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Liquid chromatography has become the gold standard for modern quality control and purity analytics since its establishment in the 1930s. However, some analytical questions remain very challenging even today. Several molecules and impurities do not possess a suitable chromophore for the application of UV detection or cannot be retained well on regular RP columns. Possible solutions are found in derivatization procedures, but they are time consuming and can be prone to errors. In order to detect non chromophore molecules underivatized, the concept of aerosol based universal detection was established with the introduction of the evaporative light scattering detector (ELSD) in the 1970s and the charged aerosol detector (CAD) followed in 2002. These two challenging fields – polar and non chromophore molecules – are tackled in this thesis.
An overview of applications of the CAD in the literature and a comparison to its aerosol based competitors and MS is presented, emphasizing on its high sensitivity and robustness. Parameters and techniques to overcome the drawbacks of CAD, such as the use of gradient compensation or adjusted evaporation temperatures are discussed. A consideration of aspects and drawbacks of data transformation such as the integrated power function value (PFV) in the GMP environment is performed.
A method for the fatty acid analysis in polysorbate 80 that was developed on HPLC CAD was transferred to UHPLC CAD. Time and eluent savings of over 75% and 40%, respectively, as well as ways to determine the optimal CAD parameters resulted from this investigation. The evaporation temperature was determined as the most crucial setting, which has to be adjusted with care. Optimal signal to noise ratios are found at a compromise between maintaining analyte signal and reducing background noise. The incorporation of semi volatile short chain fatty acids enabled the observation of differences based on volatility of the analyte. E.g. for semi volatiles, an improved linearity by means of adjusting the PFV is achieved at values below 1.0 instead of at elevated PFVs.
Using sugars and sugar related antibiotics, a proof-of-concept was given that artificial neural networks can describe correlations between the structure and physicochemical properties of molecules and their response in CAD. Quantitative structure property relationships obtained by design of experiment approaches were able to predict the response of unseen substances and yielded insights on the response generation of the detector, which heavily relies on the formed surface area of the dried particle. Further work can substantiate upon these findings, eventually building a library of diverse eluent compositions, analytes and settings.
In order to cope with a chromatographically challenging substances, the application of ion pairing reversed phase chromatography coupled to low wavelength UV detection has been shown as a possible approach for the amino acid L asparagine. A method capable of compendial purity analysis in one single HPLC approach, thus making the utilization of the semi quantitative TLC-ninhydrin analysis obsolete, resulted from this. One cyclic dipeptide impurity (diketoasparagine) that was formerly not assessed, could be identified in several batches and added to the monograph of the Ph.Eur.
Studying ibandronate sodium with CAD and ELSD, it was found that randomly occurring spike peaks represent a major flaw of the ELSD when high sample load is present. The research with this non chromophore bisphosphonate drug furthermore shed light on possible drawbacks of mixed mode chromatography methods and ways to overcome these issues. Due to strong adsorption of the analyte onto the column, over ten injections of the highly concentrated test solution were found to be necessary to ensure reproducible peak areas. Preconditioning steps should thus be evaluated for mixed mode approaches during method development and validation.
Last, using a ternary mixed mode stationary phase coupled to CAD, a method for the impurity profiling of pamidronate disodium, also applicable to the assessment of phosphate and phosphite in four other bisphosphonate drugs, has been developed. This represents a major advantage over the Ph.Eur. impurity profiling of pamidronate, which requires two different methods, one of which is only a semi quantitative TLC approach.
Die Detektion Arzneimittel-induzierter Leberschädigung (engl. DILI – Drug induced liver injury) stellt eine Herausforderung in der präklinischen Entwicklung von Arzneistoffen dar. Die zur Verfügung stehenden konventionellen klinisch-chemischen Marker, wie Alanin-Aminotransferase (ALAT), Aspartat-Aminotransferase (ASAT) und Alkalische Phosphatase (APh), zeigen z. B. bei minimaler bis leichter Leberpathologie keine Veränderungen im Serum an und besitzen somit nur eine geringe Sensitivität für den frühzeitigen Nachweis einer Lebertoxizität. Des Weiteren besitzen klinisch-chemische Serummarker gleichzeitig eine geringe Spezifität und sind somit für die Differenzierung unterschiedlicher Lebertoxizitäten nur limitiert geeignet. Neben den beschriebenen diagnostischen Herausforderungen können u. a. auch histopathologische Befunde in der Leber, ohne eine Veränderung der klinisch-chemischen Serummarker auftreten und umgekehrt. Die Histopathologie ist als Goldstandard zwar spezifisch, als invasive Technik für eine Verlaufskontrolle in toxikologischen und klinischen Studien aber ungeeignet. In den vergangenen Jahren lieferten Studien zum Gallensäure-Profiling mittels Flüssigkeitschromatographie-Tandem-Massenspektrometrie (LC-MS/MS) mit Modellsubstanzen, die unterschiedliche Formen einer Lebertoxizität in Ratten induzierten Hinweise, dass individuelle Gallensäuren ein diagnostisches Potential für die Bewertung einer Leberschädigung besitzen. Ziel dieser Arbeit ist es, dass Gallensäure-Profiling in die vorgeschriebene Diagnostik der Lebertoxizität in der präklinischen Arzneimittelentwicklung zu implementieren und zu bewerten, ob diese Marker einen wertvollen Beitrag zur Charakterisierung einer Lebertoxizität leisten können.
Hierzu wurde eine quantitative LC-MS/MS-Methode etabliert und validiert, die es ermöglicht, 20 verschiedene endogene Gallensäuren in Ratten zu analysieren. Die quantitative Analytik ermöglichte eine selektive Bestimmung von primären, konjugierten und sekundären Gallensäuren. Für die Quantifizierung der individuellen Gallensäuren wurden 2 MRM-Übergänge bestimmt. Zur Bestimmung des Arbeitsbereiches wurden 20 Referenzstandards von Gallensäuren verwendet. Eine Kalibrierung mit sieben Kalibrierpunkten in aufsteigender Konzentration wurde für die Bestimmung der endogenen Konzentrationen genutzt. Zur Kompensation des Matrixeffektes wurden 10 isotopenmarkierte interne Standards in die Analytik eingefügt. Die Reproduzierbarkeit laufender Messungen wurde durch eingefügte Qualitätskontrollen (QCs) in drei verschiedenen Konzentrationsbereichen überwacht.
Es wurde ein Gallensäure-Profiling mittels LC-MS/MS im Plasma und Lebergewebe von Ratten, die mit verschiedenen Arzneimitteln behandelt wurden, durchgeführt. Histopathologische
Zusammenfassung
Untersuchungen konnten aufzeigen, dass sich in den Lebern von männlichen Ratten, die mit dem Arzneimittel Amitriptylin über 14 Tage behandelt wurden, eine makrovesikuläre Steatose in der Leber manifestierte. Die klassischen Serummarker, wie ALAT, ASAT und Gamma-Glutamyltransferase (γGT), konnten diese Art des Leberschadens nicht detektieren. Dagegen erhöhten sich die Konzentrationen Glycin-konjugierter Gallensäuren mit parallel absinkenden Konzentrationen von Taurin-konjugierten Gallensäuren im Lebergewebe behandelter Ratten. Gleichzeitig ergaben sich signifikant erhöhte Konzentrationen der primären Gallensäuren CA und CDCA im Plasma behandelter Ratten.
Andere Gallensäure-Profile konnten nach einer Methapyrilen-induzierten Leberzellnekrose mit hepatobiliärer Schädigung beobachtet werden. Nach einer 14-tägigen Behandlungsphase mit 80 mg/kg KG Methapyrilen, erhöhten sich die Konzentrationen von 11 Gallensäuren im Lebergewebe behandelter Tiere. Gleichzeitig stiegen die Konzentrationen von allen 20 individuellen Gallensäuren im Plasma behandelter Ratten an.
Zusätzlich zur quantitativen Analyse von Gallensäuren mittels LC-MS/MS wurde die Expression von Genen der Gallensäure-Biosynthese, des Gallensäure-Transports und die Regulation der Gallensäure-Homöostase mittels Multiplex-Analyse untersucht. Die erhöhte Expression von Genen für Efflux-Transporter der Multidrug Resistance-Related Protein (MRP)-Familie deutet auf einen gesteigerten Abtransport von Gallensäuren ins Blut hin und korrespondierte mit erhöhten Gallensäure-Konzentrationen im Plasma der behandelten Ratten.
Des Weiteren wurden die Erkenntnisse der Gallensäure-Profile aus den tierexperimentellen Studien als Grundlage genutzt, um Arzneimittel-induzierte Lebertoxizität auf ein zellbiologisches In-vitro-System zu übertragen. Es wurden In-vitro-Experimente mit primären Rattenhepatozyten zwischen zwei Kollagenmatrices (Sandwich-Kultivierung) durchgeführt. Dieses etablierte System wird u. a. für Untersuchungen an hepatobiliären Transportsystemen (z. B. Bile Salt Export Pump, BSEP) genutzt. Das Gallensäure-Profiling in den Zellkulturüberständen belegt, dass die primären Hepatozyten konjugierte Gallensäuren bilden, dass sie bei einer Inkubation mit primären Gallensäuren diese verstoffwechseln und dadurch, neben den bereits vorhandenen Gallensäuren, weitere konjugierte Gallensäuren produzieren. Eine Exposition mit den Hepatotoxinen Troglitazon und Methapyrilen führte zu Veränderungen in der Gallensäure-Homöostase der Hepatozyten.
In den In-vivo-Experimenten wurde eine Methapyrilen-induzierte Nekrose mit hepatobiliärer Schädigung in den behandelten Ratten festgestellt. Bei der Behandlung mit Methapyrilen ergaben sich starke Konzentrationsanstiege der Gallensäuren im Plasma (u. a. von GCA und TCA), die mit den histopathologischen Befunden korrelierten. Anhand dieser Daten und der
Zusammenfassung
pharmakokinetischen Eigenschaften von Methapyrilen wurde ein Studiendesign für Rattenhepatozyten in Sandwich-Kulturen entwickelt, um eine initiale Abschätzung der Konzentrationsveränderungen von Gallensäuren im In-vitro-Testsystem durchzuführen. Ab Tag 8 der Behandlung kam es zu einem erhöhten Anstieg der GCA- und TCA-Konzentrationen im Zellkulturmedium. Daher besitzt das In-vitro-Testsystem möglicherweise das Potential, tierexperimentelle Studien bei der Bewertung einer Hepatotoxizität zu unterstützen oder sogar zu reduzieren.
Insgesamt zeigen diese Ergebnisse aus dieser Arbeit, dass Gallensäure-Profiling in männlichen und weiblichen Ratten eine geeignete Methode zur Detektion und Differenzierung von Leberschäden ist. Die Technologie ist flexibel einsetzbar und kann bereits etablierte Testverfahren, wie die Bestimmung von Serummarkern in der Klinischen Chemie und die Histopathologie unterstützen. Damit besitzt das Gallensäure-Profiling das Potential, die Bewertung beim Nachweis und bei der Charakterisierung einer Lebertoxizität im Rahmen der Evaluierung von präklinischen Arzneimittelkandidaten zu verbessern.
Bioprinting has emerged as a valuable threedimensional (3D) biomanufacturing method to fabricate complex hierarchical cell-containing constructs. Spanning from basic research to clinical translation, sterile starting materials are crucial. In this study, we present pharmacopeia compendial sterilization methods for the commonly used bioink component alginate. Autoclaving (sterilization in saturated steam) and sterile filtration followed by lyophilization as well as the pharmacopeia non-compendial method, ultraviolet (UV)-irradiation for disinfection, were assessed. The impact of the sterilization methods and their effects on physicochemical and rheological properties, bioprinting outcome, and sterilization efficiency of alginate were detailed. Only sterile filtration followed by lyophilization as the sterilization method retained alginate's physicochemical properties and bioprinting behavior while resulting in a sterile outcome. This set of methods provides a blueprint for the analysis of sterilization effects on the rheological and physicochemical pattern of bioink components and is easily adjustable for other polymers used in the field of biofabrication in the future.
Microbial, mammalian, and plant cells produce and contain secondary metabolites, which typically are soluble in water to prevent cell damage by crystallization. The formation of ion pairs, for example, with carboxylic acids or mineral acids, is a natural blueprint to maintain basic metabolites in solution. Here, we aim at showing whether the mostly large carboxylates form soluble protic ionic liquids (PILs) with the basic natural product papaverine resulting in enhanced aqueous solubility. The obtained PILs were characterized by H-1-N-15 HMBC nuclear magnetic resonance (NMR) and in the solid state using X-ray powder diffraction, differential scanning calorimetry, and dissolution measurements. Furthermore, their supramolecular pattern in aqueous solution was studied by means of potentiometric and photometrical solubility, NMR aggregation assay, dynamic light scattering, zeta potential, and viscosity measurements. Thereby, we identified the naturally occurring carboxylic acids, citric acid, malic acid, and tartaric acid, as being appropriate counterions for papaverine and which will facilitate the formation of PILs with their beneficial characteristics, like the improved dissolution rate and enhanced apparent solubility.
Plant extracts from Cecropia genus have been used by Latin-American traditional medicine to treat metabolic disorders and diabetes. Previous reports have shown that roots of Cecropia telenitida that contains serjanic acid as one of the most prominent and representative pentacyclic triterpenes. The study aimed to isolate serjanic acid and evaluate its effect in a prediabetic murine model by oral administration. A semi-pilot scale extraction was established and serjanic acid purification was followed using direct MALDI-TOF analysis. A diet induced obesity mouse model was used to determine the impact of serjanic acid over selected immunometabolic markers. Mice treated with serjanic acid showed decreased levels of cholesterol and triacylglycerols, increased blood insulin levels, decreased fasting blood glucose and improved glucose tolerance, and insulin sensitivity. At transcriptional level, the reduction of inflammation markers related to adipocyte differentiation is reported.
Hysterectomy has a variety of medical indications and improves pre-operative symptoms but might compromise the quality of life during recovery due to symptoms such as fatigue, headache, nausea, depression, or pain. The aim of the present study was to determine the effect of a standardized extract from French oak wood (Quercus robur) containing at least 40% polyphenols of the ellagitannins class, Robuvit\(^®\), on convalescence and oxidative stress of women after hysterectomy. Recovery status was monitored with the SF-36 questionnaire. The supplementation with Robuvit\(^®\) (300 mg/day) during 4 weeks significantly improved general and mental health, while under placebo some items significantly deteriorated. Oxidative stress and enhancement of MMP–9 activity was significantly reduced by Robuvit\(^®\) versus placebo. After 8 weeks of intervention, the patients’ condition improved independently of the intervention. Our results suggest that the use of Robuvit\(^®\) as a natural supplement relieves post-operative symptoms of patients after hysterectomy and reduces oxidative stress. The study was registered with ID ISRCTN 11457040 (13/09/2019).
The muscarinic M\(_1\) acetylcholine receptor is an important drug target for the treatment of various neurological disorders. Designing M\(_1\) receptor-selective drugs has proven challenging, mainly due to the high conservation of the acetylcholine binding site among muscarinic receptor subtypes. Therefore, less conserved and topographically distinct allosteric binding sites have been explored to increase M\(_1\) receptor selectivity. In this line, bitopic ligands, which target orthosteric and allosteric binding sites simultaneously, may provide a promising strategy. Here, we explore the allosteric, M1-selective BQCAd scaffold derived from BQCA as a starting point for the design, synthesis, and pharmacological evaluation of a series of novel bitopic ligands in which the orthosteric moieties and linker lengths are systematically varied. Since β-arrestin recruitment seems to be favorable to therapeutic implication, all the compounds were investigated by G protein and β-arrestin assays. Some bitopic ligands are partial to full agonists for G protein activation, some activate β-arrestin recruitment, and the degree of β-arrestin recruitment varies according to the respective modification. The allosteric BQCAd scaffold controls the positioning of the orthosteric ammonium group of all ligands, suggesting that this interaction is essential for stimulating G protein activation. However, β-arrestin recruitment is not affected. The novel set of bitopic ligands may constitute a toolbox to study the requirements of β-arrestin recruitment during ligand design for therapeutic usage.
The stability of Trp in pure solutions and in parenteral AA formulations was evaluated with regard to typically used manufacturing processes, storage conditions and primary packaging. Therefore, thorough stability studies on Trp solutions were conducted beforehand. The applied stressing method, i.e. steam sterilization by autoclave, are chemically seen relatively mild but showed to be efficient to induce Trp degradation in the presence of oxygen. Subsequent identification, separation and characterization were challenging due to similar substance properties, numerous stereoisomers and pairs of diastereomers found amongst them. However, the identified o-aminoacetophenone compounds, Kyn and NFK, are associated with photo reactivity and have photo-oxidizing properties. Thus, best possible protection from UV-light, together with strict oxygen expulsion, are the most important criteria to impede Trp degradation after autoclaving.
The identification of Trp degradation products was assisted by the compilation of a substance library, which included manifold reported and chemically plausible Trp degradation substances. The substances were classified for priority and their early or late-stage occurrence. The large number of possible substances and stereoisomers was narrowed down with the information retrieved from LC-UV/MS experiments. However, final identification was achieved by the synthesis of proposed substances as references. The following eight substances were characterized as Trp degradation substances: Kyn, NFK and three pairs of diastereomers R,R/R,S DiOia, R,R/R,S Oia and cis/trans PIC. Fig. 33 shows the proposed degradation pathway and demonstrates the close chemical relationship, which may be an explanation for the conversion of some substances into each other during the storage period. The proposed pathway brings together the results of different Trp stability and stressing studies, respectively [89, 94, 97, 98, 103, 133]. To our knowledge, the simultaneous formation of the identified degradation substances has not been reported before and especially not under the stressing conditions applied.
The application of a traditional RP-HPLC method was compared to two developed IP-HPLC methods and a RP-HPLC methods using a modified perfluorinated column. Orthogonal analyses methods and especially the combination of UV and MS detection are necessary in order to indicate potentially undetected degradation substances. Main evaluation criteria were the separation performance, analyses time, reproducibility and feasibility. The best results upon assessment of all Trp degradation products, in both; pure Trp solutions and pharmaceutical formulations, were obtained by a traditional RP-HPLC. The optimized method was validated according to ICH guidelines Q2(R1) and meets the criteria of a stability-indicating HPLC-UV method. The validated method has a sufficient separation performance with an adequate selectivity indicating the Trp degradation substances next to each other and next to other AAs in finished pharmaceutical formulations.
The detailed knowledge of Trp degradation and the method presented may be transferred practically to the pharmaceutical industry processing Trp-containing products. In general, the findings might contribute to the quality management of such pharmaceutical products during
manufacturing and storage. Additionally, the study results provide basic information for the establishment of an impurity consideration following the ICH guidelines Q3B (R2) (impurities in new drug products) for products containing Trp. However, further development of the method applying more sophisticated detectors or more potent HPLC techniques like e.g. UHPLC and the implication of more sensitive (MS) detectors like ToF-MS would be advantageous with regard to economic and practical aspects.
Alzheimer′s disease (AD) is a neurological disorder with still no preventive or curative treatment. Flavonoids are phytochemicals with potential therapeutic value. Previous studies described the flavanone sterubin isolated from the Californian plant Eriodictyon californicum as a potent neuroprotectant in several in vitro assays. Herein, the resolution of synthetic racemic sterubin (1) into its two enantiomers, (R)‐1 and (S)‐1, is described, which has been performed on a chiral chromatographic phase, and their stereochemical assignment online by HPLC‐ECD coupling. (R)‐1 and (S)‐1 showed comparable neuroprotection in vitro with no significant differences. While the pure stereoisomers were configurationally stable in methanol, fast racemization was observed in the presence of culture medium. We also established the occurrence of extracted sterubin as its pure (S)‐enantiomer. Moreover, the activity of sterubin (1) was investigated for the first time in vivo, in an AD mouse model. Sterubin (1) showed a significant positive impact on short‐ and long‐term memory at low dosages.
Ellagitannins are signature constituents of oak wood and their consumption has been associated with various health benefits. In vivo, they undergo metabolic degradation including gut microbial metabolism yielding urolithins. Only limited data is available about compounds being present in blood after intake of an extract from French oak wood, Robuvit®. In the course of a randomized, double-blind, controlled clinical investigation, 66 patients undergoing hysterectomy received placebo or 300 mg Robuvit® per day before and over 8 weeks after surgery. Serum and blood cell samples were analyzed by liquid chromatography electrospray ionization tandem mass spectrometry (LC-ESI-MS/MS). The number of urolithin producers and the urolithin levels increased after intake of Robuvit®. In serum samples, the median concentration of urolithin A was 14.0 ng/ml [interquartile range (IQR) 57.4] after 8 weeks. Urolithin B was determined at 22.3 ng/ml (IQR 12.6), urolithin C at 2.66 ng/ml (IQR 2.08). In blood cells, lower concentrations and only urolithins A and B were detected. A statistically significant association of lower post-surgical pain scores with metabotype A was detected (p < 0.05). To conclude, supplementation with French oak wood extract raised urolithin generation in patients and suggested health advantages for urolithin-producers.