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1. Photodynamic therapy with conventional and PEGylated liposomal formulations of mTHPC (temoporfin): comparison of treatment efficacy and distribution characteristics in vivo

Author

Reshetov V, Lassalle HP, François A, Dumas D, Hupont S, Gräfe S, Filipe V, Jiskoot W, Guillemin F, Zorin V, and Bezdetnaya L

Subjects
Medicine (General), R5-920
Abstract

Vadzim Reshetov,1–3 Henri-Pierre Lassalle,1,2 Aurélie François,1,2,4 Dominique Dumas,5 Sebastien Hupont,5 Susanna Gräfe,6 Vasco Filipe,7 Wim Jiskoot,7 François Guillemin,1,2,4 Vladimir Zorin,3 Lina Bezdetnaya1,2,41Université de Lorraine, Centre de Recherche en Automatique de Nancy, Campus Sciences, Vandœuvre-lès-Nancy, France; 2Centre National de la Recherche Scientifique, Centre de Recherche en Automatique de Nancy, France; 3Laboratory of Biophysics and Biotechnology, Physics Faculty, Belarusian State University, Minsk, Belarus; 4Lorraine Cancer Institute, Vandoeuvre-lès-Nancy, France; 5Université de Lorraine, Plate forme d'Imagerie et de Biophysique Cellulaire Plate Forme IBiSA d'Imagerie et de Biophysique Cellulaire de Nancy, Centre National de la Recherche Scientifique, Vandœuvre-lès-Nancy, France; 6Biolitec Research GmbH, Research and Development, Jena, Germany; 7Division of Drug Delivery Technology, Leiden/Amsterdam Center for Drug Research, Leiden University, Leiden, the NetherlandsAbstract: A major challenge in the application of a nanoparticle-based drug delivery system for anticancer agents is the knowledge of the critical properties that influence their in vivo behavior and the therapeutic performance of the drug. The effect of a liposomal formulation, as an example of a widely-used delivery system, on all aspects of the drug delivery process, including the drug's behavior in blood and in the tumor, has to be considered when optimizing treatment with liposomal drugs, but that is rarely done. This article presents a comparison of conventional (Foslip®) and polyethylene glycosylated (Fospeg®) liposomal formulations of temoporfin (meta-tetra[hydroxyphenyl]chlorin) in tumor-grafted mice, with a set of comparison parameters not reported before in one model. Foslip® and Fospeg® pharmacokinetics, drug release, liposome stability, tumor uptake, and intratumoral distribution are evaluated, and their influence on the efficacy of the photodynamic treatment at different light–drug intervals is discussed. The use of whole-tumor multiphoton fluorescence macroscopy imaging is reported for visualization of the in vivo intratumoral distribution of the photosensitizer. The combination of enhanced permeability and retention-based tumor accumulation, stability in the circulation, and release properties leads to a higher efficacy of the treatment with Fospeg® compared to Foslip®. A significant advantage of Fospeg® lies in a major decrease in the light–drug interval, while preserving treatment efficacy.Keywords: mTHPC, liposomes, drug release, liposomal pharmacokinetics, biodistribution, photodynamic therapy

Published
2013

8. Understanding opalescence measurements of biologics: a comparison study of methods, standards, and molecules

Author

Kunz, P., Stuckenberger, E., Hausmann, K., Gentiluomo, L., Neustrup, M., Michalakis, S., Rieser, R., Romeijn, S., Wichmann, C., Windisch, R., Hawe, A., Jiskoot, W., and Menzen, T.

Subjects
Biological Products, Pharmaceutical Science, Iridescence
Abstract

Opalescence measurements are broadly applied to assess the quality and stability of biopharmaceutical products at all stages of development and manufacturing. They appear to be simple and straight forward but detect complex light scattering phenomena. Despite a routine calibration step, opalescence values obtained with the same biopharmaceutical sample but on different instruments and/or with different methods may vary significantly. Since the reasons for this high variability are generally not well understood, comparison of opalescence results from different biopharmaceutical laboratories is difficult. Here, we characterized a comprehensive set of biopharmaceutically relevant samples with five opalescence methods to illustrate fundamental differences in method performance and explore the reasons for poor comparability. In addition, we developed a high-throughput method for measuring opalescence in a conventional light scattering plate reader that yields opalescence values in the same range as compendial methods. The presented results underline the impact of sample properties, instrument type, and calibration standards on the determined opalescence value. Based on our findings we provide recommendations for the appropriate application of each method during biopharmaceutical drug product development. Overall, our study contributes to an improved understanding of opalescence measurements in the biopharmaceutical field.

Published
2022

12. High-affinity antigen association to cationic liposomes via coiled coil-forming peptides induces a strong antigen-specific CD4+ T-cell response

Author

Leboux, R. J.T., Benne, N., van Os, W. L., Bussmann, J., Kros, A., Jiskoot, W., Slütter, B., Immunologie, Dep Farmaceutische wetenschappen, Pharmaceutics, Immunologie, Dep Farmaceutische wetenschappen, and Pharmaceutics

Subjects
Pharmaceutical Science, Peptide, 02 engineering and technology, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, Antigen, In vivo, Cationic liposome, Lipid bilayer, Coiled coil peptide, chemistry.chemical_classification, Coiled coil, Liposome, Chemistry, Vaccination, General Medicine, 021001 nanoscience & nanotechnology, In vitro, CD4 T-cell, Liposomes, Antigen association, Biophysics, 0210 nano-technology, Biotechnology
Abstract

Liposomes are widely investigated as vaccine delivery systems, but antigen loading efficiency can be low. Moreover, adsorbed antigen may rapidly desorb under physiological conditions. Encapsulation of antigens overcomes the latter problem but results in significant antigen loss during preparation and purification of the liposomes. Here, we propose an alternative attachment method, based on a complementary heterodimeric coiled coil peptide pair pepK and pepE. PepK was conjugated to cholesterol (yielding CPK) and pepE was covalently linked to model antigen OVA323 (yielding pepE-OVA323). CPK was incorporated in the lipid bilayer of cationic liposomes (180 nm in size). Antigen was associated more efficiently to functionalized liposomes (Kd 166 nM) than to cationic liposomes (Kd not detectable). In vivo co-localization of antigen and liposomes was strongly increased upon CPK-functionalization (35% -> 80%). CPK-functionalized liposomes induced 5-fold stronger CD4+ T-cell proliferation than non-functionalized liposomes in vitro. Both formulations were able to induce strong CD4+ T-cell expansion in mice, but more IFN-y and IL-10 production was observed after immunization with functionalized liposomes. In conclusion, antigen association via coiled coil peptide pair increased co-localization of antigen and liposomes, increased CD4+ T-cell proliferation in vitro and induced a stronger CD4+ T-cell response in vivo.

Published
2021
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13. Ongoing Challenges to Develop High Concentration Monoclonal Antibody-based Formulations for Subcutaneous Administration: Quo Vadis?

Author

Jiskoot, W., Hawe, Andrea, Menzen, Tim, Volkin, David B., Crommelin, Daan J.A., Afd Pharmaceutics, and Pharmaceutics

Subjects
Aggregation, Viscosity, Subcutaneous, Pharmaceutical Science, Monoclonal antibodies, High concentration, Protein engineering
Abstract

Although many subcutaneously (s.c.) delivered, high-concentration antibody formulations (HCAF) have received regulatory approval and are widely used commercially, formulation scientists are still presented with many ongoing challenges during HCAF development with new mAb and mAb-based candidates. Depending on the specific physicochemical and biological properties of a particular mAb-based molecule, such challenges vary from pharmaceutical attributes e.g., stability, viscosity, manufacturability, to clinical performance e.g., bioavailability, immunogenicity, and finally to patient experience e.g., preference for s.c. vs. intravenous delivery and/or preferred interactions with health-care professionals. This commentary focuses on one key formulation obstacle encountered during HCAF development: how to maximize the dose of the drug? We examine methodologies for increasing the protein concentration, increasing the volume delivered, or combining both approaches together. We discuss commonly encountered hurdles, i.e., physical protein instability and solution volume limitations, and we provide recommendations to formulation scientists to facilitate their development of s.c. administered HCAF with new mAb-based product candidates.

Published
2022

21. An environmental ecocorona influences the formation and evolution of the biological corona on the surface of single-walled carbon nanotubes

Author

Monikh, F.A., Chupani, L., Karkossa, Isabel, Gardian, Z., Arenas-Logo, D., von Bergen, Martin, Schubert, Kristin, Piackova, V., Zuskova, E., Jiskoot, W., Vijver, M.G., Peijnenburg, W.J.G.M., Monikh, F.A., Chupani, L., Karkossa, Isabel, Gardian, Z., Arenas-Logo, D., von Bergen, Martin, Schubert, Kristin, Piackova, V., Zuskova, E., Jiskoot, W., Vijver, M.G., and Peijnenburg, W.J.G.M.

Abstract

Nanomaterials (NMs) taken up from the environment carry a complex ecocorona consisting of dissolved organic matter. An ecocorona is assumed to influence the interactions between NMs and endogenous biomolecules and consequently affects the formation of a biological corona (biocorona) and the biological fate of the NMs. This study shows that biomolecules in fish plasma attach immediately (within <5 min) to the surface of SWCNTs and the evolution of the biocorona is a size dependent phenomenon. Quantitative proteomics data revealed that the nanotube size also influences the plasma protein composition on the surface of SWCNTs. The presence of a pre-attached ecocorona on the surface of SWCNTs eliminated the influence of nanotube size on the formation and evolution of the biocorona. Over time, endogenous biomolecules from the plasma partially replaced the pre-attached ecocorona as measured using a fluorescently labelled ecocorona. The presence of an ecocorona offers a unique surface composition to each nanotube. This suggests that understanding the biological fate of NMs taken up from the environment by organisms to support the environmental risk assessment of NMs is a challenging task because each NM may have a unique surface composition in the body of an organism.

Published
2021

29. Erratum: Molecular and cellular signatures underlying superior immunity against Bordetella pertussis upon pulmonary vaccination (Mucosal Immunology (2017) DOI: 10.1038/mi.2017.81)

Author

Raeven, R. H.M., Brummelman, J., Pennings, J. L.A., Van Der Maas, L., Helm, K., Tilstra, W., Van Der Ark, A., Sloots, A., Van Der Ley, P., Van Eden, W., Jiskoot, W., Van Riet, E., Van Els, C. A.C.M., Kersten, G. F.A., Han, W. G.H., Metz, B., LS Immunologie, LS Virologie, dI&I RA-I&I I&I, and Dep Farmaceutische wetenschappen

Abstract

© The Author(s) 2018. This article was originally published under NPG's License to Publish, but has now been made available under a CC BY 4.0 license. The PDF and HTML versions of the paper have been modified accordingly.

Published
2018

31. Fc gamma receptor binding profile of anti-citrullinated protein antibodies in immune complexes suggests a role for FcγRI in the pathogenesis of synovial inflammation

Author

Kempers, A. C., Reza Nejadnik, M., Yoann Rombouts, Ioan-Facsinay, A., Oosterhout, M., Jiskoot, W., Huizinga, T. W. J., Toes, R. E. M., and Scherer, H. U.

Subjects
musculoskeletal diseases, skin and connective tissue diseases
Abstract

OBJECTIVES: Anti-citrullinated protein antibodies (ACPA) are highly specific for rheumatoid arthritis (RA). Here, we studied binding of ACPA-IgG immune complexes (IC) to individual Fc gamma receptors (FcγR) to identify potential effector mechanisms by which ACPA could contribute to RA pathogenesis. METHODS: ACPA-IgG1 and control IgG1(IgG1 depleted of ACPA-IgG1) were isolated from plasma and synovial fluid (SF) of RA patients by affinity chromatography using CCP2 peptides. Subsequently, IC were generated using fluorescently labelled F(ab’)2 fragments against the F(ab’)2 region of IgG, or by using citrullinated fibrinogen. IC were incubated with FcγR-transfected CHO cell lines or neutrophils from healthy donors. FcγR binding of IC was analysed by flow cytometry in the presence or absence of specific blocking antibodies. RESULTS: ACPA-IgG1 IC predominantly bound to FcγRI and FcγRIIIA on FcγR-transfected CHO cell lines, while much lower binding was observed to FcγRIIA and FcγRIIB. ACPA-IgG1 IC showed reduced binding to FcγRIIIA compared to control IgG1 IC, in line with enhanced ACPA-IgG1 Fc core-fucosylation. Neutrophils activated in vitro to induce de novo expression of FcγRI showed binding of ACPA-IgG IC, and blocking studies revealed that almost 30% of ACPA-IgG IC binding to activated neutrophils was mediated by FcγRI. CONCLUSIONS: Our studies show that ACPA-IgG1 IC bind predominately to activating FcγRI and FcγRIIIA, and highlight FcγRI expressed by activated neutrophils as relevant receptor for these IC. As neutrophils isolated from SF exhibit an activated state and express FcγRI in the synovial compartment, this IC-binding could contribute to driving disease pathogenesis in RA.

Published
2018

36. The Impact of Inadequate Temperature Storage Conditions on Aggregate and Particle Formation in Drugs Containing Tumor Necrosis Factor-Alpha Inhibitors

Author

Vlieland, N.D., Nejadnik, M. R., Gardarsdottir, H., Romeijn, S., Sediq, A.S., Bouvy, M.L., Bemt, B.J.F van den, Jiskoot, W., Vlieland, N.D., Nejadnik, M. R., Gardarsdottir, H., Romeijn, S., Sediq, A.S., Bouvy, M.L., Bemt, B.J.F van den, and Jiskoot, W.

Abstract

Contains fulltext : 184056.pdf (Publisher’s version ) (Open Access)

Published
2018

38. The Impact of Inadequate Temperature Storage Conditions on Aggregate and Particle Formation in Drugs Containing Tumor Necrosis Factor-Alpha Inhibitors

Author

Afd Pharmacoepi & Clinical Pharmacology, Pharmacoepidemiology and Clinical Pharmacology, Vlieland, Nicolaas D, Nejadnik, M Reza, Gardarsdottir, H., Romeijn, Stefan, Sediq, Ahmad S, Bouvy, M. L., Egberts, A. C.G., van den Bemt, B. J.F., Jiskoot, W., Afd Pharmacoepi & Clinical Pharmacology, Pharmacoepidemiology and Clinical Pharmacology, Vlieland, Nicolaas D, Nejadnik, M Reza, Gardarsdottir, H., Romeijn, Stefan, Sediq, Ahmad S, Bouvy, M. L., Egberts, A. C.G., van den Bemt, B. J.F., and Jiskoot, W.

Published
2018

39. Erratum: Molecular and cellular signatures underlying superior immunity against Bordetella pertussis upon pulmonary vaccination (Mucosal Immunology (2017) DOI: 10.1038/mi.2017.81)

Author

LS Immunologie, LS Virologie, dI&I RA-I&I I&I, Dep Farmaceutische wetenschappen, Raeven, R. H.M., Brummelman, J., Pennings, J. L.A., Van Der Maas, L., Helm, K., Tilstra, W., Van Der Ark, A., Sloots, A., Van Der Ley, P., Van Eden, W., Jiskoot, W., Van Riet, E., Van Els, C. A.C.M., Kersten, G. F.A., Han, W. G.H., Metz, B., LS Immunologie, LS Virologie, dI&I RA-I&I I&I, Dep Farmaceutische wetenschappen, Raeven, R. H.M., Brummelman, J., Pennings, J. L.A., Van Der Maas, L., Helm, K., Tilstra, W., Van Der Ark, A., Sloots, A., Van Der Ley, P., Van Eden, W., Jiskoot, W., Van Riet, E., Van Els, C. A.C.M., Kersten, G. F.A., Han, W. G.H., and Metz, B.

Published
2018

40. The Impact of Inadequate Temperature Storage Conditions on Aggregate and Particle Formation in Drugs Containing Tumor Necrosis Factor-Alpha Inhibitors

Author

Regenerative Medicine and Stem Cells, Infection & Immunity, Child Health, Brain, Apotheek Onderzoek 1, Apotheek, Circulatory Health, Vlieland, N D, Nejadnik, M R, Gardarsdottir, H, Romeijn, S, Sediq, A S, Bouvy, M L, Egberts, A C G, van den Bemt, B J F, Jiskoot, W, Regenerative Medicine and Stem Cells, Infection & Immunity, Child Health, Brain, Apotheek Onderzoek 1, Apotheek, Circulatory Health, Vlieland, N D, Nejadnik, M R, Gardarsdottir, H, Romeijn, S, Sediq, A S, Bouvy, M L, Egberts, A C G, van den Bemt, B J F, and Jiskoot, W

Published
2018

41. Molecular and cellular signatures underlying superior immunity against Bordetella pertussis upon pulmonary vaccination

Author

Raeven, R HM, Brummelman, J, Pennings, J.L., Maas, L., Helm, K., Tilstra, W., van der Ark, A., Sloots, A, van der Ley, P., van Eden, W, Jiskoot, W, van Riet, E., van Els, C ACM, Kersten, G FA, Han, W GH, Metz, B., LS Immunologie, LS Virologie, Dep Farmaceutische wetenschappen, dI&I RA-I&I I&I, LS Immunologie, LS Virologie, Dep Farmaceutische wetenschappen, and dI&I RA-I&I I&I

Subjects
0301 basic medicine, Immunoglobulin A, Bordetella pertussis, Innate immune system, biology, Immunology, chemical and pharmacologic phenomena, biology.organism_classification, Immunoglobulin G, Microbiology, Vaccination, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Immune system, Immunization, Immunity, biology.protein, Immunology and Allergy, 030215 immunology
Abstract

Mucosal immunity is often required for protection against respiratory pathogens but the underlying cellular and molecular mechanisms of induction remain poorly understood. Here, systems vaccinology was used to identify immune signatures after pulmonary or subcutaneous immunization of mice with pertussis outer membrane vesicles. Pulmonary immunization led to improved protection, exclusively induced mucosal immunoglobulin A (IgA) and T helper type 17 (Th17) responses, and in addition evoked elevated systemic immunoglobulin G (IgG) antibody levels, IgG-producing plasma cells, memory B cells, and Th17 cells. These adaptive responses were preceded by unique local expression of genes of the innate immune response related to Th17 (e.g., Rorc) and IgA responses (e.g., Pigr) in addition to local and systemic secretion of Th1/Th17-promoting cytokines. This comprehensive systems approach identifies the effect of the administration route on the development of mucosal immunity, its importance in protection against Bordetella pertussis, and reveals potential molecular correlates of vaccine immunity to this reemerging pathogen.Mucosal Immunology advance online publication 20 September 2017; doi:10.1038/mi.2017.81.

Published
2017

43. Molecular and cellular signatures underlying superior immunity against Bordetella pertussis upon pulmonary vaccination

Author

Raeven, R HM, primary, Brummelman, J, additional, Pennings, J LA, additional, van der Maas, L, additional, Helm, K, additional, Tilstra, W, additional, van der Ark, A, additional, Sloots, A, additional, van der Ley, P, additional, van Eden, W, additional, Jiskoot, W, additional, van Riet, E, additional, van Els, C ACM, additional, Kersten, G FA, additional, Han, W GH, additional, and Metz, B, additional

Published
2018
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45. Diphtheria toxoid and N-trimethyl chitosan layer-by-layer coated pH-sensitive microneedles induce potent immune responses upon dermal vaccination in mice

Author

Schipper, P., van der Maaden, K., Groeneveld, V., Ruigrok, M.J.R., Romeijn, S., Uleman, S., Oomens, C.W.J., Kersten, G., Jiskoot, W., Bouwstra, J.A., Schipper, P., van der Maaden, K., Groeneveld, V., Ruigrok, M.J.R., Romeijn, S., Uleman, S., Oomens, C.W.J., Kersten, G., Jiskoot, W., and Bouwstra, J.A.

Abstract

Dermal immunization using antigen-coated microneedle arrays is a promising vaccination strategy. However, reduction of microneedle sharpness and the available surface area for antigen coating is a limiting factor. To overcome these obstacles, a layer-by-layer coating approach can be applied onto pH-sensitive microneedles. Following this approach, pH-sensitive microneedle arrays (positively charged at coating pH 5.8 and nearly uncharged at pH 7.4) were alternatingly coated with negatively charged diphtheria toxoid (DT) and N-trimethyl chitosan (TMC), a cationic adjuvant. First, the optimal DT dose for intradermal immunization was determined in a dose-response study, which revealed that low-dose intradermal immunization was more efficient than subcutaneous immunization and that the EC50 dose of DT upon intradermal immunization is 3-fold lower, as compared to subcutaneous immunization. In a subsequent immunization study, microneedle arrays coated with an increasing number (2, 5, and 10) of DT/TMC bilayers resulted in step-wise increasing DT-specific immune responses. Dermal immunization with microneedle arrays coated with 10 bilayers of DT/TMC (corresponding with ± 0.6 μg DT delivered intradermally) resulted in similar DT-specific immune responses as subcutaneous immunization with 5 μg of DT adjuvanted with aluminum phosphate (8-fold dose reduction). Summarizing, the layer-by-layer coating approach onto pH-sensitive microneedles is a versatile method to precisely control the amount of coated and dermally-delivered antigen that is highly suitable for dermal immunization.

Published
2017

46. Mesoporous silica nanoparticle-coated microneedle arrays for intradermal antigen delivery

Author

Tu, J., Du, G., Reza Nejadnik, M., Mönkäre, J., van der Maaden, K., Bomans, P.H.H., Sommerdijk, N.A.J.M., Slütter, B., Jiskoot, W., Bouwstra, J.A., Kros, A., Tu, J., Du, G., Reza Nejadnik, M., Mönkäre, J., van der Maaden, K., Bomans, P.H.H., Sommerdijk, N.A.J.M., Slütter, B., Jiskoot, W., Bouwstra, J.A., and Kros, A.

Abstract

Purpose: To develop a new intradermal antigen delivery system by coating microneedle arrays with lipid bilayer-coated, antigen-loaded mesoporous silica nanoparticles (LB-MSN-OVA). Methods: Synthesis of MSNs with 10-nm pores was performed and the nanoparticles were loaded with the model antigen ovalbumin (OVA), and coated with a lipid bilayer (LB-MSN-OVA). The uptake of LB-MSN-OVA by bone marrow-derived dendritic cells (BDMCs) was studied by flow cytometry. The designed LB-MSN-OVA were coated onto pH-sensitive pyridine-modified microneedle arrays and the delivery of LB-MSN-OVA into ex vivo human skin was studied. Results: The synthesized MSNs demonstrated efficient loading of OVA with a maximum loading capacity of about 34% and the lipid bilayer enhanced the colloidal stability of the MSNs. Uptake of OVA loaded in LB-MSN-OVA by BMDCs was higher than that of free OVA, suggesting effective targeting of LB-MSN-OVA to antigen-presenting cells. Microneedles were readily coated with LB-MSN-OVA at pH 5.8, yielding 1.5 μg of encapsulated OVA per microneedle array. Finally, as a result of the pyridine modification, LB-MSN-OVA were effectively released from the microneedles upon piercing the skin. Conclusion: Microneedle arrays coated with LB-MSN-OVA were successfully developed and shown to be suitable for intradermal delivery of the encapsulated protein antigen.

Published
2017

47. Molecular and cellular signatures underlying superior immunity against Bordetella pertussis upon pulmonary vaccination

Author

LS Immunologie, LS Virologie, Dep Farmaceutische wetenschappen, dI&I RA-I&I I&I, Raeven, R HM, Brummelman, J, Pennings, J.L., Maas, L., Helm, K., Tilstra, W., van der Ark, A., Sloots, A, van der Ley, P., van Eden, W, Jiskoot, W, van Riet, E., van Els, C ACM, Kersten, G FA, Han, W GH, Metz, B., LS Immunologie, LS Virologie, Dep Farmaceutische wetenschappen, dI&I RA-I&I I&I, Raeven, R HM, Brummelman, J, Pennings, J.L., Maas, L., Helm, K., Tilstra, W., van der Ark, A., Sloots, A, van der Ley, P., van Eden, W, Jiskoot, W, van Riet, E., van Els, C ACM, Kersten, G FA, Han, W GH, and Metz, B.

Published
2017

50. Determination of depth-dependent intradermal immunogenicity of adjuvanted inactivated polio vaccine delivered by microinjections via hollow microneedles

Author

Schipper, P., van der Maaden, K., Romeijn, S., Oomens, C.W.J., Kersten, G., Jiskoot, W., Bouwstra, J., Schipper, P., van der Maaden, K., Romeijn, S., Oomens, C.W.J., Kersten, G., Jiskoot, W., and Bouwstra, J.

Abstract

Purpose: The aim of this study was to investigate the depth-dependent intradermal immunogenicity of inactivated polio vaccine (IPV) delivered by depth-controlled microinjections via hollow microneedles (HMN) and to investigate antibody response enhancing effects of IPV immunization adjuvanted with CpG oligodeoxynucleotide 1826 (CpG) or cholera toxin (CT). Methods: A novel applicator for HMN was designed to permit depth- and volume-controlled microinjections. The applicator was used to immunize rats intradermally with monovalent IPV serotype 1 (IPV1) at injection depths ranging from 50 to 550 μm, or at 400 μm for CpG and CT adjuvanted immunization, which were compared to intramuscular immunization. Results: The applicator allowed accurate microinjections into rat skin at predetermined injection depths (50–900 μm), -volumes (1–100 μL) and -rates (up to 60 μL/min) with minimal volume loss (±1–2%). HMN-mediated intradermal immunization resulted in similar IgG and virus-neutralizing antibody titers as conventional intramuscular immunization. No differences in IgG titers were observed as function of injection depth, however IgG titers were significantly increased in the CpG and CT adjuvanted groups (7-fold). Conclusion: Intradermal immunogenicity of IPV1 was not affected by injection depth. CpG and CT were potent adjuvants for both intradermal and intramuscular immunization, allowing effective vaccination upon a minimally-invasive single intradermal microinjection by HMN.

Published
2016

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