Optimization and validation of a bioanalytical HPLC–UV technique for simultaneous determination of underivatized phenylalanine and tyrosine in the blood for phenylketonuria diagnosis and monitoring-Reference-Cited by-同舟云学术

Optimization and validation of a bioanalytical HPLC–UV technique for simultaneous determination of underivatized phenylalanine and tyrosine in the blood for phenylketonuria diagnosis and monitoring

Published:2023-10-05 Issue:1 Volume:38 Page:
ISSN:0269-3879
Container-title:Biomedical Chromatography
language:en
Short-container-title:Biomedical Chromatography

Author:

Rabti Hadjira¹²^ORCID,Amrane Mounira¹³,Lalaouna Abdeldjalil⁴,Flilissa Abdenacer¹,Benguerba Yacine⁵

Affiliation:

1. Laboratory of Cardiovascular Diseases with Genetic and Nutritional Origin (LMCGN) Ferhat Abbas‐Setif 1 University Setif Algeria

2. Department of Pharmaceutical Engineering, Faculty of Process Engineering Salah Boubnider‐Constantine 3 University Constantine Algeria

3. Mokhtari Abdelghani Cancer Center, Elbez Setif Algeria

4. Analytical Chemistry Laboratory, Pharmacy Department, Faculty of Medicine Salah Boubnider‐Constantine 3 University Constantine Algeria

5. Biopharmacy and Pharmatechnie Laboratory (LBPT) Ferhat ABBAS University‐ Setif 1 Setif Algeria

Abstract

AbstractThis study aimed to develop a fast, accurate, and precise high‐performance liquid chromatography with UV detection method for simultaneous analysis of underivatized phenylalanine (Phe) and tyrosine (Tyr) in biological samples. Separation of the analytes was accomplished using a Discovery HS F5‐3 column, which offered better retention and peak symmetry for the tested analytes. Chromatographic conditions were optimized using central composite experimental design, and three factors were investigated: the concentration of ammonium acetate (A), the acetonitrile proportion in the mobile phase (B) and the column oven temperature (C). The approach was verified using β‐expectation tolerance intervals for total error measurement that did not exceed 15%. Optimal settings were A = 50 mm, B = 24% and C = 28°C. The method applicability was determined using human plasma from 75 volunteers. The limits of detection and quantification of the technique were satisfactory at 9 and 29 μm for Phe and 4 and 13 μm for Tyr. The mean analytical bias in spiking levels was acceptable, ranging from −1.649 to +1.659% for both substances, with RSD <5% in all instances. The suggested approach was successfully used to analyze Phe and Tyr in human blood samples and calculate the Phe/Tyr ratio.

Publisher

Wiley

Subject

Clinical Biochemistry,Drug Discovery,Pharmacology,Molecular Biology,General Medicine,Biochemistry,Analytical Chemistry

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