Method for identification and quantification of intact teduglutide peptide using (RP)UHPLC-UV- (HESI/ORBITRAP)MS
Metadatos
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Royal Society of Chemistry
Date
2022-10-10Referencia bibliográfica
Anal. Methods, 2022, Advance Article. DOI: [10.1039/d2ay01254e]
Patrocinador
Fundacion Andaluza de Farmacia Hospitalaria (Spain) TEC01 FQM 118; Junta de Andalucia DOC_01694; Hospital Paediatrics Pharmacy Unit of the Hospital Vall d' Hebron (Barcelona, Spain)Résumé
Teduglutide (Revestive®, 10 mg mL−1) is a recombinant human glucagon-like peptide 2 analogue, used in
the treatment of short bowel syndrome, a serious and highly disabling condition which results from either
too small a length of intestine or loss of critical intestinal function. The determination of therapeutic
compounds of protein-nature is always challenging due to their complex structure. In this work, we
present a fast, straightforward reversed phase (RP)UHPLC-UV-(HESI/ORBITRAP)MS method for the
identification and quantification of the intact teduglutide peptide. The method has been developed and
validated in accordance with the International Council for Harmonization of Technical Requirements for
Pharmaceuticals for Human Use (ICH) guidelines; therefore, linearity, limits of detection and
quantification, accuracy (precision and trueness), robustness, system suitability and specificity using the
signal from the UV and MS, have been evaluated. The validation performance parameters obtained from
the UV and MS signals were compared throughout the work, to select the most suitable. To study the
specificity of the method and the impact of medicine mishandling under hospital conditions, force
degradation studies were performed, i.e. thermal (40 °C and 60 °C), shaking (mechanical) and light
(accelerated exposition) effects. Identification by the exact mass of teduglutide was achieved and it was
confirmed that the peptide does not undergo any post-translational modifications (PTMs). To the best of
our knowledge, the present work reports the first method developed for the simultaneous identification,
structural characterization, and quantification of the therapeutic teduglutide peptide. Finally, the
proposed method is able to indicate stability when quantifying the intact teduglutide since detects and
characterises the exact mass of the degradation/modification products.