Comparative pharmacokinetics of acetylsalicylic acid and sodium salicylate in chickens and turkeys.

1. Pharmacokinetics of acetylsalicylic acid (ASA) and sodium salicylate (SS) were assessed following single intravenous (i.v.) and oral administration at doses of 50 mg/kg body weight to chickens and turkeys. Plasma drug concentrations were determined using high-performance liquid chromatography with ultraviolet detection and pharmacokinetic variables were calculated using a non-compartmental model. 2. The mean residence time (MRT) of salicylate (SA) after i.v. administration of SS was 6.08 ± 0.59 and 3.32 ± 0.27 h and after oral administration was 6.95 ± 0.72 and 4.55 ± 0.71 h in chickens and turkeys, respectively. The elimination half-life (T 1/2 e) was shorter in turkeys compared with chickens. The value of body clearance (ClB) was higher in turkeys than in chickens, but the apparent volume of distribution (V ss) was similarly low in both species. The bioavailability of SS was complete and the maximal plasma concentration of SA (C max) after oral administration was 96.93 ± 8.06 and 91.76 ± 9.64 µg/ml, respectively, in chickens and turkeys. 3. The MRT of ASA after iv administration was 0.24 ± 0.08 and 0.24 ± 0.02 h and after oral administration was 0.78 ± 0.25 and 0.59 ± 0.13 h, respectively, in chickens and turkeys. In both species, T 1/2 e was very short, ClB and V ss were similar and markedly higher than those of salicylate. The bioavailability of unchanged ASA was low and C max after oral administration was 6.9 ± 3.6 µg/ml in chickens and 8.6 ± 1.3 µg/ml in turkeys.

CYP2D6 extensive, intermediate, and poor phenotypes and genotypes in a Polish population.

OBJECTIVE: This study investigated the distribution of the CYP2D6 genotypes and phenotypes in a Polish population and compared the concordance of the two methods. METHODS: Six hundred unrelated healthy individuals from southwestern Poland were studied. The CYP2D6 phenotype was analyzed in 300 individuals using sparteine as a model drug. The CYP2D6 genotype was analyzed in 300 individuals by polymerase chain reaction amplification and restriction fragment length polymorphism techniques for the CYP2D6*1, CYP2D6*3, and CYP2D6*4 alleles. Additionally, in 60 randomly selected healthy individuals both the CYP2D6 phenotype and genotype was assessed to determine accordance between the methods. RESULTS: Of 300 participants in the study 25 (8.3%) were classified as poor metabolizers, 44 (14.7%) as intermediate metabolizers, and 231 (77%) as extensive metabolizers of sparteine. The frequency of CYP2D6*1, CYP2D6*3, and CYP2D6*4 alleles among the genotyped 300 persons was 75.7%, 1.3%, and 23.0%, respectively. The frequency of CYP2D6 deficient genotypes in a Polish population (8.0%) was similar to phenotyping results. The comparison of phenotype and genotype in 60 randomly selected individuals showed a good concordance of the obtained results. CONCLUSIONS. The frequencies of poor metabolizers for CYP2D6 phenotype (8.3%) and genotype (8.0%) in a Polish population from the southwestern region are in concordance and compare well with most results of poor oxidation metabolizers in other white populations.

The influence of CYP2D6 polymorphism on the antiarrhythmic efficacy of propafenone in patients with paroxysmal atrial fibrillation during 3 months propafenone prophylactic treatment.

OBJECTIVE: Propafenone (PPF) is an antiarrhythmic, Class Ic agent. Its metabolism is genetically controlled by a cytochrome P450 isoenzyme named CYP2D6, which shows polymorphism in human population. The aim of this paper was to determine the correlation between the antiarrhythmic efficacy of PPF and the oxidation phenotype. SUBJECTS AND MATERIAL: The study group consisted of 42 patients, aged 36 to 75 years, suffering from paroxysmal atrial fibrillation (AF). The oxidation phenotype was described by the metabolic ratio (MR) of sparteine. The MR value separated the group of poor metabolizers (MR > 20) from the group of extensive metabolizers (MR < 20) with the subgroup of very extensive metabolizers (MR < 1). METHOD: The study was conducted during a 3-month PPF therapy for the prophylaxis of paroxysmal atrial fibrillation. PPF was given orally, 300-450 mg/day. The oxidation phenotype was checked prior to the administration of PPF. Serum concentration of PPF at 7, 11 days and the end of PPF therapy were determined. Statistical analysis of data was performed with the chi2 test and the Pearson's correlation methods. RESULTS: In the group of 42 patients, PPF therapy was 100% effective in poor metabolizers (PM). In extensive metabolizers (EM), 61% efficacy was observed with efficacy 0% in very extensive metabolizers (VEM). The correlation between oxidation phenotype and the ability to maintain sinus rhythm (SR) was statistically significant (r = 0.414, p < 0.05). CONCLUSIONS: The antiarrhythmic efficacy of propafenone depends on the oxidation phenotype; 100% efficacy occurred in the group of poor metabolizers whereas PPF, at the dose tested, was ineffective in very extensive metabolizers.

[Interactions of nonsteroidal anti-inflammatory drugs]. / Interakcje niesteroidowych leków przeciwzapalnych.

The nonsteroidal anti-inflammatory drugs (NSAIDs) are widely used and very commonly prescribed, especially in the elderly population. Many of NSAIDs are over-the-counter (OTC) drugs, which increase risk of interactions with other drugs. Types of interactions, their clinical relevance, groups of patients with increased risk of interactions and prevention methods are shortly described.

[Oxidation phenotype as a risk factor for development of allergic diseases]. / Fenotyp oksydacji jako czynnik zwiekszajacy ryzyko wystapienia chorób alergicznych.

The relationship between genetically determined polymorphic metabolism and susceptibility to allergic diseases has aroused much interest. The aim of our study was to evaluate whether patients with allergic diseases, like atopic asthma and allergic rhinitis differ from healthy persons in their ability to oxidize sparteine as a model drug. The study was completed by 200 persons, 40 patients with allergic diseases--20 with atopic asthma and 20 with allergic rhinitis and 160 healthy volunteers as a control group. The results of our study revealed a predominance of very extensive metabolizers of sparteine among patients with allergic diseases in comparison with healthy volunteers. The difference in the oxidation metabolic ratio (MR) frequency distribution between patients with allergic diseases and healthy persons was statistically significant. Relative risk (odds ratio) of development of atopic asthma was 3.29 times higher, and that of allergic rhinitis 2.94 times higher for persons with very extensive oxidation phenotype. Our results represent some evidence for a possible relationship between extensive, rapid oxidation phenotype and the higher susceptibility to development of atopic asthma and allergic rhinitis.

[Clinical significance of oxidation and acetylation genetic polymorphism in patients with Parkinson's disease]. / Kliniczne znaczenie polimorfizmu oksydacji sparteiny i acetylacji sulfadimidyny u chorych na chorobe Parkinsona.

The relationship between genetically determined polymorphic oxidation and acetylation and susceptibility to some disease has aroused much interest. The aim of our study was to evaluate whether patients with Parkinson's disease differ from healthy persons in their ability to oxidize sparteine and acetylate sulfadimidine as model drugs. Oxidation and acetylation phenotypes were estimated in 50 patients with Parkinson's disease. The control group consisted of 160 healthy volunteers for comparison of oxidation phenotype and 60 healthy volunteers for comparison of acetylation phenotype. The phenotyping of oxidation revealed two distinct populations among 50 patients with Parkinson's disease: 47 persons (94%) were extensive metabolizers of sparteine and 3 persons (6%) were poor metabolizers. In 160 healthy persons, 146 persons (91.2%) were extensive metabolizers of sparteine and 14 persons (8.8%) were poor metabolizers. The difference between frequency distribution of PMs and EMs in healthy persons and in patients with Parkinson's disease was not statistically significant. The phenotyping of acetylation showed among 50 patients with Parkinson's disease 38 persons (76%) slow acetylators and 12 persons (24%) rapid acetylators. In 60 healthy volunteers the phenotype of slow acetylation was observed in 29 persons (48.3%) and rapid acetylation in 31 persons (51.7%). The prevalence of slow acetylators among patients with Parkinson's disease in comparison to healthy volunteers was statistically significant (chi 2 = 8.7677/p < 0.003). The results of our study may suggest that the slow acetylation phenotype is associated with increased risk of the development of Parkinson's disease.

[Importance of genetically determined acetylation of drugs and xenobiotics in pathogenesis of neoplasms]. / Znaczenie genetycznie uwarunkowanej acetylacji leków i ksenobiotyków w patogenezie chorób nowotworowych.

A role of biomarker in determination of phenotype susceptibility to carcinogeus in environment may be connected with drug metabolism determined changes in drug metabolism is suggested as the most important in rational clinical therapy in neoplasmatic patients.

[Clinical significance of the determination of oxidation and acetylation phenotype in patients with multiple sclerosis]. / Kliniczne znaczenie badania fenotypu oksydacji i acetylacji u chorych na stwardnienie rozsiane.

Genetically determined individual differences in the ability of oxidation and acetylation of certain drugs have raised in recent years a considerable interest in view of their clinical importance. The purpose of the study was finding out of a possible difference in the ability to oxidized sparteine and to acetylate sulfamidine as model drugs between patients with multiple sclerosis and healthy control volunteers. The study was carried out in 23 patients with MS. The control group comprised 160 healthy subjects for comparison of oxidation phenotype. The results of determination of acetylation phenotype were obtained in 45 healthy controls. The study showed that in 160 controls 146 were extensive (rapid) metabolizers (91.3%) and 14 were weak (slow) metabolizers of sparteine (8.7%). In the group of MS patients 21 were extensive metabolizers (91.3%) and 2 were weak metabolizers (8.7%). The determination of acetylation phenotype in 45 controls showed 51% of rapid acetylation (23 subjects) and 49% of slow acetylation (22.

[The role of genetically determined acetylation of drugs and xenobiotics in pathogenesis of neoplastic diseases]. / Znaczenie uwarunkowanej genetycznie acetylacji leków i ksenobiotyków w patogenezie chorób nowotworowych.

The relationship between genetically determined polymorphic hepatic acetylation and susceptibility to neoplastic diseases have aroused much interest. This work presents modern views on that subject.

[The role of genetically determined oxidation of drugs and xenobiotics in pathogenesis of neoplastic diseases]. / Znaczenie genetycznie uwarunkowanego utleniania leków i ksenobiotyków w patogenezie chorób nowotworowych.

The relationship between genetically determined polymorphic hepatic oxidation and susceptibility to neoplastic diseases have aroused much interest. Some studies provide evidence of a possible association between oxidation phenotype, especially extensive and very extensive phenotype, and increased risk of the development of cancers. This work presents modern views on that subject.

Genetically determined sparteine oxidation and sulfadimidine acetylation polymorphism in patients with non-occupational urinary bladder cancer.

The results of our study revealed a predominance of the percentage of extensive metabolizers (EM) of sparteine (94.8%) among 58 patients with non-occupational urinary bladder cancer in comparison with the percentage of extensive metabolizers (91.2%) in healthy persons; the difference being not statistically significant. However, among ultrarapid (EM) oxidators with the metabolic ratio (MR) < 0.5 the difference in the MR frequency distribution between 15 patients with bladder cancer (25.9%) and 18 healthy persons (11.25%) was statistically significant. Therefore, our studies provide some evidence of a possible relationship between the EM sparteine oxidation phenotype and the susceptibility to non-occupational bladder cancer. Not statistically significant slight prevalence of the percentage of slow acetylators (SA) (53.1%) among 32 urinary bladder cancer patients in comparison with the percentage of SA (49%) among 45 healthy persons may confirm the conclusion that a slow acetylator phenotype is not associated with the increased risk of the development of non-occupational urinary bladder cancer.

Genetically determined sparteine oxidation polymorphism in a Polish population.

The genetic oxidation polymorphism was determined in 160 healthy Polish volunteers from the south-west of Poland (Wroclaw region), using sparteine as a model drug. The results of a Polish population study revealed a bimodal distribution of the sparteine metabolic ratio and showed the existence of two oxidation phenotypes designated as extensive and poor metabolizers. The frequency of poor metabolizers in our study (8.8%) compares well with most results of poor oxidation metabolizers in Caucasian populations.