (as % reduction EHR divided by IT100 dose ratio); to provide an index of beta 1‐ adrenoceptor selectivity at peak and 24 h: B10 7.7 to 8.5, B40 5.8 to 6.2, B80 4.5 to 4.0; A50 10.5 to 7.6, A200 6.1 to 8.8.(ABSTRACT TRUNCATED AT 250 WORDS)

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“…First, a mean residual betaxolol concentration of 0.4 6 0.2 ng/ml (excluding the patient on maintenance therapy with betaxolol) was present in plasma before the second drug application. Since the elimination phase half-life of betaxolol in plasma is about 12 to 16 hr in healthy adults (27,(31)(32)(33) and might rise up to 26 hr in elderly subjects (27), some accumulation of the drug during the dosing interval is expected to occur when maintenance treatment is started. In accordance with that, the patient on maintenance ocular treatment with betaxolol had a higher betaxolol concentration during the follow-up.…”

Section: Discussionmentioning

confidence: 99%

Plasma Concentration of Topically Applied Betaxolol in Elderly Glaucoma Patients

Vainio-Jylhä

Vuori

Pyykkö

et al. 2001

Journal of Ocular Pharmacology and Therapeutics

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Our aim was to study the concentration of betaxolol in plasma after its topical ocular use during the normal 12 hr dosing interval. Twenty microliters of betaxolol 0.5% solution were applied into both eyes of nine glaucoma patients, and the plasma concentrations of the drug were measured 12 hr thereafter using a radioreceptor assay. The same amount of betaxolol was then applied ocularly, and its concentration in plasma was measured at 5, 10, 15, 30 min and 1, 2, 4 and 8 hr thereafter. The mean (SD) concentration of betaxolol in plasma twelve hr after the first dose was 0.4 (0.2) ng/ml. After the second dose, the patients showed a biphasic concentration vs. time curve, the first peak occurring at 8 (4) min, and the second peak at 210 (132) min; the mean (SD) peak concentrations being 1.1 (0.3) and 2.0 (1.1) ng/ml, respectively. The area under the concentration vs. time curve showed a 4-fold variation among our patients. Topically applied betaxolol was rapidly absorbed into systemic circulation, and concentrations were detectable even at 12 hr. The interindividual variation in the systemic absorption of betaxolol was large.

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Observation on the efficacy and pharmacokinetics of betaxolol (SL 75212), a cardioselective beta‐adrenoceptor blocking drug.

Cited by 32 publications

References 17 publications

The assessment in man of the beta‐adrenoceptor blocking activity and cardioselectivity of H‐I 42 BS, a long acting beta‐adrenoceptor blocking drug.

The assessment in man of the beta‐adrenoceptor blocking activity and cardioselectivity of H‐I 42 BS, a long acting beta‐adrenoceptor blocking drug.

The effects of time and dose on the relative beta 1‐ and beta 2‐ adrenoceptor antagonism of betaxolol and atenolol.

Plasma Concentration of Topically Applied Betaxolol in Elderly Glaucoma Patients

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