Red blood cells: Supercarriers for drugs, biologicals, and nanoparticles and inspiration for advanced delivery systems

Villa, Carlos H.; Anselmo, Aaron C.; Mitragotri, Samir; Muzykantov, Vladimir R.

doi:10.1016/j.addr.2016.02.007

Cited by 302 publications

(242 citation statements)

References 208 publications

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“…Therefore, the surface of SIONPs has been modified with hydrophilic polymers to prevent absorption of the circulating plasma proteins. The use of contrast agents and tracers in medical imaging has a long history [81][82][83]. One of the most important challenges about cancer treatment is sustained drug release which has already remained this issue in the world.…”

Section: Biomedical Applications Of Fe 3 O 4 Magnetic Nanoparticlesmentioning

confidence: 99%

Iron Oxide Biomagnetic Nanoparticles (IO-BMNPs); Synthesis, Characterization and Biomedical Application–A Review

Nochehdehi¹,

Thomas²,

Sadri³

et al. 2017

J Nanomed Nanotechnol

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Nanotechnology is a multidisciplinary branch of science which encompasses numerous diverse fields of science and technology, ranging from biomedical, pharmaceutical, agricultural, environmental, advanced materials, chemical science, physics, electronics, information technology, and so on. Physical and Chemical properties as a major advantages of Nanoparticles can be used in various applications from Industries to medicine. Besides, Magnetic nanoparticles for medical applications have been developed by many researchers. In recent decades, it has received attention by virtue of their potential for applications in different fields. Due to several advantages and widespread applications of magnetic Nanoparticles in biotechnology, medical, material science, engineering, and environmental areas, much attention has been paid to the synthesis of different kinds of Biomagnetic nanoparticles (BMNPs). Core-shell nanoparticles include of coated various materials like: biopolymers (Chitosan, PAA) and bioceramics (Hydroxyapatite) as a shell on top of them and different hard and soft materials like metal oxide (Iron oxide and Cob alt composite) as a core. Improved properties of core-shell nanoparticles like less cytotoxicity, increase biocompatibility, decrease in an interactions with biomolecules, increase physicochemical stability and sort of that, can be due to their use in biological applications. After reviewing several research and review articles and synthesis procedure of Iron based Bio-magnetic Nanoparticles (BMNPs), we should emphasize that, It can be used in different applications like magnetic resonance imaging (MRI), drug delivery systems (DDS), immunoassay, also specially in diagnosis and treatment of cancer via hyperthermia (heat therapy) method.

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Section: Biomedical Applications Of Fe 3 O 4 Magnetic Nanoparticlesmentioning

confidence: 99%

Iron Oxide Biomagnetic Nanoparticles (IO-BMNPs); Synthesis, Characterization and Biomedical Application–A Review

Nochehdehi¹,

Thomas²,

Sadri³

et al. 2017

J Nanomed Nanotechnol

View full text Add to dashboard Cite

show abstract

“…Erythrocytes or red blood cells (RBCs) constitute >99% of total blood cells and transport oxygen from the respiratory organs to the rest of the body [4,5]. RBCs are biodegradable as the reticuloendothelial system (RES) organs rapidly remove the old, incompatible cells.…”

Section: Types Of Circulatory Cells In Drug Delivery Applicationsmentioning

confidence: 99%

“…These properties include high biocompatibility (if immunologically compatible), high mobility, a longer circulation lifespan, inherent biodegradability through known clearance pathways, natural capability of cell/tissue targeting, high drug loading capacity due to their large internal volume, remarkable stability in circulation, and their ability to cross biological barriers [1,[4][5][6][7]. This editorial article provides an outline of several circulatory cells and their inherent properties (Tables 1) in the design of cell-mediated delivery systems (Figure 1).…”

Section: Circulatory Cells As Drug Carriersmentioning

confidence: 99%

“…Thus, alternative drug delivery approaches are desirable. One emerging strategy to address the above nanotechnology challenges is to select body's own circulatory cells as drug carriers [1,[4][5][6][7][8].…”

Section: Circulatory Cells As Drug Carriersmentioning

confidence: 99%

“…Circulatory cells have received a significant interest as drug delivery vehicles because of several attractive and distinctive features arise from their unique structures, mechanical properties, and surface functionality [1,[4][5][6][7][8]. These properties include high biocompatibility (if immunologically compatible), high mobility, a longer circulation lifespan, inherent biodegradability through known clearance pathways, natural capability of cell/tissue targeting, high drug loading capacity due to their large internal volume, remarkable stability in circulation, and their ability to cross biological barriers [1,[4][5][6][7].…”

Section: Circulatory Cells As Drug Carriersmentioning

confidence: 99%

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Agrahari

Mitra

2016

Expert Opinion on Drug Delivery

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Materials Nanoarchitectonics: Drug Delivery System

Kotsuchibashi

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Materials Nanoarchitectonics

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Red blood cells: Supercarriers for drugs, biologicals, and nanoparticles and inspiration for advanced delivery systems

Cited by 302 publications

References 208 publications

Iron Oxide Biomagnetic Nanoparticles (IO-BMNPs); Synthesis, Characterization and Biomedical Application–A Review

Iron Oxide Biomagnetic Nanoparticles (IO-BMNPs); Synthesis, Characterization and Biomedical Application–A Review

Next generation drug delivery: circulatory cells-mediated nanotherapeutic approaches

Materials Nanoarchitectonics: Drug Delivery System

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