Factor VIII associated with lipidic nanoparticles retains efficacy in the presence of anti‐factor VIII antibodies in hemophilia A mice

Shetty, Krithika A.; Kosloski, Matthew P.; Mager, Donald E.; Balu‐Iyer, Sathy V.

doi:10.1002/bdd.2023

Cited by 5 publications

(4 citation statements)

References 45 publications

(59 reference statements)

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“…The targeted “burst” release enabled by activated platelet contractile forces provides an advantage over other nanoparticle-based delivery systems for fVIII in the presence of inhibitors. While it was reported that adsorbing fVIII onto soy phosphatidylinositol (PI)-containing lipid nanoparticles decreased the ability of fVIII inhibitors to bind to the fVIII protein (fVIII antibody binding domains are thought to be protected in the lipid layer), release of full fVIII dose is reliant upon desorption of the protein and redistribution between the PI nanoparticles, vWF, inhibitor, and its free form . This prevents the full dose from being effectively available immediately after administration.…”

Section: Discussionmentioning

confidence: 99%

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Platelet–Microcapsule Hybrids Leverage Contractile Force for Targeted Delivery of Hemostatic Agents

et al. 2017

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We report a cell-mediated, targeted drug delivery system utilizing polyelectrolyte multilayer capsules that hybridize with the patient's own platelets upon intravenous administration. The hybridized platelets function as the sensor and actuator for targeted drug delivery and controlled release in our system. These capsules are biochemically and mechanically tuned to enable platelet adhesion and capsule rupture upon platelet activation and contraction, enabling the targeted and controlled "burst" release of an encapsulated biotherapeutic. As platelets are the "first responders" in the blood clot formation process, this platelet-hybridized system is ideal for the targeted delivery of clot-augmenting biotherapeutics wherein immediate therapeutic efficacy is required. As proof-of-concept, we tailored this system to deliver the pro-clotting biotherapeutic factor VIII for hemophilia A patients that have developed inhibitory antifactor VIII antibodies. The polyelectrolyte multilayer capsules physically shield the encapsulated factor VIII from the patient's inhibitors during circulation, preserving its bioactivity until it is delivered at the target site via platelet contractile force. Using an in vitro microfluidic vascular injury model with factor VIII-inhibited blood, we demonstrate a 3.8× increase in induced fibrin formation using capsules loaded with factor VIII at a concentration an order of magnitude lower than that used in systemic delivery. We further demonstrate that clot formation occurs 18 min faster when factor VIII loaded capsules are used compared to systemic delivery at the same concentration. Because platelets are integral in the pathophysiology of thrombotic disorders, cancer, and innate immunity, this paradigm-shifting smart drug delivery system can be similarly applied to these diseases.

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Section: Discussionmentioning

confidence: 99%

“…Recently, research on PEGylating fVIII , or formulating fVIII with nanoparticles , in order to prevent inhibitor interactions has been reported. However, neither strategy is ideal, as PEGylation has been shown to prevent only some inhibitor species from binding to fVIII, while association with nanoparticles limits the bioavailability of the fVIII dose.…”

mentioning

confidence: 99%

Platelet–Microcapsule Hybrids Leverage Contractile Force for Targeted Delivery of Hemostatic Agents

et al. 2017

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“…Liposomes can encapsulate drugs for different medical purposes: thrombin inhibitors, able to exert an anticoagulant activity in case of arterial acute thrombosis [ 136 ], mRNA to encode erythropoietin, factor IX protein [ 137 ] and anti-factor VIII antibodies [ 138 , 139 ] for haemophilia treatment and Tmprss6 siRNA for thalassemia cure [ 140 ].…”

Section: Nanoparticle-based Therapymentioning

confidence: 99%

Nanoparticles for hematologic diseases detection and treatment

2019

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Nanotechnology, as an interdisciplinary science, combines engineering, physics, material sciences, and chemistry with the biomedicine knowhow, trying the management of a wide range of diseases. Nanoparticle-based devices holding tumor imaging, targeting and therapy capabilities are formerly under study. Since conventional hematological therapies are sometimes defined by reduced selectivity, low therapeutic efficacy and many side effects, in this review we discuss the potential advantages of the NPs’ use in alternative/combined strategies. In the introduction the basic notion of nanomedicine and nanoparticles’ classification are described, while in the main text nanodiagnostics, nanotherapeutics and theranostics solutions coming out from the use of a wide-ranging NPs availability are listed and discussed.

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“…The drug continues to be haemostatically partially effective up to 18 hours after injection, a net better result than that obtained after the administration of free B-domain deleted FVIII. The probable explanation is that the product encapsulated in lipid nanoparticles has lower binding affinity towards inhibitors, so that a larger proportion of the compound remains unbound to inhibitors [17].…”

Section: Ijppe Volume 11mentioning

confidence: 99%

A Look at the Future Hemophilia A Treatment

Mihăilă

2018

IJPPE

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The current treatment of patients with hemophilia A is safer and more effective than the previous one. Prophylactic substitution involves repeated intravenous administration of plasma-derived factor VIII or recombinant factor VIII products, with inconveniences and possible adverse effects. The occurrence of inhibitors requires the administration of activated prothrombin complex concentrate or activated factor VII - an expensive treatment. The immune tolerance induction is the ideal treatment for patients with high titres of inhibitors - the only potential way to eliminate inhibitors and very expensive. For these reasons, the medical world is interested in the advances that scientific research is doing in the field of new molecules without the inconveniences of current substitution therapy and which could replace it in the future. The purpose of this article is to briefly review the new therapeutic possibilities for patients with hemophilia A, which can prevent potential extraarticular bleedings, avoid the occurrence of inhibitors, and have as few adverse effects as possible.

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Factor VIII associated with lipidic nanoparticles retains efficacy in the presence of anti‐factor VIII antibodies in hemophilia A mice

Cited by 5 publications

References 45 publications

Platelet–Microcapsule Hybrids Leverage Contractile Force for Targeted Delivery of Hemostatic Agents

Platelet–Microcapsule Hybrids Leverage Contractile Force for Targeted Delivery of Hemostatic Agents

Nanoparticles for hematologic diseases detection and treatment

A Look at the Future Hemophilia A Treatment

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