Your search keyword '"Jordan, Olivier"' showing total 16 results

1. Hyaluronan-based hydrogel delivering glucose to mesenchymal stem cells intended to treat osteoarthritis.

Author

Gonzalez-Fernandez P, Simula L, Jenni S, Jordan O, and Allémann E

Subjects

Humans, Mesenchymal Stem Cell Transplantation methods, Cell Survival drug effects, Cells, Cultured, beta-Glucosidase metabolism, Animals, Hyaluronic Acid chemistry, Glucose metabolism, Mesenchymal Stem Cells, Osteoarthritis therapy, Hydrogels chemistry

Abstract

Mesenchymal stem cell (MSC) therapy shows promise in regenerative medicine. For osteoarthritis (OA), MSCs delivered to the joint have a temporal window in which they can secrete growth factors and extracellular matrix molecules, contributing to cartilage regeneration and cell proliferation. However, upon injection in the non-vascularized joint, MSCs lacking energy supply, starve and die too quickly to efficiently deliver enough of these factors. To feed injected MSCs, we developed a hyaluronic acid (HA) derivative, where glucose is covalently bound to hyaluronic acid. To achieve this, the glucose moiety in 4-aminophenyl-β-D-glucopyranoside was linked to the HA backbone through amidation. The hydrogel was able to deliver glucose in a controlled manner using a trigger system based on hydrolysis catalyzed by endogenous ß-glucosidase. This led to glucose release from the hyaluronic acid backbone inside the cell. Indeed, our hydrogel proved to rescue starvation and cell mortality in a glucose-free medium. Our approach of adding a nutrient to the polymer backbone in hydrogels opens new avenues to deliver stem cells in poorly vascularized, nutrient-deficient environments, such as osteoarthritic joints, and for other regenerative therapies., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2024

2. Bioadhesive Hyaluronic Acid/Dopamine Hydrogels for Vascular Applications Prepared by Initiator-Free Crosslinking.

Author

Melnik T, Ben Ameur S, Kanfar N, Vinet L, Delie F, and Jordan O

Subjects

Biocompatible Materials chemistry, Cross-Linking Reagents chemistry, Dopamine pharmacology, Humans, Hyperplasia, Hyaluronic Acid chemistry, Hyaluronic Acid pharmacology, Hydrogels chemistry, Hydrogels pharmacology

Abstract

Intimal hyperplasia, a vascular pathology characterized by vessel wall thickening, is implicated in vein graft failures. For efficient prevention, a biodegradable drug delivery system should be applied externally to the graft for an extended time. Finding a gel suitable for such a system is challenging. We have synthesized HA-Dopamine conjugates (HA-Dop) with several degrees of substitution (DS) and used two crosslinking methods: initiator-free crosslinking by basic pH shift or commonly used crosslinking by a strong oxidizer, sodium periodate. The rheological properties, bioadhesion to vascular tissue, cytocompatibility with fibroblasts have been compared for both methods. Our results suggest that initiator-free crosslinking provides HA-Dop gels with more adequate properties with regards to vascular application than crosslinking by strong oxidizer. We have also established the cytocompatibility of the initiator-free crosslinked HA-Dop gels and the cytotoxicity of dopamine-sodium periodate combinations. Furthermore, we have incorporated a drug with anti-restenotic effect in perivascular application, atorvastatin, into the gel, which showed adequate release profile for intimal hyperplasia prevention. The oxidizer-free formulation with improved bioadhesion holds promise as an efficient and safe drug delivery system for vascular applications.

Published

2022

3. Hydrogels in three-dimensional dendritic cell (MUTZ-3) culture as a scaffold to mimic human immuno competent subcutaneous tissue.

Author

Groell F, Kalia YN, Jordan O, and Borchard G

Subjects

Adult, Cell Differentiation, Cell Line, Tumor, Cell Survival, Elastic Modulus, Female, Humans, Male, Middle Aged, Cell Culture Techniques, Dendritic Cells, Hydrogels, Subcutaneous Tissue immunology, Tissue Scaffolds

Abstract

The objective of this study was to develop a 3D cell culture model of the human subcutaneous tissue, allowing the prediction of the immunogenicity of subcutaneously injected therapeutic proteins. Several hydrogels were evaluated as scaffolds to mimic the human subcutaneous tissue in vitro. Cytocompatibility of the hydrogels with the human myelomonocytic cell line (MUTZ-3) was investigated, as well as their influence on cellular phenotype changes. Elastic Young's moduli in compression of the hydrogels were measured by a texture analyser and compared to ex vivo human samples. MUTZ-3 cells were differentiated into dendritic cells before embedding in hydrogels. Agarose at various concentrations (0.5%, 0.35% and 0.25% w/v), Geltrex® matrix and HyStem™ scaffold (1% w/v) displayed a wide range of elastic Young's moduli from 560 kPa to 49 kPa, compared to the reference value of 23 kPa obtained for human tissue. With the exception of HyStem™, good cytocompatibility of hydrogels was shown at the concentrations tested. An optimal combination of MUTZ-3 cells with 0.25% agarose or Geltrex® is suggested., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

4. Perivascular sustained release of atorvastatin from a hydrogel-microparticle delivery system decreases intimal hyperplasia.

Author

Mylonaki I, Strano F, Deglise S, Allémann E, Alonso F, Corpataux JM, Dubuis C, Haefliger JA, Jordan O, Saucy F, and Delie F

Subjects

Animals, Atorvastatin pharmacokinetics, Atorvastatin therapeutic use, Carotid Arteries pathology, Carotid Arteries surgery, Delayed-Action Preparations administration & dosage, Delayed-Action Preparations pharmacokinetics, Delayed-Action Preparations therapeutic use, Drug Liberation, Humans, Hyaluronic Acid pharmacokinetics, Hyaluronic Acid therapeutic use, Hydrogels pharmacokinetics, Hydrogels therapeutic use, In Vitro Techniques, Lactic Acid pharmacokinetics, Lactic Acid therapeutic use, Ligation, Male, Mice, Inbred C57BL, Polyglycolic Acid pharmacokinetics, Polyglycolic Acid therapeutic use, Polylactic Acid-Polyglycolic Acid Copolymer, Saphenous Vein metabolism, Tissue Distribution, Atorvastatin administration & dosage, Drug Delivery Systems, Hyaluronic Acid administration & dosage, Hydrogels administration & dosage, Hyperplasia drug therapy, Lactic Acid administration & dosage, Polyglycolic Acid administration & dosage, Tunica Intima pathology

Abstract

Intimal hyperplasia (IH) is the major cause of grafted vessel occlusion and occurs frequently after bypass intervention. No pharmaceutical formulation is currently available to prevent this pathology. Local perivascular delivery of an appropriate active compound released in a time-dependent manner (from day one up to 4weeks) is necessary for an efficient single-administration preventive therapy. To this aim, we propose the combination of gel and microparticles delivery system containing atorvastatin (ATV). The incorporation of ATV in a cross-linked hyaluronic acid gel, provided in vitro a fast release over 3days, while ATV-loaded poly-lactic-co-glycolic acid (PLGA) microparticles dispersed in the gel gave a sustained release over 4weeks. In vivo, ATV formulations were applied perivascularly in mice undergoing carotid artery ligation. IH was significantly reduced (-68%) in presence of ATV incorporated in hyaluronic acid gel and encapsulated in microparticles compared to control. No significant IH alteration was observed when ATV was incorporated only in the gel (fast release) or only in the microparticles (slow release) demonstrating that a biphasic release of ATV is essential to interfere with the development of IH. ATV was detected in adjacent tissues 28days after the intervention, showing the sustained presence of the drug in vivo. After four weeks ATV was not detected in remote tissues, except at a very low concentration (0.044ng/mg) in the liver, suggesting a very low risk of systemic toxicity of locally delivered ATV. Additionally, the ex vivo data showed that ATV in solution permeates through isolated human saphenous veins and thus is a good candidate for perivascular delivery. Our data demonstrate that a local biphasic ATV release on the mice ligated carotid efficiently prevents the development of IH without apparent toxicity., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

5. Injectable rhBMP-2-loaded chitosan hydrogel composite: osteoinduction at ectopic site and in segmental long bone defect.

Author

Luca L, Rougemont AL, Walpoth BH, Boure L, Tami A, Anderson JM, Jordan O, and Gurny R

Subjects

Animals, Biocompatible Materials chemistry, Bone and Bones physiology, Calcium Phosphates chemistry, Chitosan chemistry, Injections, Male, Materials Testing, Rabbits, Rats, Rats, Sprague-Dawley, X-Ray Microtomography, Bone Morphogenetic Protein 2 chemistry, Bone Morphogenetic Protein 2 pharmacology, Bone and Bones drug effects, Bone and Bones pathology, Drug Carriers chemistry, Hydrogels chemistry, Osteogenesis drug effects

Abstract

Carriers for bone morphogenetic protein-2 (BMP-2) used in clinical practice still suffer from limitations such as insufficient protein retention. In addition, there is a clinical need for injectable carriers. The main objective of this study was to assess bone forming ability of rhBMP-2 combined either with chitosan hydrogel (rhBMP-2/CH) or chitosan hydrogel containing β-tricalcium phosphate (β-TCP) (rhBMP-2/CH/TCP). Formulations were first compared in a rat ectopic intramuscular bone formation model, and the optimal formulation was further evaluated in healing of 15-mm critical size defect in the radius of a rabbit. Three weeks after injection ectopically formed bone was analyzed by microcomputerized tomography (micro-CT) and histology. Significantly higher (4.7-fold) mineralized bone formation was observed in the rhBMP-2/CH/TCP group compared to rhBMP-2/CH group. In a pilot study, defect in a rabbit radius treated with rhBMP-2/CH/TCP showed incomplete regeneration at 8 weeks with composite leakage from the defect, indicating the need for formulation refinement when segmental defect repair is foreseen., (Copyright © 2010 Wiley Periodicals, Inc.)

Published

2011

6. The in vivo performance of magnetic particle-loaded injectable, in situ gelling, carriers for the delivery of local hyperthermia.

Author

Le Renard PE, Jordan O, Faes A, Petri-Fink A, Hofmann H, Rüfenacht D, Bosman F, Buchegger F, and Doelker E

Subjects

Alginates chemistry, Animals, Breast Neoplasms therapy, Chitosan chemistry, Female, Glucuronic Acid chemistry, Hexuronic Acids chemistry, Humans, Mice, Mice, Nude, Mice, SCID, Solvents chemistry, Transplantation, Heterologous, Hydrogels chemistry, Hyperthermia, Induced methods, Magnetics, Nanoparticles chemistry

Abstract

We investigated the use of in situ implant formation that incorporates superparamagnetic iron oxide nanoparticles (SPIONs) as a form of minimally invasive treatment of cancer lesions by magnetically induced local hyperthermia. We developed injectable formulations that form gels entrapping magnetic particles into a tumor. We used SPIONs embedded in silica microparticles to favor syringeability and incorporated the highest proportion possible to allow large heating capacities. Hydrogel, single-solvent organogel and cosolvent (low-toxicity hydrophilic solvent) organogel formulations were injected into human cancer tumors xenografted in mice. The thermoreversible hydrogels (poloxamer, chitosan), which accommodated 20% w/v of the magnetic microparticles, proved to be inadequate. Alginate hydrogels, however, incorporated 10% w/v of the magnetic microparticles, and the external gelation led to strong implants localizing to the tumor periphery, whereas internal gelation failed in situ. The organogel formulations, which consisted of precipitating polymers dissolved in single organic solvents, displayed various microstructures. A 8% poly(ethylene-vinyl alcohol) in DMSO containing 40% w/v of magnetic microparticles formed the most suitable implants in terms of tumor casting and heat delivery. Importantly, it is of great clinical interest to develop cosolvent formulations with up to 20% w/v of magnetic microparticles that show reduced toxicity and centered tumor implantation.

Published

2010

7. A novel thermoresponsive hydrogel based on chitosan.

Author

Schuetz YB, Gurny R, and Jordan O

Subjects

Drug Carriers chemistry, Drug Stability, Drug Storage, Excipients chemistry, Freeze Drying, Freezing, Injections, Molecular Weight, Steam, Sterilization methods, Temperature, Tissue Engineering methods, Biocompatible Materials chemistry, Chitosan chemistry, Gels chemistry, Hydrogels chemistry

Abstract

Injectable thermosetting chitosan hydrogels are attractive systems for drug delivery and tissue engineering that combine biodegradability, biocompatibility and the ability to form in situ gel-like implants. Thermally-induced gelation relies advantageously on biopolymer secondary interactions, avoiding potentially toxic polymerization reactions that may occur with in situ polymerizing formulations. In view of a biomedical use, such formulations have to be sterilizable and storable on extended periods without losing their thermosetting properties. These two key features have been studied in the present paper. Chitosans from two different sources were added with several phosphate-free polyols or polyoses as gelling agents. Despite a reduction in chitosan molecular weight following autoclaving, the hydrogels prepared with autoclaved chitosan showed the desired thermosetting properties. Hence, chitosan steam sterilization combined with aseptic preparation of the hydrogel allows a sterile formulation to be obtained. Whereas thermosetting hydrogels were shown to be unstable when refrigerated, freezing was shown to be conceivable as a storage method. When trehalose or mannitol was used as stabilizing agent, the formulation reconstituted from a lyophilizate displayed thermosetting properties and was still injectable, paving the way to the development of a clinically utilizable, novel chitosan thermosetting hydrogel.

Published

2008

8. Ex Vivo Functional Benchmarking of Hyaluronan-Based Osteoarthritis Viscosupplement Products: Comprehensive Assessment of Rheological, Lubricative, Adhesive, and Stability Attributes.

Author

Porcello, Alexandre, Hadjab, Farid, Ajouaou, Maryam, Philippe, Virginie, Martin, Robin, Abdel-Sayed, Philippe, Hirt-Burri, Nathalie, Scaletta, Corinne, Raffoul, Wassim, Applegate, Lee Ann, Allémann, Eric, Jordan, Olivier, and Laurent, Alexis

Subjects

BENCHMARKING (Management), HYALURONIC acid, OSTEOARTHRITIS, LUBRICATION & lubricants, HYDROGELS

Abstract

While many injectable viscosupplementation products are available for osteoarthritis (OA) management, multiple hydrogel functional attributes may be further optimized for efficacy enhancement. The objective of this study was to functionally benchmark four commercially available hyaluronan-based viscosupplements (Ostenil, Ostenil Plus, Synvisc, and Innoryos), focusing on critical (rheological, lubricative, adhesive, and stability) attributes. Therefore, in vitro and ex vivo quantitative characterization panels (oscillatory rheology, rotational tribology, and texture analysis with bovine cartilage) were used for hydrogel product functional benchmarking, using equine synovial fluid as a biological control. Specifically, the retained experimental methodology enabled the authors to robustly assess and discuss various functional enhancement options for hyaluronan-based hydrogels (chemical cross-linking and addition of antioxidant stabilizing agents). The results showed that the Innoryos product, a niacinamide-augmented linear hyaluronan-based hydrogel, presented the best overall functional behavior in the retained experimental settings (high adhesivity and lubricity and substantial resistance to oxidative degradation). The Ostenil product was conversely shown to present less desirable functional properties for viscosupplementation compared to the other investigated products. Generally, this study confirmed the high importance of formulation development and control methodology optimization, aiming for the enhancement of novel OA-targeting product critical functional attributes and the probability of their clinical success. Overall, this work confirmed the tangible need for a comprehensive approach to hyaluronan-based viscosupplementation product functional benchmarking (product development and product selection by orthopedists) to maximize the chances of effective clinical OA management. [ABSTRACT FROM AUTHOR]

Published

2023

9. Injectable Hyaluronan-Based Thermoresponsive Hydrogels for Dermatological Applications.

Author

Gou, Si, Porcello, Alexandre, Allémann, Eric, Salomon, Denis, Micheels, Patrick, Jordan, Olivier, and Kalia, Yogeshvar N.

Subjects

CONJUGATED polymers, DERMAL fillers, HYDROGELS, POLYMERS, DRUG delivery systems, SUSTAINABLE chemistry, GELATION

Abstract

Most marketed HA-based dermal fillers use chemical cross-linking to improve mechanical properties and extend their lifetime in vivo; however, stiffer products with higher elasticity require an increased extrusion force for injection in clinical practice. To balance longevity and injectability, we propose a thermosensitive dermal filler, injectable as a low viscosity fluid that undergoes gelation in situ upon injection. To this end, HA was conjugated via a linker to poly(N-isopropylacrylamide) (pNIPAM), a thermosensitive polymer using "green chemistry", with water as the solvent. HA-L-pNIPAM hydrogels showed a comparatively low viscosity (G′ was 105.1 and 233 for Candidate1 and Belotero Volume®, respectively) at room temperature and spontaneously formed a stiffer gel with submicron structure at body temperature. Hydrogel formulations exhibited superior resistance against enzymatic and oxidative degradation and could be administered using a comparatively lower injection force (49 N and >100 N for Candidate 1 and Belotero Volume®, respectively) with a 32G needle. Formulations were biocompatible (viability of L929 mouse fibroblasts was >100% and ~85% for HA-L-pNIPAM hydrogel aqueous extract and their degradation product, respectively), and offered an extended residence time (up to 72 h) at the injection site. This property could potentially be exploited to develop sustained release drug delivery systems for the management of dermatologic and systemic disorders. [ABSTRACT FROM AUTHOR]

Published

2023

10. Thermo-Responsive Hyaluronan-Based Hydrogels Combined with Allogeneic Cytotherapeutics for the Treatment of Osteoarthritis.

Author

Porcello, Alexandre, Gonzalez-Fernandez, Paula, Jeannerat, Annick, Peneveyre, Cédric, Abdel-Sayed, Philippe, Scaletta, Corinne, Raffoul, Wassim, Hirt-Burri, Nathalie, Applegate, Lee Ann, Allémann, Eric, Laurent, Alexis, and Jordan, Olivier

Subjects

HYDROGELS, HYALURONIC acid, OSTEOARTHRITIS, RHEOLOGY (Biology), RHEOLOGY, TRIBOLOGY

Abstract

Thermo-responsive hyaluronan-based hydrogels and FE002 human primary chondroprogenitor cell sources have both been previously proposed as modern therapeutic options for the management of osteoarthritis (OA). For the translational development of a potential orthopedic combination product based on both technologies, respective technical aspects required further optimization phases (e.g., hydrogel synthesis upscaling and sterilization, FE002 cytotherapeutic material stabilization). The first aim of the present study was to perform multi-step in vitro characterization of several combination product formulas throughout the established and the optimized manufacturing workflows, with a strong focus set on critical functional parameters. The second aim of the present study was to assess the applicability and the efficacy of the considered combination product prototypes in a rodent model of knee OA. Specific characterization results (i.e., spectral analysis, rheology, tribology, injectability, degradation assays, in vitro biocompatibility) of hyaluronan-based hydrogels modified with sulfo-dibenzocyclooctyne-PEG4-amine linkers and poly(N-isopropylacrylamide) (HA-L-PNIPAM) containing lyophilized FE002 human chondroprogenitors confirmed the suitability of the considered combination product components. Specifically, significantly enhanced resistance toward oxidative and enzymatic degradation was shown in vitro for the studied injectable combination product prototypes. Furthermore, extensive multi-parametric (i.e., tomography, histology, scoring) in vivo investigation of the effects of FE002 cell-laden HA-L-PNIPAM hydrogels in a rodent model revealed no general or local iatrogenic adverse effects, whereas it did reveal some beneficial trends against the development of knee OA. Overall, the present study addressed key aspects of the preclinical development process for novel biologically-based orthopedic combination products and shall serve as a robust methodological basis for further translational investigation and clinical work. [ABSTRACT FROM AUTHOR]

Published

2023

11. Lyophilized Progenitor Tenocyte Extracts: Sterilizable Cytotherapeutic Derivatives with Antioxidant Properties and Hyaluronan Hydrogel Functionalization Effects.

Author

Laurent, Alexis, Porcello, Alexandre, Jeannerat, Annick, Peneveyre, Cédric, Coeur, Agathe, Abdel-Sayed, Philippe, Scaletta, Corinne, Michetti, Murielle, de Buys Roessingh, Anthony, Jordan, Olivier, Allémann, Eric, Raffoul, Wassim, Hirt-Burri, Nathalie, and Applegate, Lee Ann

Subjects

HYDROGELS, DEXTRAN, RADIATION sterilization, HYALURONIC acid, ROBUST control, EXTRACTS, MANUFACTURING processes

Abstract

Cultured primary progenitor tenocytes in lyophilized form were previously shown to possess intrinsic antioxidant properties and hyaluronan-based hydrogel viscosity-modulating effects in vitro. The aim of this study was to prepare and functionally characterize several stabilized (lyophilized) cell-free progenitor tenocyte extracts for inclusion in cytotherapy-inspired complex injectable preparations. Fractionation and sterilization methods were included in specific biotechnological manufacturing workflows of such extracts. Comparative and functional-oriented characterizations of the various extracts were performed using several orthogonal descriptive, colorimetric, rheological, mechanical, and proteomic readouts. Specifically, an optimal sugar-based (saccharose/dextran) excipient formula was retained to produce sterilizable cytotherapeutic derivatives with appropriate functions. It was shown that extracts containing soluble cell-derived fractions possessed conserved and significant antioxidant properties (TEAC) compared to the freshly harvested cellular starting materials. Progenitor tenocyte extracts submitted to sub-micron filtration (0.22 µm) and 60Co gamma irradiation terminal sterilization (5–50 kGy) were shown to retain significant antioxidant properties and hyaluronan-based hydrogel viscosity modulating effects. Hydrogel combination products displayed important efficacy-related characteristics (friction modulation, tendon bioadhesivity) with significant (p < 0.05) protective effects of the cellular extracts in oxidative environments. Overall, the present study sets forth robust control methodologies (antioxidant assays, H2O2-challenged rheological setups) for stabilized cell-free progenitor tenocyte extracts. Importantly, it was shown that highly sensitive phases of cytotherapeutic derivative manufacturing process development (purification, terminal sterilization) allowed for the conservation of critical biological extract attributes. [ABSTRACT FROM AUTHOR]

Published

2023

12. Sustained protein release from hydrogel microparticles using layer-by-layer (LbL) technology.

Author

Sakr, Omar S., Jordan, Olivier, and Borchard, Gerrit

Subjects

*PROTEINS, *DISEASES, *LYSOZYMES, *HYDROGELS, *FLUORESCENCE

Abstract

Context and objectives: Since most of developed therapeutic proteins are intended to treat chronic diseases, patients are prescribed multiple injections for long time periods, and therefore, sustained release formulations are much needed. However, challenges facing these formulations are quite significant. In this context, a model protein, lysozyme (Lys), was loaded on hydrogel microparticles (beads) and the ability of layer-by-layer (LbL) coating to control Lys release and maintain its activity over a one-month period was investigated. Methods: LbL coating was composed of chondroitin sulfate as a negatively charged polyelectrolyte and a biocompatible, hydrolytically degradable poly β-aminoester as a positively charged polyelectrolyte. Loading distribution was monitored by fluorescence imaging, and followed by depositing a series of LbL coatings of different thicknesses. Release of Lys from these formulations was studied and activity of released fraction was determined. Results: Lys was loaded effectively on hydrogel beads achieving about 9 mg protein/100 mg wet spheres. LbL coating was proven successful by monitoring the zeta potential of the beads, which was reversed after the addition of each layer.In vitrorelease studies showed sustained release profiles that depend on the thickness of the deposited coat, witht50extended from 4.9 to 143.9 h. More importantly, released Lys possessed a high degree of biological activity during the course of release maintaining at least 72% of initial activity. Conclusions: Successful loading of Lys and extension of its release while maintaining a considerable degree of activity might make this formulation suitable for use with other active therapeutic proteins. [ABSTRACT FROM PUBLISHER]

Published

2016

13. Combination of Hyaluronan and Lyophilized Progenitor Cell Derivatives: Stabilization of Functional Hydrogel Products for Therapeutic Management of Tendinous Tissue Disorders.

Author

Laurent, Alexis, Porcello, Alexandre, Fernandez, Paula Gonzalez, Jeannerat, Annick, Peneveyre, Cédric, Abdel-Sayed, Philippe, Scaletta, Corinne, Hirt-Burri, Nathalie, Michetti, Murielle, de Buys Roessingh, Anthony, Raffoul, Wassim, Allémann, Eric, Jordan, Olivier, and Applegate, Lee Ann

Subjects

PROGENITOR cells, HYALURONIC acid, PRODUCT management, HYDROGELS, REGENERATIVE medicine

Abstract

Cultured progenitor cells and derivatives have been used in various homologous applications of cutaneous and musculoskeletal regenerative medicine. Active pharmaceutical ingredients (API) in the form of progenitor cell derivatives such as lysates and lyophilizates were shown to retain function in controlled cellular models of wound repair. On the other hand, hyaluronan-based hydrogels are widely used as functional vehicles in therapeutic products for tendon tissue disorders. The aim of this study was the experimental characterization of formulations containing progenitor tenocyte-derived APIs and hyaluronan, for the assessment of ingredient compatibility and stability in view of eventual therapeutic applications in tendinopathies. Lyophilized APIs were determined to contain relatively low quantities of proteins and growth factors, while being physicochemically stable and possessing significant intrinsic antioxidant properties. Physical and rheological quantifications of the combination formulas were performed after hydrogen peroxide challenge, outlining significantly improved evolutive viscoelasticity values in accelerated degradation settings. Thus, potent effects of physicochemical protection or stability enhancement of hyaluronan by the incorporated APIs were observed. Finally, combination formulas were found to be easily injectable into ex vivo tendon tissues, confirming their compatibility with further translational clinical approaches. Overall, this study provides the technical bases for the development of progenitor tenocyte derivative-based injectable therapeutic products or devices, to potentially be applied in tendinous tissue disorders. [ABSTRACT FROM AUTHOR]

Published

2021

14. Combination of mesenchymal stem cells and bioactive molecules in hydrogels for osteoarthritis treatment.

Author

Gonzalez-Fernandez, Paula, Rodríguez-Nogales, Carlos, Jordan, Olivier, and Allémann, Eric

Subjects

*MESENCHYMAL stem cells, *HYDROGELS, *OSTEOARTHRITIS, *MOLECULES, *CARTILAGE regeneration

Published

2022

15. Drug delivery based on nanostructured microparticles and hydrogels for intra-articular treatment of osteoarthritis

Author

Maudens, Pierre Marc Xavier, Allémann, Eric, and Jordan, Olivier

Subjects

ddc:615, Thermosensitive, Biodegradable microparticles, Polymers, Hyaluronic acid, CBFβ-RUNX1 pathway activator, PH-797804, Hydrogels, Nanocrystal-Polymer Particles, Kartogenin, Inflammatory and mechanistic mouse models, Drug-delivery, Disease-modifying osteoarthritis drug, Nanocrystals, Osteoarthritis, P38α/β MAPK inhibitor, HA Nano, Carriers, Intra-articular

Abstract

Osteoarthritis (OA) is the most common type of arthritis affecting 80 % of the world's population over 75 years. Despite this rising trend, there is as yet no cure for OA. This thesis aimed to design two efficient biodegradable and biocompatible extended release formulations for intra-articular (IA) administration to treat the disease and improve the quality of life of patients. Firstly, Nanocrystal-Polymer Particles (NPPs), with a very high drug loading of PH-797804 or Kartogenin, were formulated by a wet-milling/spray drying process. Secondly, a thermosensitive hyaluronic acid able to form nanoparticles in situ was designed and developed as a new way of lubricating joints. In vivo, both of these technologies showed a positive effect based on histological scoring, epiphyseal thickness, OA biomarkers and prolonged IA persistence in a murine OA model. This thesis provides proofs-of-concept of novel and innovative extended drug delivery system/viscosupplement with the potential to treat human OA.

Published

2017

16. Injectable formulations forming an implant in situ as vehicle of silica microparticles embedding superparamagnetic iron oxide nanoparticles for the local, magnetically mediated hyperthermia treatment of solid tumors

Author

Le Renard, Pol-Edern, Doelker, Eric, Jordan, Olivier, Pharmaceutical Technology, École de Pharmacie Genève - Lausanne (EPGL), University of Geneva [Switzerland]-Université de Lausanne (UNIL), University of Geneva, Eric Doelker(eric.doelker@unige.ch), and Le Renard, Pol-Edern

Subjects

poly(éthylène-co-alcool vinylique), Magnetic induced hyperthermia, Survival, heat shock protein, HELA, thérapie adjuvante, immune response, specific loss power, heat loss, local hyperthermia, Physical gels, Brownian relaxation, HSP, alginate, Superparamagnetic nanoparticles (SPIONs), Induced hyperthermia, nanocomposite microparticles, microparticules nano-composite, in-situ implant, ddc:615, hyperthermie locale, SPION, hyperthermie, adjuvant therapy, Hydrogels, solid tumors, chauffage par pertes, PMMA, implant in-situ, SPIONs, specific absorption rate, cellulose acetate poly(ethylene-co-vinyl alcohol), implants injectables, champs magnétiques alternatifs, Organogels, poloxamer, in-situ solidification, liposomes, injection intratumorale, intra-tumoral injection, diméthylsulfoxide, ceramic, réponse immunitaire, Subcutaneous xenograft, Thermometry, [SDV.SP.PG] Life Sciences [q-bio]/Pharmaceutical sciences/Galenic pharmacology, alternative magnetic fields, SQUID, chaperonnes moléculaires, solidification in situ, cibles moleculaires de l'hyperthermie, Superparamagnetic Iron Oxide Nanoparticles, adjuvant, silica microparticles, cancer, In situ forming implant, hydrogels, cellulose acétate, colocarcinome, induction magnétique, organogel, colocarcinoma, ceramiques, relaxation de Néel, injectables implants, [SDV.SP.PG]Life Sciences [q-bio]/Pharmaceutical sciences/Galenic pharmacology, magnetic induction, microparticules de silice, heat shock proteins, Silica composite microparticles, relaxation de Brown, Néel relaxation, chitosan, molecular target of hyperthermia, tumeurs solides

Abstract

In this thesis work, injectable formulations forming in-situ an implant that entraps superparamagnetic microparticles are developed in view of treating solid tumors by inducing magnetically a local moderate hyperthermia. We first review physical, biological and clinical aspects of induced hyperthermia for cancer treatment, emphasizing electro-magnetic modalities. The in vitro and in vivo investigations of materials and their formulation is then presented. In the next chapter, we characterize the physico-chemical, magnetic and heating properties under an alternating magnetic field (115 kHz, 9 - 12 mT) of silica microparticles embedding superparamagnetic iron oxide nanoparticles (SPIONs) and of selected formulations thereof: an alginate hydrogel and an organogel oof poly(ethylene-co-vinyl alcohol) in dimethysulfoxide). Finally, we demonstrate the therapeutic potential of the superparamagnetic injectable organogel to treat subcutaneous necrotizing solid tumors of human colocarcinoma in a murine model by 20-min magnetic induction of local hyperthemia., Cette thèse présente les travaux de développement de formulations injectables capables de se solidifier in situ, formant ainsi un implant piégeant des microparticules magnétiques en vue du traitement de tumeurs par induction magnétique d'une hyperthermie locale modérée. Nous exposons tout d'abord le contexte physique, biologique et clinique de l'hyperthermie comme traitement anticancéreux, particulièrement des modalités électromagnétiques. Les performances in vitro et in vivo des matériaux et formulations sont alors présentées. L'objet du chapitre suivant est la caractérisation des propriétés physicochimiques, magnétiques, et chauffantes, dans un champ magnétique alternatif (115 kHz, 9 - 12 mT), des microparticules de silice renfermant des nanoparticules d'oxyde de fer superparamagnétiques (SPIONs) et de deux de leurs formulations: un hydrogel d'alginate de sodium et un organogel de poly(éthylène-co-alcool vinylique) dans le diméthylsulfoxide. Finalement, nous présentons le potentiel thérapeutique de 20 minutes d'hyperthermie locale induite après injection de l'organogel superparamagnétique dans un modèle murin sous-cutané de tumeurs nécrosantes de colocarcinome humain.

Published

2011