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4. A global portrait of counselling psychologists' characteristics, perspectives, and professional behaviors.

Author

Goodyear, R., Litchenberg, J., Hutman, H., Overland, E., Bedi, R., Christiani, K., Di Mattia, M., du Preez, E., Farrelli, B., Feather, J., Grant, Jan, Han, Y., Ju, Y., Lee, D., Lee, H., Nicholas, H., Nielsen, J., Sinacore, A., Tu, S., Young, C., Goodyear, R., Litchenberg, J., Hutman, H., Overland, E., Bedi, R., Christiani, K., Di Mattia, M., du Preez, E., Farrelli, B., Feather, J., Grant, Jan, Han, Y., Ju, Y., Lee, D., Lee, H., Nicholas, H., Nielsen, J., Sinacore, A., Tu, S., and Young, C.

Published
2016

11. Stereodynamic investigation of labile stereogenic centres in dihydroartemisinin

Author

Dorina Kotoni, Claudio Villani, Ilaria D'Acquarica, Walter Cabri, Fabrizio Giorgi, Marco Pierini, Francesco Gasparrini, Michela Di Mattia, D'Acquarica I, Gasparrini F, Kotoni D, Pierini M, Villani C, Cabri W, Di Mattia M, and Giorgi F

Subjects
Models, Molecular, Lactol, Stereochemistry, medicine.medical_treatment, dynamic HPLC (DHPLC), Pharmaceutical Science, Dihydroartemisinin, Review, Crystallography, X-Ray, on-column epimerization, Analytical Chemistry, Stereocenter, Dihydroartemisinin (DHA), lcsh:QD241-441, chemistry.chemical_compound, Antimalarials, lcsh:Organic chemistry, Drug Discovery, cryo-HPLC, medicine, Solvent polarity, computer simulation, Physical and Theoretical Chemistry, Artemisinin, Chromatography, High Pressure Liquid, Molecular Structure, Organic Chemistry, Stereoisomerism, Hydrogen-Ion Concentration, Artemisinins, chemistry, Chemistry (miscellaneous), Molecular Medicine, Hemiacetal, Epimer, Selectivity, cryo-hplc, dihydroartemisinin (dha), dynamic hplc (dhplc), medicine.drug
Abstract

Since its identification in the early 1970s, artemisinin, as well as semi-synthetic derivatives and synthetic trioxanes, have been used in malaria therapy. Reduction of artemisinin by NaBH(4) produced dihydroartemisinin (DHA), and yielded a new stereochemically labile centre at C-10, which, in turn, provided two interconverting lactol hemiacetal epimers (namely alpha and beta), whose rate of interconversion depends on buffer, pH, and solvent polarity. Since interconversion of the two epimers occurred on a chromatographic time-scale, this prompted a thorough investigation of the phenomenon as a crucial requisite of any analytical method aimed at quantitating this family of drugs. In this critical review we discuss the current importance of the on-column epimerization of DHA in the development of analytical methods aimed at quantifying the drug, with the purpose of identifying the optimal conditions to minimize on-column epimerization while achieving the best selectivity and efficiency of the overall separation.

Published
2010

12. On-column epimerization of dihydroartemisinin: An effective analytical approach to overcome the shortcomings of the International Pharmacopoeia monograph

Author

Francesco Gasparrini, Ilaria D'Acquarica, Silvana Lalli, Alessia Ciogli, Bruno Galletti, Marco Pierini, Michela Di Mattia, Patrizia Simone, Fabrizio Giorgi, Walter Cabri, Cabri W, Ciogli A, D'Acquarica I, Di Mattia M, Galletti B, Gasparrini F, Giorgi F, Lalli S, Pierini M, and Simone P

Subjects
On column, Cryo-HPLC, Chemistry, Pharmaceutical, medicine.medical_treatment, Clinical Biochemistry, Analytical chemistry, Dihydroartemisinin, cryo.HPLC, Biochemistry, High-performance liquid chromatography, Dihydroartemisinin (DHA), Analytical Chemistry, law.invention, dihydrosrtemisinin, Epimerization study, Antimalarials, Dynamic HPLC (DHPLC), Computer simulation, law, medicine, Chromatography, High Pressure Liquid, Chromatography, Chemistry, Thermal decomposition, Temperature, Cell Biology, General Medicine, Artemisinins, Chromatographic separation, Epimer, Pharmacopoeia
Abstract

We developed a cryo-HPLC/UV method for the simultaneous determination of artemisinin (1), alpha-dihydroartemisinin (2 alpha), beta-dihydroartemisinin (2 beta). and a ubiquitous thermal decomposition product of 2 (designated as diketoaldehyde, 3), starting from the International Pharmacopoeia monograph on dihydroartemisinin. The method takes for the first time the on-column epimerization process of 2 into consideration. Chromatographic separation was obtained under reversed-phase conditions on a Symmetry C18 column (3.5 mu m particle size) with a mobile phase consisting of acetonitrile-water 60:40 (v/v), delivered at 0.60-1.00 ml/min flow-rates, with ultraviolet detection at low wavelength (lambda = 210 nm). Low temperatures (T=0-10 degrees C) were selected on the grounds of a diastereoselective dynamic HPLC (DHPLC) study performed at different temperatures, aimed at identifying the best experimental conditions capable of minimizing the on-column interconversion process. (c) 2008 Elsevier B.V. All rights reserved.

Published
2008

13. Hypoxia-Mimetic CoCl 2 Agent Enhances Pro-Angiogenic Activities in Ovine Amniotic Epithelial Cells-Derived Conditioned Medium.

Author

Di Mattia M, Mauro A, Delle Monache S, Pulcini F, Russo V, Berardinelli P, Citeroni MR, Turriani M, Peserico A, and Barboni B

Subjects
Animals, Cobalt, Culture Media, Conditioned pharmacology, Epithelial Cells metabolism, Oxygen, Sheep, Hypoxia, Vascular Endothelial Growth Factor A metabolism
Abstract

Amniotic epithelial stem cells (AECs) are largely studied for their pro-regenerative properties. However, it remains undetermined if low oxygen (O 2 ) levels that AECs experience in vivo can be of value in maintaining their biological properties after isolation. To this aim, the present study has been designed to evaluate the effects of a hypoxia-mimetic agent, cobalt chloride (CoCl 2 ), on AECs' stemness and angiogenic activities. First, a CoCl 2 dose-effect was performed to select the concentration able to induce hypoxia, through HIF-1α stabilization, without promoting any cytotoxicity effect assessed through the analysis of cell vitality, proliferation, and apoptotic-related events. Then, the identified CoCl 2 dose was evaluated on the expression and angiogenic properties of AECs' stemness markers ( OCT-4, NANOG, SOX-2 ) by analysing VEGF expression, angiogenic chemokines' profiles, and AEC-derived conditioned media activity through an in vitro angiogenic xeno-assay. Results demonstrated that AECs are sensitive to the cytotoxicity effects of CoCl 2 . The unique concentration leading to HIF-1α stabilization and nuclear translocation was 10 µM, preserving cell viability and proliferation up to 48 h. CoCl 2 exposure did not modulate stemness markers in AECs while progressively decreasing VEGF expression. On the contrary, CoCl 2 treatment promoted a significant short-term release of angiogenic chemokines in culture media (CM). The enrichment in bio-active factors was confirmed by the ability of CoCl 2 -derived CM to induce HUVEC growth and the cells' organization in tubule-like structures. These findings demonstrate that an appropriate dose of CoCl 2 can be adopted as a hypoxia-mimetic agent in AECs. The short-term, chemical-induced hypoxic condition can be targeted to enhance AECs' pro-angiogenic properties by providing a novel approach for stem cell-free therapy protocols.

Published
2022
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14. Amniotic Epithelial Stem Cells Counteract Acidic Degradation By-Products of Electrospun PLGA Scaffold by Improving Their Immunomodulatory Profile In Vitro.

Author

El Khatib M, Russo V, Prencipe G, Mauro A, Wyrwa R, Grimm G, Di Mattia M, Berardinelli P, Schnabelrauch M, and Barboni B

Subjects
Animals, Cell Shape, Electric Conductivity, Hydrogen-Ion Concentration, Interleukin-10 metabolism, Interleukin-12 metabolism, Molecular Weight, Sheep, Acids chemistry, Amnion cytology, Epithelial Cells cytology, Immunomodulation, Polylactic Acid-Polyglycolic Acid Copolymer chemistry, Stem Cells cytology, Tissue Engineering, Tissue Scaffolds chemistry
Abstract

Electrospun poly(lactic- co -glycolic acid) (PLGA) scaffolds with highly aligned fibers (ha-PLGA) represent promising materials in the field of tendon tissue engineering (TE) due to their characteristics in mimicking fibrous extracellular matrix (ECM) of tendon native tissue. Among these properties, scaffold biodegradability must be controlled allowing its replacement by a neo-formed native tendon tissue in a controlled manner. In this study, ha-PLGA were subjected to hydrolytic degradation up to 20 weeks, under di-H 2 O and PBS conditions according to ISO 10993-13:2010. These were then characterized for their physical, morphological, and mechanical features. In vitro cytotoxicity tests were conducted on ovine amniotic epithelial stem cells (oAECs), up to 7 days, to assess the effect of non-buffered and buffered PLGA by-products at different concentrations on cell viability and their stimuli on oAECs' immunomodulatory properties. The ha-PLGA scaffolds degraded slowly as evidenced by a slight decrease in mass loss (14%) and average molecular weight (35%), with estimated degradation half-time of about 40 weeks under di-H 2 O. The ultrastructure morphology of the scaffolds showed no significant fiber degradation even after 20 weeks, but alteration of fiber alignment was already evident at week 1. Moreover, mechanical properties decreased throughout the degradation times under wet as well as dry PBS conditions. The influence of acid degradation media on oAECs was dose-dependent, with a considerable effect at 7 days' culture point. This effect was notably reduced by using buffered media. To a certain level, cells were able to compensate the generated inflammation-like microenvironment by upregulating IL-10 gene expression and favoring an anti-inflammatory rather than pro-inflammatory response. These in vitro results are essential to better understand the degradation behavior of ha-PLGA in vivo and the effect of their degradation by-products on affecting cell performance. Indeed, buffering the degradation milieu could represent a promising strategy to balance scaffold degradation. These findings give good hope with reference to the in vivo condition characterized by physiological buffering systems.

Published
2021
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15. Insight into Hypoxia Stemness Control.

Author

Di Mattia M, Mauro A, Citeroni MR, Dufrusine B, Peserico A, Russo V, Berardinelli P, Dainese E, Cimini A, and Barboni B

Subjects
Animals, Cell Differentiation genetics, Cell Differentiation physiology, Cell Hypoxia genetics, Cell Hypoxia physiology, Humans, Oxygen metabolism, Stem Cells metabolism
Abstract

Recently, the research on stemness and multilineage differentiation mechanisms has greatly increased its value due to the potential therapeutic impact of stem cell-based approaches. Stem cells modulate their self-renewing and differentiation capacities in response to endogenous and/or extrinsic factors that can control stem cell fate. One key factor controlling stem cell phenotype is oxygen (O 2 ). Several pieces of evidence demonstrated that the complexity of reproducing O 2 physiological tensions and gradients in culture is responsible for defective stem cell behavior in vitro and after transplantation. This evidence is still worsened by considering that stem cells are conventionally incubated under non-physiological air O 2 tension (21%). Therefore, the study of mechanisms and signaling activated at lower O 2 tension, such as those existing under native microenvironments (referred to as hypoxia), represent an effective strategy to define if O 2 is essential in preserving naïve stemness potential as well as in modulating their differentiation. Starting from this premise, the goal of the present review is to report the status of the art about the link existing between hypoxia and stemness providing insight into the factors/molecules involved, to design targeted strategies that, recapitulating naïve O 2 signals, enable towards the therapeutic use of stem cell for tissue engineering and regenerative medicine.

Published
2021
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16. Amnion-Derived Teno-Inductive Secretomes: A Novel Approach to Foster Tendon Differentiation and Regeneration in an Ovine Model.

Author

Citeroni MR, Mauro A, Ciardulli MC, Di Mattia M, El Khatib M, Russo V, Turriani M, Santer M, Della Porta G, Maffulli N, Forsyth NR, and Barboni B

Abstract

Regenerative medicine has greatly progressed, but tendon regeneration mechanisms and robust in vitro tendon differentiation protocols remain to be elucidated. Recently, tendon explant co-culture (CO) has been proposed as an in vitro model to recapitulate the microenvironment driving tendon development and regeneration. Here, we explored standardized protocols for production and storage of bioactive tendon-derived secretomes with an evaluation of their teno-inductive effects on ovine amniotic epithelial cells (AECs). Teno-inductive soluble factors were released in culture-conditioned media (CM) only in response to active communication between tendon explants and stem cells (CM CO ). Unsuccessful tenogenic differentiation in AECs was noted when exposed to CM collected from tendon explants (CM FT ) only, whereas CM CO upregulated SCXB, COL I and TNMD transcripts, in AECs, alongside stimulation of the development of mature 3D tendon-like structures enriched in TNMD and COL I extracellular matrix proteins. Furthermore, although the tenogenic effect on AECs was partially inhibited by freezing CM CO , this effect could be recovered by application of an in vivo -like physiological oxygen (2% O 2 ) environment during AECs tenogenesis. Therefore, CM CO can be considered as a waste tissue product with the potential to be used for the development of regenerative bio-inspired devices to innovate tissue engineering application to tendon differentiation and healing., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Citeroni, Mauro, Ciardulli, Di Mattia, El Khatib, Russo, Turriani, Santer, Della Porta, Maffulli, Forsyth and Barboni.)

Published
2021
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17. In Vitro Innovation of Tendon Tissue Engineering Strategies.

Author

Citeroni MR, Ciardulli MC, Russo V, Della Porta G, Mauro A, El Khatib M, Di Mattia M, Galesso D, Barbera C, Forsyth NR, Maffulli N, and Barboni B

Subjects
Animals, Cell Differentiation physiology, Humans, Regeneration physiology, Wound Healing physiology, Tendinopathy therapy, Tendons cytology, Tissue Engineering methods
Abstract

Tendinopathy is the term used to refer to tendon disorders. Spontaneous adult tendon healing results in scar tissue formation and fibrosis with suboptimal biomechanical properties, often resulting in poor and painful mobility. The biomechanical properties of the tissue are negatively affected. Adult tendons have a limited natural healing capacity, and often respond poorly to current treatments that frequently are focused on exercise, drug delivery, and surgical procedures. Therefore, it is of great importance to identify key molecular and cellular processes involved in the progression of tendinopathies to develop effective therapeutic strategies and drive the tissue toward regeneration. To treat tendon diseases and support tendon regeneration, cell-based therapy as well as tissue engineering approaches are considered options, though none can yet be considered conclusive in their reproduction of a safe and successful long-term solution for full microarchitecture and biomechanical tissue recovery. In vitro differentiation techniques are not yet fully validated. This review aims to compare different available tendon in vitro differentiation strategies to clarify the state of art regarding the differentiation process.

Published
2020
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18. Fabrication and Plasma Surface Activation of Aligned Electrospun PLGA Fiber Fleeces with Improved Adhesion and Infiltration of Amniotic Epithelial Stem Cells Maintaining their Teno-inductive Potential.

Author

El Khatib M, Mauro A, Wyrwa R, Di Mattia M, Turriani M, Di Giacinto O, Kretzschmar B, Seemann T, Valbonetti L, Berardinelli P, Schnabelrauch M, Barboni B, and Russo V

Subjects
Amnion cytology, Animals, Cell Adhesion, Cell Differentiation, Cells, Cultured, Hydrophobic and Hydrophilic Interactions, Mechanical Phenomena, Sheep, Biocompatible Materials chemistry, Biocompatible Materials pharmacology, Epithelial Cells cytology, Polylactic Acid-Polyglycolic Acid Copolymer chemistry, Stem Cells cytology, Tissue Engineering, Tissue Scaffolds chemistry
Abstract

Electrospun PLGA microfibers with adequate intrinsic physical features (fiber alignment and diameter) have been shown to boost teno-differentiation and may represent a promising solution for tendon tissue engineering. However, the hydrophobic properties of PLGA may be adjusted through specific treatments to improve cell biodisponibility. In this study, electrospun PLGA with highly aligned microfibers were cold atmospheric plasma (CAP)-treated by varying the treatment exposure time (30, 60, and 90 s) and the working distance (1.3 and 1.7 cm) and characterized by their physicochemical, mechanical and bioactive properties on ovine amniotic epithelial cells (oAECs). CAP improved the hydrophilic properties of the treated materials due to the incorporation of new oxygen polar functionalities on the microfibers' surface especially when increasing treatment exposure time and lowering working distance. The mechanical properties, though, were affected by the treatment exposure time where the optimum performance was obtained after 60 s. Furthermore, CAP treatment did not alter oAECs' biocompatibility and improved cell adhesion and infiltration onto the microfibers especially those treated from a distance of 1.3 cm. Moreover, teno-inductive potential of highly aligned PLGA electrospun microfibers was maintained. Indeed, cells cultured onto the untreated and CAP treated microfibers differentiated towards the tenogenic lineage expressing tenomodulin, a mature tendon marker, in their cytoplasm. In conclusion, CAP treatment on PLGA microfibers conducted at 1.3 cm working distance represent the optimum conditions to activate PLGA surface by improving their hydrophilicity and cell bio-responsiveness. Since for tendon tissue engineering purposes, both high cell adhesion and mechanical parameters are crucial, PLGA treated for 60 s at 1.3 cm was identified as the optimal construct.

Published
2020
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19. Electrospun PLGA Fiber Diameter and Alignment of Tendon Biomimetic Fleece Potentiate Tenogenic Differentiation and Immunomodulatory Function of Amniotic Epithelial Stem Cells.

Author

El Khatib M, Mauro A, Di Mattia M, Wyrwa R, Schweder M, Ancora M, Lazzaro F, Berardinelli P, Valbonetti L, Di Giacinto O, Polci A, Cammà C, Schnabelrauch M, Barboni B, and Russo V

Subjects
Animals, Anti-Inflammatory Agents pharmacology, Cell Proliferation drug effects, Cell Shape drug effects, Cell Survival drug effects, Epithelial Cells cytology, Epithelial Cells drug effects, Epithelial Cells metabolism, Interleukins pharmacology, Sheep, Spectroscopy, Fourier Transform Infrared, Stem Cells cytology, Stem Cells drug effects, Stem Cells metabolism, Amnion cytology, Biomimetic Materials pharmacology, Cell Differentiation drug effects, Immunologic Factors pharmacology, Polylactic Acid-Polyglycolic Acid Copolymer chemistry, Stem Cells immunology, Tendons cytology, Tissue Engineering
Abstract

Injured tendons are challenging in their regeneration; thus, tissue engineering represents a promising solution. This research tests the hypothesis that the response of amniotic epithelial stem cells (AECs) can be modulated by fiber diameter size of tendon biomimetic fleeces. Particularly, the effect of electrospun poly(lactide-co-glycolide) (PLGA) fleeces with highly aligned microfibers possessing two different diameter sizes (1.27 and 2.5 µm: ha1- and ha2-PLGA, respectively) was tested on the ability of AECs to differentiate towards the tenogenic lineage by analyzing tendon related markers (Collagen type I: COL1 protein and mRNA Scleraxis: SCX, Tenomodulin : TNMD and COL1 gene expressions) and to modulate their immunomodulatory properties by investigating the pro- (IL-6 and IL-12) and anti- (IL-4 and IL-10) inflammatory cytokines. It was observed that fiber alignment and not fiber size influenced cell morphology determining the morphological change of AECs from cuboidal to fusiform tenocyte-like shape. Instead, fleece mechanical properties, cell proliferation, tenogenic differentiation, and immunomodulation were regulated by changing the ha-PLGA microfiber diameter size. Specifically, higher DNA quantity and better penetration within the fleece were found on ha2-PLGA, while ha1-PLGA fleeces with small fiber diameter size had better mechanical features and were more effective on AECs trans-differentiation towards the tenogenic lineage by significantly translating more efficiently SCX into the downstream effector TNMD. Moreover, the fiber diameter of 1.27 µm induced higher expression of pro-regenerative, anti-inflammatory interleukins mRNA expression (IL-4 and IL-10) with favorable IL-12/IL-10 ratio with respect to the fiber diameter of 2.5 µm. The obtained results demonstrate that fiber diameter is a key factor to be considered when designing tendon biomimetic fleece for tissue repair and provide new insights into the importance of controlling matrix parameters in enhancing cell differentiation and immunomodulation either for the cells functionalized within or for the transplanted host tissue.

Published
2020
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20. Stereolability of dihydroartemisinin, an antimalarial drug: a comprehensive kinetic investigation. Part 2.

Author

Cabri W, D'Acquarica I, Simone P, Di Iorio M, Di Mattia M, Gasparrini F, Giorgi F, Mazzanti A, Pierini M, Quaglia M, and Villani C

Subjects
Catalysis, Hydrogenation, Kinetics, Molecular Structure, Osmolar Concentration, Stereoisomerism, Antimalarials chemistry, Artemisinins chemistry
Abstract

Artemisinin or qinghaosu has now largely given way to the more potent dihydroartemisinin (DHA, 1) and its derivatives in the treatment of drug-resistant malaria, in combination with other classical antimalarial drugs. DHA is obtained by NaBH(4) reduction of artemisinin and contains a stereochemically labile center at C-10, which provided two lactol hemiacetal interconverting epimers, namely 1α and 1β. In the solid state, the drug consists exclusively of the β-epimer; however, upon dissolution, the two epimers equilibrate, reaching different solvent-dependent ratios with different rates. Such equilibration also occurs in vivo, irrespective of the isomeric purity at which the drug would have been administered. The aim of this study was then to achieve an in-depth understanding of the kinetic features of the α/β equilibration. To this purpose, free energy activation barriers (ΔG(‡)) of the interconversion were determined as a function of both general and specific acid and base catalysts, ionic strength, and temperature in different solvents by dynamic HPLC (DHPLC). In hydro-organic media, the dependence of ΔG(‡) on temperature led to the evaluation of the related enthalpic and entropic contributions. Theoretical calculations suggested that the rate-determining step of the interconversion is not the ring-opening of the cyclic hemiacetal but the previous reversible deprotonation of the individual epimers (base-catalyzed mechanism). The whole findings may contribute to shed some light on the mechanism of action and/or bioavailability of the drug at the molecular level.

Published
2011
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21. Stereolability of dihydroartemisinin, an antimalarial drug: a comprehensive thermodynamic investigation. Part 1.

Author

Cabri W, D'Acquarica I, Simone P, Di Iorio M, Di Mattia M, Gasparrini F, Giorgi F, Mazzanti A, Pierini M, Quaglia M, and Villani C

Subjects
Hydrogen-Ion Concentration, Models, Molecular, Molecular Conformation, Solvents chemistry, Stereoisomerism, Thermodynamics, Antimalarials chemistry, Artemisinins chemistry
Abstract

Artemisinin (Qinghaosu, 1) is a sesquiterpene lactone endoperoxide isolated from Artemisia annua L. that Chinese herbalists have traditionally used to treat malaria. Reduction of artemisinin by NaBH(4) produced dihydroartemisinin (DHA, 2) and yielded a new stereochemically labile center at C-10, which in turn provided two lactol hemiacetal interconverting epimers, namely, 2α and 2β. With the aim of fully investigating the thermodynamics of interconversion, we gathered the relative abundance of the two epimers within a wide variety of solvents and rationalized the results by linear solvation energy relationships (LSER) analysis. Beside the difference in polarity, the better stabilization of 2α in polar solvents was found to be significantly related to its greater acidity with respect to 2β, which was estimated by two independent theoretical approaches based on molecular modeling calculations and empirical data, and supported by (1)H NMR measurements. On the contrary, differential effects of cavitational energy have been highlighted as interactions strongly responsible for the small values of equilibrium constant measured for the β ⇆ α process in the less polar media. Determination of forward and backward epimerization rate constants in seven media, clearly differing in both permittivity and capacity to be H-bond donors, indicated that, in the spontaneous process, the transition state of the rate-limiting step develops a significant degree of anionic character, as typically happens in the base-catalyzed breakdown of hemiacetals.

Published
2011
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22. Stereodynamic investigation of labile stereogenic centres in dihydroartemisinin.

Author

D'Acquarica I, Gasparrini F, Kotoni D, Pierini M, Villani C, Cabri W, Di Mattia M, and Giorgi F

Subjects
Chromatography, High Pressure Liquid, Computer Simulation, Crystallography, X-Ray, Hydrogen-Ion Concentration, Models, Molecular, Molecular Structure, Stereoisomerism, Antimalarials chemistry, Artemisinins chemistry
Abstract

Since its identification in the early 1970s, artemisinin, as well as semi-synthetic derivatives and synthetic trioxanes, have been used in malaria therapy. Reduction of artemisinin by NaBH4 produced dihydroartemisinin (DHA), and yielded a new stereochemically labile centre at C-10, which, in turn, provided two interconverting lactol hemiacetal epimers (namely alpha and beta), whose rate of interconversion depends on buffer, pH, and solvent polarity. Since interconversion of the two epimers occurred on a chromatographic time-scale, this prompted a thorough investigation of the phenomenon as a crucial requisite of any analytical method aimed at quantitating this family of drugs. In this critical review we discuss the current importance of the on-column epimerization of DHA in the development of analytical methods aimed at quantifying the drug, with the purpose of identifying the optimal conditions to minimize on-column epimerization while achieving the best selectivity and efficiency of the overall separation.

Published
2010
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