Synthesis and in vitro evaluation of a novel radioligand for αvβ3 integrin receptor imaging: [(18)F]FPPA-c(RGDfK).

The development of RGD-based antagonist of αvβ3 integrin receptor has enhanced the interest in PET probes to image this receptor for the early detection of cancer, to monitor the disease progression and the response to therapy. In this work, a novel prosthetic group (N-(4-fluorophenyl)pent-4-ynamide or FPPA) for the (18)F-labeling of an αvβ3 selective RGD-peptide was successfully prepared. [(18)F]FPPA was obtained in three steps with a radiochemical yield of 44% (decay corrected). Conjugation to c(RGDfK(N3)) by the Cu(II) catalyzed Huisgen azido alkyne cycloaddition provided the [(18)F]FPPA-c(RGDfK) with a radiochemical yield of 29% (decay corrected), in an overall synthesis time of 140min.

In vitro evaluation of staphylococcus aureus biofilm formation on bone grafts and bone substitues

Background: Bacteria form a biofilm on the surface of orthopaedic devices, causing persistent and infection. Little is known about biofilms formation on bone grafts and bone substitutes. We analyzed various representative materials regarding their propensity for biofilm formation caused by Staphylococcus aureus.Methods: As bone graft beta-tricalciumphosphate (b-TCP, CyclOsTM) and as bone substitute a tantalum metal mesh (trabecular metalTM) and PMMA (Pala-cosTM) were investigated. As test organism S. aureus (strain ATCC 29213) was used. Test materials were incubated with bacterial solution of 105 colony-forming units (cfu)/ml at 37°C for 24 h without shaking. After 24 h, the test materials were removed and washed 3 times in normal saline, followed by sonication in 50 ml Ringer solution at 40 kHz for 5 minutes. The resulting sonication fluid was plated in aliquots of 0.1 ml onto aerobe blood agar with 5% sheep blood and incubated at 37°C with 5% CO2 for 24 h. Then, bacterial counts were enumerated and expressed as cfu/ml. All experiments were performed in triplicate to calculate the mean ± standard deviation. The Wilcoxon test was used for statistical calculations.Results: The three investigated materials show a differing specific surface with b-TCB>trabecular metal>PMMA per mm2. S. aureus formed biofilm on all test materials as confirmed by quantitative culture after washing and sonication. The bacterial counts in sonication fluid (in cfu/ml) were higher in b-TCP (5.1 x 106 ± 0.6 x 106) and trabecular metal (3.7 x 106 ± 0.6 x 106) than in PMMA (3.9 x 104 ± 1.8 x 104), p<0.05.Conclusion: Our results demonstrate that about 100-times more bacteria adhere on b-TCP and trabecular metal than on PMMA, reflecting the larger surface of b-TCP and trabecuar metal compared to the one of PMMA. This in-vitro data indicates that bone grafts are susceptible to infection. Further studies are needed to evaluate efficient approaches to prevent and treat infections associated with bone grafts and substitutes, including modification of the surface or antibacterial coating.

Sunitinib-eluting beads for chemoembolization: methods for in vitro evaluation of drug release.

Drug-eluting microspheres are used for embolization of hypervascular tumors and allow for local controlled drug release. Although the drug release from the microspheres relies on fast ion-exchange, so far only slow-releasing in vitro dissolution methods have been correlated to in vivo data. Three in vitro release methods are assessed in this study for their potential to predict slow in vivo release of sunitinib from chemoembolization spheres to the plasma, and fast local in vivo release obtained in an earlier study in rabbits. Release in an orbital shaker was slow (t50%=4.5h, 84% release) compared to fast release in USP 4 flow-through implant cells (t50%=1h, 100% release). Sunitinib release in saline from microspheres enclosed in dialysis inserts was prolonged and incomplete (t50%=9 days, 68% release) due to low drug diffusion through the dialysis membrane. The slow-release profile fitted best to low sunitinib plasma AUC following injection of sunitinib-eluting spheres. Although limited by lack of standardization, release in the orbital shaker fitted best to local in vivo sunitinib concentrations. Drug release in USP flow-through implant cells was too fast to correlate with local concentrations, although this method is preferred to discriminate between different sphere types.

Evaluation in vitro de la fonction hémostatique des concentrés plaquettaires traités par inactivation des pathogènes par amotosalem-UVA

La transfusion de concentrés plaquettaires, dès 1958, a permis d'augmenter l'espérance et la qualité de vie des patients dans le domaine de l'onco-hématologie, notamment en réduisant les risques hémorragiques induits par les chimiothérapies intensives. Après le traumatisme de l'affaire du sang contaminé dans les années 1980-1990, la médecine transfusionnelle a adopté des exigences de sécurité et de qualité très strictes et régulées dans plusieurs pays par les instances politiques. Cependant même les mesures de qualité les plus strictes n'ont permis d'atteindre le risque « zéro », notamment en ce qui concerne les contaminations bactériennes. De plus, la prise de conscience de l'existence de nouveaux pathogènes (West Nile Virus, Chikungunya, Prions) a stimulé le développement de 3 techniques d'inactivation des pathogènes pouvant s'appliquer au plasma et aux concentrés plaquettaires : la technique INTERCEPT utilisant l'amotosalen/UVA, la technique MIRASOL avec la riboflavine/UV et la technique THERAFLEX avec les UVC. La Suisse a fait office de pionnière en étant le premier pays au monde à adopter de manière généralisée l'inactivation des pathogènes par la technique INTERCEPT pour les concentrés plaquettaires dès 2011 après sa validation par Swissmedic en 2009 et son implémentation réussie dans plusieurs centres de transfusion pilotes. Coïncidence? Le décès tragique d'un patient pédiatrique en 2009 suite à une contamination bactérienne par une transfusion de concentré plaquettaire a précédé cette décision. Les cliniciens ont besoin de disposer de concentrés plaquettaires sûrs d'un point de vue microbiologique mais également sur le plan hémostatique, d'où la nécessité de disposer de preuves solides sur l'efficacité thérapeutique de ces nouveaux produits. Ceci a fait l'objet de la revue publiée dans Blood Reviews « The clinical and biological impact of new pathogen inactivation technologies on platelets concentrates » dont l'originalité est de couvrir l'étude de l'effet des processus d'inactivation des pathogènes sur la fonction plaquettaire sous toutes ses facettes allant de la protéomique aux études d'hémovigilance. Ce travail montre l'efficacité de ces méthodes et leur sécurité et souligne que l'observation de taux de recirculation moindre peut être compensée par une augmentation du statut d'activation des plaquettes. Le deuxième article publié comme co-auteur dans le journal Blood Transfusion « In vitro evaluation of pathogen-inactivated buffy coat-derived platelet concentrates during storage: The psoralen-based photochemical treatment step-by-step » se pose la question de la modification des propriétés fonctionnelles des plaquettes dans une étude à deux bras (par comparaison entre plaquettes traitées et non traitées). En plus de deux tests utilisés en pratique clinique (agrégation plaquettaire et cytométrie de flux) un test expérimental d'adhésion plaquettaire au fibrinogène en condition statique a été développé en collaboration avec le Prof Angelillo-Scherrer dans le cadre du laboratoire de recherche et développement du SRTS-VD. Les résultats obtenus démontrent la conservation du métabolisme plaquettaire et des changements mineurs dans la capacité d'agrégation mais une augmentation de la capacité d'adhésion au fibrinogène des plaquettes traitées probablement via une augmentation de la conversion de l'intégrine ailb(B3 dans sa forme activée. Les techniques d'inactivation des pathogènes appliqués aux concentrés plaquettaires représentent un important progrès dans le domaine de la médecine transfusionnelle. Leur impact au niveau moléculaire reste cependant encore en partie inconnu et fait l'objet d'études. Le défi actuel consiste à réussir à les adopter aux concentrés érythrocytaires, ce qui révolutionnerait la médecine transfusionnelle.

Evaluation in vitro de la réactivité des particules fines et ultrafines : rapport scientifique final

Une des percées les plus importantes dans la recherche sur les nanoparticules (ambiantes et manufacturées) a été la reconnaissance de leur potentiel à générer un stress oxydatif au niveau cellulaire. Dans cette optique, la mesure du potentiel oxydant intrinsèque des particules pourrait présenter une première étape dans l'évaluation des dangers. Ce projet méthodologique avait pour but de caractériser le potentiel oxydant de différentes nanoparticules « modèles » (ambiantes et manufacturées) au moyen de trois tests acellulaires (Test DTT, Test DCFH, Test oxymétrique) et d'utiliser ces résultats pour proposer une méthode de « référence ». D'autre part, nous avons appliqué la méthode sélectionnée à deux cas (exposition d'ouvriers à des particules de combustion et évaluation du danger de différentes nanoparticules manufacturées) afin de déterminer quels sont les paramètres qui influencent la mesure. Les résultats obtenus indiquent que la préparation des suspensions joue un rôle dans la mesure de ce potentiel oxydant. La réactivité dépend de la concentration du surfactant et de la durée de sonication. D'autre part, l'ordre de réactivité est dépendant de la métrique utilisée (masse ou surface) pour exprimer les résultats. Parmi les trois tests considérés, le test DTT pourrait être le plus utile pour effectuer une évaluation initiale du danger potentiel de nanoparticules ambiantes ou manufacturées. Ce test pourrait être intégré dans une stratégie d'évaluation de la toxicité des nanoparticules. Le test DTT correspond bien un test intégratif. Pour des situations de travail dans lesquelles les particules de combustion sont majoritaires, les paramètres physico-chimiques qui corrèlent de manière significative avec la réactivité DTT sont la surface des particules, les concentrations de carbone organique, la somme des concentrations de quatre quinones et les concentrations de fer et cuivre. Un nombre plus faible de corrélations est observé dans des ateliers mécaniques, suggérant que d'autres composés non mesurés interviennent également dans cette réactivité. Concernant les nanoparticules carbonées manufacturées, les fonctions chimiques de surface corrélées avec la réactivité DTT sont des fonctions acides et des fonctions inconnues pouvant dismuter. D'autre part, la solubilité et la possibilité de former des complexes avec le DTT sur la surface des NP manufacturées influencent le résultat de réactivité.

In vitro and in vivo evaluation of sunitinib eluting beads

Background: Chemoembolization is used to treat liver malignancies. However recurrence occurs frequently, possibly because of neoangiogenesis triggered by ischemia caused by the embolic agent. In this context, the combination of an embolic agent with an anti-angiogenic drug seems appealing. This study characterizes the in vitro loading and release profile of sunitinib eluting beads of different sizes and their pharmacokinetic profile in a rabbit model. Methods: 70-150 μm and 100-300 μm drug eluting beads (DC Bead, Biocompatibles UK) were loaded by incubation in a sunitinib hydrochloride solution. Drug was quantified by spectrophotometry at 430 nm. Drug release was measured over one-week periods and normalized using an internal standard in 30% ethanol in NaCl 0.9%. New-Zealand white rabbits were used. Eight animals received 0.2 ml of 100-300 μm DC Bead loaded with 6 mg of sunitinib in the hepatic artery (group 1) and 4 animals received 6 mg of sunitinib p.o. (group 2). Half of the animals were sacrificed after 6 hours and half after24 hours. Liver enzymes were measured at 0, 6 and 24 hours in both groups. Plasmatic sunitinib concentration was determined by tandem mass spectroscopy (LC MS/MS) at 0, 1, 2, 3, 4, 5, 6 and 24 hours. At sacrifice, the livers were harvested and sunitinib concentration in liver tissue was assessed by LC MS/MS. Results: High drug loading was obtained for both microsphere bead sizes. Particle shrinking was observed with adsorption of sunitinib. Almost complete release of sunitinib was detected under physiological conditions, with very similar release for 70-150 μm and 100-300 μm (t50%=1.2 h) DC Bead. Conclusions: Sunitinib eluting beads are well tolerated by rabbits when administered in the hepatic artery. No unexpected toxicity was observed. Very high drug concentration can be obtained at the site of embolization with minimal systemic passage.

A novel cyclosporin a aqueous formulation for dry eye treatment: in vitro and in vivo evaluation.

PURPOSE: The aim of the present study was the in vitro and in vivo evaluation of a novel aqueous formulation based on polymeric micelles for the topical delivery of cyclosporine A for dry eye treatment. METHODS: In vitro experiments were carried out on primary rabbit corneal cells, which were characterized by immunocytochemistry using fluorescein-labeled lectin I/isolectin B4 for the endothelial cells and mouse monoclonal antibody to cytokeratin 3+12 for the epithelial ones. Living cells were incubated for 1 hour or 24 hours with a fluorescently labeled micelle formulation and analyzed by fluorescence microscopy. In vivo evaluations were done by Schirmer test, osmolarity measurement, CyA kinetics in tears, and CyA ocular distribution after topical instillation. A 0.05% CyA micelle formulation was compared to a marketed emulsion (Restasis). RESULTS: The in vitro experiments showed the internalization of micelles in the living cells. The Schirmer test and osmolarity measurements demonstrated that micelles did not alter the ocular surface properties. The evaluation of the tear fluid gave similar CyA kinetics values: AUC = 2339 ± 1032 min*μg/mL and 2321 ± 881.63; Cmax = 478 ± 111 μg/mL and 451 ± 74; half-life = 36 ± 9 min and 28 ± 9 for the micelle formulation and Restasis, respectively. The ocular distribution investigation revealed that the novel formulation delivered 1540 ± 400 ng CyA/g tissue to the cornea. CONCLUSIONS: The micelle formulation delivered active CyA into the cornea without evident negative influence on the ocular surface properties. This formulation could be applied for immune-related ocular surface diseases.

Evaluation of drug-induced neurotoxicity based on metabolomics, proteomics and electrical activity measurements in complementary CNS in vitro models.

The present study was performed in an attempt to develop an in vitro integrated testing strategy (ITS) to evaluate drug-induced neurotoxicity. A number of endpoints were analyzed using two complementary brain cell culture models and an in vitro blood-brain barrier (BBB) model after single and repeated exposure treatments with selected drugs that covered the major biological, pharmacological and neuro-toxicological responses. Furthermore, four drugs (diazepam, cyclosporine A, chlorpromazine and amiodarone) were tested more in depth as representatives of different classes of neurotoxicants, inducing toxicity through different pathways of toxicity. The developed in vitro BBB model allowed detection of toxic effects at the level of BBB and evaluation of drug transport through the barrier for predicting free brain concentrations of the studied drugs. The measurement of neuronal electrical activity was found to be a sensitive tool to predict the neuroactivity and neurotoxicity of drugs after acute exposure. The histotypic 3D re-aggregating brain cell cultures, containing all brain cell types, were found to be well suited for OMICs analyses after both acute and long term treatment. The obtained data suggest that an in vitro ITS based on the information obtained from BBB studies and combined with metabolomics, proteomics and neuronal electrical activity measurements performed in stable in vitro neuronal cell culture systems, has high potential to improve current in vitro drug-induced neurotoxicity evaluation.

Efficacy of iclaprim against wild-type and thymidine kinase-deficient methicillin-resistant Staphylococcus aureus isolates in an in vitro fibrin clot model.

Iclaprim is a novel diaminopyrimidine antibiotic that is active against methicillin-resistant Staphylococcus aureus (MRSA). However, it is known that the activity of diaminopyrimidines against S. aureus is antagonized by thymidine through uptake and conversion to thymidylate by thymidine kinase. Unlike with humans, for whom thymidine levels are low, thymidine levels in rodents are high, thus precluding the accurate evaluation of iclaprim efficacy in animal models. We have studied the bactericidal activity of iclaprim against an isogenic pair of MRSA isolates, the wild-type parent AW6 and its thymidine kinase-deficient mutant AH1252, in an in vitro fibrin clot model. Clots, which were aimed at mimicking vegetation structure, were made from human or rat plasma containing either the parent AW6 or the mutant AH1252, and they were exposed to homologous serum supplemented with iclaprim (3.5 microg/ml), trimethoprim-sulfamethoxazole (TMP-SMX; 8/40 microg/ml), vancomycin (40 microg/ml), or saline, each of which was added one time for 48 h. In rat clots, iclaprim and TMP-SMX were bacteriostatic against the parent, AW6. In contrast, they were bactericidal (> or = 3 log10 CFU/clot killing of the original inoculum) against the mutant AH1252. Vancomycin was the most active drug against AW6 (P < 0.05), but it showed an activity similar those of iclaprim and TMP-SMX against AH1252. In human clots, iclaprim was bactericidal against both AW6 and AH1252 strains and was as effective as TMP-SMX and vancomycin (P > 0.05). Future studies of animals using simulated human kinetics of iclaprim and thymidine kinase-deficient MRSA, which eliminate the thymidine-induced confounding effect, are warranted to support the use of iclaprim in the treatment of severe MRSA infections in humans.

Contribution of in vitro neurotoxicology studies to the elucidation of neurodegenerative processes.

Only a small percentage of neurodegenerative diseases like Alzheimer's disease and Parkinson's disease is directly related to familial forms. The etiology of the most abundant, sporadic forms seems to involve both genetic and environmental factors. Environmental compounds are now extensively studied for their possible contribution to neurodegeneration. Chemicals were found which were able to reproduce symptoms of known neurodegenerative diseases, others may either predispose to the onset of neurodegeneration, or exacerbate distinct pathogenic processes of these diseases. In any case, in vitro studies performed with models presenting various degrees of complexity have shown that many environmental compounds have the potential to cause neurodegeneration, through a variety of pathways similar to those described in neurodegenerative diseases. Since the population is exposed to a huge number of potentially neurotoxic compounds, there is an important need for rapid and efficient procedures for hazard evaluation. Xenobiotics elicit a cascade of reactions that, most of the time, involve numerous interactions between the different brain cell types. A reliable in vitro model for the detection of environmental toxins potentially at risk for neurodegenerative diseases should therefore allow maximal cell-cell interactions and multiparametric endpoints determination. The combined use of in vitro models and new analytical approaches using "omics" technologies should help to map toxicity pathways, and advance our understanding of the possible role of xenobiotics in the etiology of neurodegenerative diseases.

Drug-eluting beads loaded with antiangiogenic agents for chemoembolization: in vitro sunitinib loading and release and in vivo pharmacokinetics in an animal model.

PURPOSE: The combination of embolic beads with a multitargeted tyrosine kinase inhibitor that inhibits tumor vessel growth is suggested as an alternative and improvement to the current standard doxorubicin-eluting beads for use in transarterial chemoembolization. This study demonstrates the in vitro loading and release kinetics of sunitinib using commercially available embolization microspheres and evaluates the in vitro biologic efficacy on cell cultures and the resulting in vivo pharmacokinetics profiles in an animal model. MATERIALS AND METHODS: DC Bead microspheres, 70-150 µm and 100-300 µm (Biocompatibles Ltd., Farnham, United Kingdom), were loaded by immersion in sunitinib solution. Drug release was measured in saline in a USP-approved flow-through apparatus and quantified by spectrophotometry. Activity after release was confirmed in cell culture. For pharmacokinetics and in vivo toxicity evaluation, New Zealand white rabbits received sunitinib either by intraarterial injection of 100-300 µm sized beads or per os. Plasma and liver tissue drug concentrations were assessed by liquid chromatography-tandem mass spectroscopy. RESULTS: Sunitinib loading on beads was close to complete and homogeneous. A total release of 80% in saline was measured, with similar fast-release profiles for both sphere sizes. After embolization, drug plasma levels remained below the therapeutic threshold (< 50 ng/mL), but high concentrations at 6 hours (14.9 µg/g) and 24 hours (3.4 µg/g) were found in the liver tissue. CONCLUSIONS: DC Bead microspheres of two sizes were efficiently loaded with sunitinib and displayed a fast and almost complete release in saline. High liver drug concentrations and low systemic levels indicated the potential of sunitinib-eluting beads for use in embolization.

Nanomedicines for active targeting: physico-chemical characterization of paclitaxel-loaded anti-HER2 immunonanoparticles and in vitro functional studies on target cells.

Paclitaxel (Tx)-loaded anti-HER2 immunonanoparticles (NPs-Tx-HER) were prepared by the covalent coupling of humanized monoclonal anti-HER2 antibodies (trastuzumab, Herceptin) to Tx-loaded poly (dl-lactic acid) nanoparticles (NPs-Tx) for the active targeting of tumor cells that overexpress HER2 receptors. The physico-chemical properties of NPs-Tx-HER were compared to unloaded immunonanoparticles (NPs-HER) to assess the influence of the drug on anti-HER2 coupling to the NP surface. The immunoreactivity of sulfo-MBS activated anti-HER2 mAbs and the in vitro efficacy of NPs-Tx-HER were tested on SKOV-3 ovarian cancer cells that overexpress HER2 antigens. Tx-loaded nanoparticles (NPs-Tx) obtained by a salting-out method had a size of 171+/-22 nm (P.I.=0.1) and an encapsulation efficiency of about of 78+/-10%, which corresponded to a drug loading of 7.8+/-0.8% (w/w). NPs-Tx were then thiolated and conjugated to activated anti-HER2 mAbs to obtain immunonanoparticles of 237+/-43 nm (P.I.=0.2). The influence of the activation step on the immunoreactivity of the mAbs was tested on SKOV-3 cells using 125I-radiolabeled mAbs, and the activity of the anti-HER2 mAbs was minimally affected after sulfo-MBS functionalization. Approximately 270 molecules of anti-HER2 mAbs were bound per nanoparticle. NPs-Tx-HER exhibited a zeta potential of 0.2+/-0.1 mV. The physico-chemical properties of the Tx-loaded immunonanoparticles were very similar to unloaded immunonanoparticles, suggesting that the encapsulation of the drug did not influence the coupling of the mAbs to the NPs. No drug loss was observed during the preparation process. DSC analysis showed that encapsulated Tx is in an amorphous or disordered-crystalline phase. These results suggest that Tx is entrapped in the polymeric matrix and not adsorbed to the surface of the NPs. In vitro studies on SKOV-3 ovarian cancer cells demonstrated the greater cytotoxic effect of NPs-Tx-HER compared to other Tx formulations. The results showed that at 1 ng Tx/ml, the viability of cells incubated with drug encapsulated in NP-Tx-HER was lower (77.32+/-5.48%) than the viability of cells incubated in NPs-Tx (97.4+/-12%), immunonanoparticles coated with Mabthera, as irrelevant mAb (NPs-Tx-RIT) (93.8+/-12%) or free drug (92.3+/-9.3%).

Toxicity screenings of nanomaterials: challenges due to interference with assay processes and components of classic in vitro tests.

Given the multiplicity of nanoparticles (NPs), there is a requirement to develop screening strategies to evaluate their toxicity. Within the EU-funded FP7 NanoTEST project, a panel of medically relevant NPs has been used to develop alternative testing strategies of NPs used in medical diagnostics. As conventional toxicity tests cannot necessarily be directly applied to NPs in the same manner as for soluble chemicals and drugs, we determined the extent of interference of NPs with each assay process and components. In this study, we fully characterized the panel of NP suspensions used in this project (poly(lactic-co-glycolic acid)-polyethylene oxide [PLGA-PEO], TiO2, SiO2, and uncoated and oleic-acid coated Fe3O4) and showed that many NP characteristics (composition, size, coatings, and agglomeration) interfere with a range of in vitro cytotoxicity assays (WST-1, MTT, lactate dehydrogenase, neutral red, propidium iodide, (3)H-thymidine incorporation, and cell counting), pro-inflammatory response evaluation (ELISA for GM-CSF, IL-6, and IL-8), and oxidative stress detection (monoBromoBimane, dichlorofluorescein, and NO assays). Interferences were assay specific as well as NP specific. We propose how to integrate and avoid interference with testing systems as a first step of a screening strategy for biomedical NPs.

Transport of methotrexate by the in vitro isolated rabbit proximal tubule.

The tubular transport of [3H]methotrexate was studied in isolated nonperfused and perfused superficial proximal tubular segments of rabbit kidneys. Reabsorption represented only 5% of perfused methotrexate, and appeared to be mostly of passive nature inasmuch as it was not modified by reducing the temperature or by ouabain. Cellular accumulation in nonperfused segments and secretion in perfused tubules were highest in the S2 segment and lower in the S3 and S1 segments. Secretion against a bath-to-lumen concentration gradient was observed only in S2 segments (with a maximum methotrexate secretory rate of 478 +/- 48 fmol/mm.min and an apparent Km of transport of 363 +/- 32 microM), and was inhibited by probenecid and folate. The low capacity for methotrexate secretion may be explained by a low capacity of transport across the basolateral membrane of the proximal cell as methotrexate was accumulated only to a low extent in nonperfused tubules (tissue water to medium concentration ratio of 8.2 +/- 1 in S2 segments). During secretion a small amount of methotrexate was metabolized; the nature of the metabolite(s) remains to be defined.