Ismael Lares‐Asseff scite author profile

Although the drug-metabolizing enzyme CYP2D6 has been studied extensively in subjects of differing ethnicities, limited CYP2D6 pharmacogenetic data are available for the Amerindian population and Mestizos of Mexico. Dextromethorphan hydroxylation phenotype was studied in Tepehuano Amerindian (n = 58) and Mestizo (n = 88) subjects, and 195 individuals (85 Tepehuano Amerindians and 110 Mestizos) were genotyped by polymerase chain reaction-restriction fragment length polymorphism methods to identify the frequencies of the CYP2D6*3, *4, *6, and *10 alleles. Tepehuano Amerindian subjects lacked the poor metabolizer (PM) phenotype, whereas in Mestizos the PM phenotype frequency was 6.8%. The CYP2D6*3, *6, and *10 alleles were not found in Tepehuano Amerindians. The CYP2D6*4 allele had a low frequency (0.006) in this Amerindian group. In the Mestizo group, the CYP2D6*3, *4, and *10 alleles had frequencies of 0.009, 0.131, and 0.023, respectively. The CYP2D6*6 allele was not found in Mestizos. The genotype-phenotype association was strongly statistically significant (r(2) = .45; P = .005) in Mestizos. The Tepehuano population was found to have a low phenotypic and genotypic CYP2D6 diversity and differed from other Amerindian groups. On the other hand, the frequencies of the CYP2D6 variant alleles in Mestizos were similar to those reported for whites.

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Population Pharmacokinetics and Pharmacodynamics of Dexmedetomidine in Children Undergoing Ambulatory Surgery

Pérez-Guillé

Toledo-López

Rivera-Espinosa

et al. 2018

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BACKGROUND:Dexmedetomidine (DEX) is an α-2 adrenergic agonist with sedative and analgesic properties. Although not approved for pediatric use by the Food and Drug Administration, DEX is increasingly used in pediatric anesthesia and critical care. However, very limited information is available regarding the pharmacokinetics of DEX in children. The aim of this study was to investigate DEX pharmacokinetics and pharmacodynamics (PK–PD) in Mexican children 2–18 years of age who were undergoing outpatient surgical procedures.METHODS:Thirty children 2–18 years of age with American Society of Anesthesiologists physical status score of I/II were enrolled in this study. DEX (0.7 μg/kg) was administered as a single-dose intravenous infusion. Venous blood samples were collected, and plasma DEX concentrations were analyzed with a combination of high-performance liquid chromatography and electrospray ionization-tandem mass spectrometry. Population PK–PD models were constructed using the Monolix program.RESULTS:A 2-compartment model adequately described the concentration–time relationship. The parameters were standardized for a body weight of 70 kg by using an allometric model. Population parameters estimates were as follows: mean (between-subject variability): clearance (Cl) (L/h × 70 kg) = 20.8 (27%); central volume of distribution (V1) (L × 70 kg) = 21.9 (20%); peripheral volume of distribution (V2) (L × 70 kg) = 81.2 (21%); and intercompartmental clearance (Q) (L/h × 70 kg) = 75.8 (25%). The PK–PD model predicted a maximum mean arterial blood pressure reduction of 45% with an IC50 of 0.501 ng/ml, and a maximum heart rate reduction of 28.9% with an IC50 of 0.552 ng/ml.CONCLUSIONS:Our results suggest that in Mexican children 2–18 years of age with American Society of Anesthesiologists score of I/II, the DEX dose should be adjusted in accordance with lower DEX clearance.

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Influence of CYP2D6 Deletion, Multiplication, –1584C→G, 31G→A and 2988G→A Gene Polymorphisms on Dextromethorphan Metabolism among Mexican Tepehuanos and Mestizos

et al. 2010

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The aim of this study was to explain the variability of CYP2D6 activity by the identification of CYP2D6 deletion and multiplications, and the single-nucleotide polymorphisms (SNPs) –1584C→G, 31G→A and 2988G→A in Mexican Mestizo and Tepehuano subjects. One hundred twelve Mestizos and 99 Tepehuano Amerindians were studied, who were previously phenotyped with dextromethorphan. The frequencies of CYP2D6*2A [–1584C→G] and *35 [–1584C→G, 31G→A] were 10.7 and 4.1%, respectively, in Mestizos, which is evidently a trend towards an extensive metabolism in carriers of the –1584G change. In Tepehuanos, *2A was identified with a frequency of 20%, and the allele *35 was not found. The frequencies of CYP2D6*5 (deletion) and *41[2988G→A] were 1.3 and 2.2% in Mestizos and 0.5 and 1% in Tepehuanos, respectively. The SNP 2988A was found to be significantly related with the intermediate metabolizer phenotype in Mestizos (R = 0.309; n = 88; p = 0.006). The multiplications had frequencies of 4.1% in Mestizos and 1.5% in Tepehuanos. Only in the Mestizos did the presence of multiplications significantly decrease the DM/DX (dextromethorphan/dextrorphan) values (R = 0.273; n = 88; p = 0.016). The polymorphisms studied had different frequencies between Tepehuanos and Mestizos (p < 0.001); however, in the Tepehuano group these had a low influence on their phenotypic expression. It helps to understand the genotype-phenotype relationships of CYP2D6 in our studied populations.

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CYP2C9 allele frequency differences between populations of Mexican-Mestizo, Mexican-Tepehuano, and Spaniards

Dorado

et al. 2010

Pharmacogenomics J

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Earlier we had found that the CYP2C9*2 allelic frequency was lower in Mexican-Americans living in California than in Spaniards (SP). This was assumed to be related to the low CYP2C9*2 and *3 allele frequencies in Orientals. This study was therefore aimed at analyzing whether there were also differences in CYP2C9 allele frequencies between Mexican-Tepehuanos (MT) and Mexican-Mestizos (MM) living in northwestern Mexico and SP. The CYP2C9*2 frequency was expected to be lower in the indigenous MT than in the two other groups, and lower in MM than in SP as in our earlier study. CYP2C9 genotypes and allele frequencies of two populations of healthy volunteers, MT (n=99) and MM (n=102), were compared with a population of SP (n=327). The data were also compared with our previously published population of Mestizo-Mexican-Americans (MA). The CYP2C9 genotypes among the studied populations were in equilibrium. The frequencies of CYP2C9*2 were 0.01, 0.07, 0.08, and 0.16 for MT, MM, MA, and SP subjects, respectively. In agreement with our hypothesis, CYP2C9*2 was significantly lower in the Mexican populations than in the SP (P<0.05), and among Mexicans in the MT than in the MM and MA groups (P<0.05), which presented similar frequencies. Moreover, the frequency of CYP2C9*3 was found to be lower (P<0.05) in MM (0.015) and MT (0.015) than in MA (0.06) and SP (0.08). Finally, the CYP2C9*6 allele was present just in one MM subject, and CYP2C9*4 and *5 were not found in the studied populations. Therefore, these findings add further evidence about CYP2C9 genetic diversity within Hispanic populations with regard to their ancestry. Considering that CYP2C9*2 and CYP2C9*3 alleles have altered catalytic activities relative to CYP2C9*1, the present data suggest the need for pharmacogenetic studies to optimize drug dosages in different populations.

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