Literature DB >> 28208215

Nanoparticle delivery systems, general approaches, and their implementation in multiple myeloma.

Pilar de la Puente1, Abdel Kareem Azab1.   

Abstract

Multiple myeloma (MM) is a hematological malignancy that remains incurable, with relapse rates >90%. The main limiting factor for the effective use of chemotherapies in MM is the serious side effects caused by these drugs. The emphasis in cancer treatment has shifted from cytotoxic, non-specific chemotherapies to molecularly targeted and rationally designed therapies showing greater efficacy and fewer side effects. Traditional chemotherapy has shown several disadvantages such as lack of targeting capabilities, systemic toxicity, and side effects; low therapeutic index, as well as most anticancer drugs, has poor water solubility. Nanoparticle delivery systems (NPs) are capable of targeting large doses of chemotherapies into the target area while sparing healthy tissues, overcoming the limitations of traditional chemotherapy. Here, we review the current state of the art in nanoparticle-based strategies designed to treat MM. Many nanoparticle delivery systems have been studied for myeloma using non-targeted NPs (liposomes, polymeric NPs, and inorganic NPs), triggered NPs, as well as targeted NPs (VLA-4, ABC drug transporters, bone microenvironment targeting). The results in preclinical and clinical studies are promising; however, there remains much to be learned in the emerging field of nanomedicine in myeloma.
© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.

Entities:  

Keywords:  multiple myeloma; nanoparticles; passive targeting; targeted targeting; triggered targeting

Mesh:

Substances:

Year:  2017        PMID: 28208215      PMCID: PMC5438273          DOI: 10.1111/ejh.12870

Source DB:  PubMed          Journal:  Eur J Haematol        ISSN: 0902-4441            Impact factor:   2.997


  115 in total

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Journal:  Br J Haematol       Date:  2016-01-05       Impact factor: 6.998

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1.  Enhancing proteasome-inhibitory activity and specificity of bortezomib by CD38 targeted nanoparticles in multiple myeloma.

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Journal:  J Control Release       Date:  2017-11-28       Impact factor: 9.776

2.  VLA4-Targeted Nanoparticles Hijack Cell Adhesion-Mediated Drug Resistance to Target Refractory Myeloma Cells and Prolong Survival.

Authors:  Francesca Fontana; Michael J Scott; John S Allen; Xiaoxia Yang; Grace Cui; Dipanjan Pan; Noriko Yanaba; Mark A Fiala; Julie O'Neal; Anne H Schmieder-Atteberry; Julie Ritchey; Michael Rettig; Kathleen Simons; Steven Fletcher; Ravi Vij; John F DiPersio; Gregory M Lanza
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3.  Liposomal drug delivery in an in vitro 3D bone marrow model for multiple myeloma.

Authors:  Maaike Vj Braham; Anil K Deshantri; Monique C Minnema; F Cumhur Öner; Raymond M Schiffelers; Marcel Ham Fens; Jacqueline Alblas
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Review 4.  Targeted Approaches to Inhibit Sialylation of Multiple Myeloma in the Bone Marrow Microenvironment.

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8.  Tumor microenvironment-targeted nanoparticles loaded with bortezomib and ROCK inhibitor improve efficacy in multiple myeloma.

Authors:  Cinzia Federico; Kinan Alhallak; Jennifer Sun; Kathleen Duncan; Feda Azab; Gail P Sudlow; Pilar de la Puente; Barbara Muz; Vaishali Kapoor; Luna Zhang; Fangzheng Yuan; Matea Markovic; Joseph Kotsybar; Katherine Wasden; Nicole Guenthner; Shannon Gurley; Justin King; Daniel Kohnen; Noha N Salama; Dinesh Thotala; Dennis E Hallahan; Ravi Vij; John F DiPersio; Samuel Achilefu; Abdel Kareem Azab
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9.  Orthogonal targeting of osteoclasts and myeloma cells for radionuclide stimulated dynamic therapy induces multidimensional cell death pathways.

Authors:  Alexander Zheleznyak; Matthew Mixdorf; Lynne Marsala; Julie Prior; Xiaoxia Yang; Grace Cui; Baogang Xu; Steven Fletcher; Francesca Fontana; Gregory Lanza; Samuel Achilefu
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  9 in total

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