Comparison of Effect of Leukotriene Biosynthesis Blockers and Inhibitors of Phosphodiesterase Enzyme in Patients with Bronchial Hyperreactivity Blocking effect of leukotriene biosynthesis-zileuton and blocking the effect of phosphodiesterase enzyme-diprophylline in the treatment of patients with bronchial asthma and bronchial increased reactivity, and tiotropium bromide as an antagonist of the muscarinic receptor studied in this work. Parameters of the lung function are determined with Body plethysmography. The resistance of the airways (Raw) was registered and measured was intrathoracic gas volume (ITGV), and specific resistance (SRaw) was also calculated. For the research, administered was zileuton (tabl. 600 mg) and diprophylline (tabl. 150 mg). Two days after in-house administration
Methylxanthines induce structural and functional alterations of the cardiac system in zebrafish embryos Zebrafish embryos are emerging as a model for pharmacological and toxicological studies. We used zebrafish embryos to study the general toxicity and cardiovascular effects of eight methylxanthines: aminophylline, caffeine, diprophylline, doxofylline, etophylline, 3-isobutyl-1-methylxanthine to assess the cardiovascular effects. Our results showed different activity patterns of the methylxanthines drugs. Caffeine, IBMX, pentoxifylline and theophylline were highly embryotoxic and teratogenic; aminophylline, doxofylline and etophylline were embryotoxic and teratogenic only at higher doses, and diprophylline showed a minimal (<10%) embryotoxicity and teratogenicity. Most of these drugs induced
[Comparison of the bronchodilator and protective effect of methylxanthines]. In study I, carried out on 9 asthmatics to investigate whether the bronchodilator and protective effect of intravenous theophylline, dissolved in ethylene diamine (T.E.) or proxyphylline and diprophylline (T.P.D.), showed different dose-effect relationships, 100 mg theophylline with T.E., T.P.D. or NaCl (placebo) were
Protective effect of methylxanthines against carbachol-induced bronchoconstriction in normal subjects. The bronchoprotective effect of bioequivalent doses of theophylline (TH; 234 mg) and a combination of TH, proxyphylline (PPH) and diprophylline (DPH) in the proportion 2:3:3 (Neo-Biphyllin, NB; 600 mg) against carbachol-induced bronchoconstriction was studied in 10 healthy non-smokers
Effect of a methylxanthine preparation in the form of a retention enema on pulmonary function and theophylline levels in patients with acute bronchospasm. The goal of the current study was to determine whether administration of a methylxanthine preparation in the form of a retention enema (theophylline-diprophylline-proxyphylline combination, Neobiphyllin-Clys) has an effect similar to that of intravenous theophylline in the treatment of acute bronchospasm. In a randomized cross-over study 16 patients with a history of asthma were given 0.48 g of theophylline-ethylenediamine (TE) in the form of rapid intravenous infusion or a retention enema containing 400 mg theophylline, 600 mg diprophylline and 600 mg proxyphylline (TDP). Forced expiratory volume in the first second (FEV1) airways resistance
[Bronchodilator effect of methylxanthine derivatives (author's transl)]. The bronchodilator effect of theophylline ethylenediamine was compared with that of a combination of the methylxanthines theophylline, diprophylline and proxyphylline, after administration of slow-release capsules. At an initial dose of twice two capsules the two drug preparations produced similar, therapeutically
[Cross-over double-blind study using neophylline oral (proxyphylline and diprophylline) in bronchial asthma]. In a double-blind crossover trial 16 asthmatic patients were given placebo or 4 or 8 tablets of Neophyllin (each tablet containing 56 mg proxyphylline and 84 mg diprophylline) on two consecutive days. Very slight bronchodilatation independent of the oral dose and plasma level was observed tablet). When Neophyllin was taken only proxyphylline caused bronchodilatation (no correlation between plasma diprophylline levels and bronchodilatation). The threshold value of plasma proxyphylline was about 13 microgram/ml plasma. Below this level proxyphylline is ineffective (likewise no correlation between plasma proxyphylline levels and bronchodilatation). An oral dose of about 600 mg
[Comparison of the bronchodilatatory efficacy of oral methylxanthines (author's transl)]. Two tablets of aminophylline (each 350 mg) or of a mixture (75 mg theophylline, 112,5 mg diprophylline, 112,5 mg proxyphylline per tablet) were given to 12 patients with reversible air-flow obstruction and their effects on lung function, blood pressure and pulse rate were surveyed for eight hours as an intra
[Bronchospasmolysis in chronic obstructive respiratory tract disease. Clinico-pathological studies using theophylline-ethylenediamine, diprophylline, and hexoprenaline].
of theophylline either dissolved in ethylenediamine or in proxyphylline and diprophylline. At 4 separate study days, the patients received one of the following preparations in a double-blind random order: saline solution, 200 mg of theophylline in 19.9 mg of ethylenediamine (TE200), 351 mg of theophylline in 35 mg of ethylenediamine (TE351), and 200 mg of theophylline in 300 mg of propxyphylline and 300 mg of diprophylline (TPD). Fifteen minutes after the end of infusion, a standardized exercise test during cold air breathing was performed. Before and up to 30 minutes after each test, specific airway resistance and FEV, were determined. Postexertional bronchoconstriction after theophylline was expressed by means of a protection index, a value of 0 or 1 meaning no or full protection, respectively. At mean (SD
Bronchodilator effect of theophylline preparations and aerosol fenoterol in stable asthma. To compare the acute bronchodilator effect of increasing doses of intravenous theophylline and inhaled beta adrenergic agonists, we administered intravenous theophylline dissolved in ethylenediamine or proxyphylline and diprophylline or placebo in a double blind fashion to nine asthmatics on three different days. At each session, 100 mg theophylline or placebo were given during each of five subsequent periods of 30 minutes' duration and followed by inhalation of 0.4 mg fenoterol. In contrast to placebo, 500 mg theophylline in ethylenediamine or proxyphylline and diprophylline significantly decreased mean specific airway resistance (SRaw in cmH2O.s) from 31.2 to 23.6 or 34.2 to 23.5 at theophylline serum
[Pharmacokinetic and clinical effectiveness of rectally administered theophylline]. The bronchodilatory effect of Neo-Biphyllin Mikroklysma (400 mg Theophylline [T], 600 mg Diprophylline [D], 600 mg Proxyphylline [P], corresponding to 5.2 mg/kg bodyweight of T, and 7.8 mg/kg of D and P, respectively) was studied on 5 consecutive days with one daily rectal application in a double-blind crossover
by intravenous dripping and diprophylline 0.2 g 3 times per day orally, the treatment group (n = 60) treated with SG 10 g 3 times a day orally additionally besides the treatment given to the control group. The therapeutic course for both groups was 3 weeks. The changes of the cardiac function, the right ventricular function [A peak velocity (VA), E peak velocity (VE), VA/VE, systolic pulmonary artery pressure
) and diprophylline (7-(2,3-dihydroxypropyl)-theophylline) (Neobiphyllin; TPD = test preparation) in 10 healthy volunteers by a single blind cross-over design. Both preparations were infused under continuous control of vital parameters (blood pressure, pulse, respiration frequency, heart rhythm) as infusions (1 ampoule with 800 mg TPD or 1 short-infusion with 480 mg of TE for 20 min, each) up to the individual