Magneto-Erythrocyte Membrane Vesicles’ Superior T2 MRI Contrast Agents to Magneto-Liposomes

Kostevšek, Nina; Miklavc, Patricija; Kisovec, Matic; Podobnik, Marjetka; Al-Jamal, Wafa' T; Serša, Igor

doi:10.3390/magnetochemistry7040051

Cited by 2 publications

(1 citation statement)

References 37 publications

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“…However, for nanoparticles encapsulated in the aqueous core or conjugated to the surface of liposomes, oleate-coating has been the method most frequently used. In this case, it is expected that hydrophobic nanoparticles have a higher affinity to the phospholipid bilayer [62,63]. Martinez-Gonzales et al reported the synthesis of hydrophobic magnetic nanoparticles which were loaded into the lipid bilayer of the liposome.…”

Section: Magnetic Nanoparticlesmentioning

confidence: 99%

The Therapeutic Potential of Chemo/Thermotherapy with Magnetoliposomes for Cancer Treatment

et al. 2022

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Cancer represents a very grave and quickly growing public health problem worldwide. Despite the breakthroughs in treatment and early detection of the disease, an increase is projected in the incidence rate and mortality during the next 30 years. Thus, it is important to develop new treatment strategies and diagnostic tools. One alternative is magnetic hyperthermia, a therapeutic approach that has shown promising results, both as monotherapy and in combination with chemo- and radiotherapy. However, there are still certain limitations and questions with respect to the safety of the systemic administration of magnetic nanoparticles. To deal with these issues, magnetoliposomes were conceived as a new generation of liposomes that incorporate superparamagnetic nanoparticles and oncological pharmaceuticals within their structure. They have the advantage of targeted and selective drug delivery to the diseased organs and tissues. Some of them can avoid the immune response of the host. When exposed to a magnetic field of alternating current, magnetoliposomes produce hyperthermia, which acts synergistically with the released drug. The aim of the present review is to describe the most recent advances in the use of magnetoliposomes and point out what research remains to be done for their application to chemo-thermal therapy in cancer patients.

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Section: Magnetic Nanoparticlesmentioning

confidence: 99%

The Therapeutic Potential of Chemo/Thermotherapy with Magnetoliposomes for Cancer Treatment

et al. 2022

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Nucleic Acid Delivery with Red-Blood-Cell-Based Carriers

Pelle

Kostevšek

2021

IJMS

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Gene therapy has the potential to become a staple of 21st-century medicine. However, to overcome the limitations of existing gene-delivery therapies, that is, poor stability and inefficient and delivery and accumulation of nucleic acids (NAs), safe drug-delivery systems (DDSs) allowing the prolonged circulation and expression of the administered genes in vivo are needed. In this review article, the development of DDSs over the past 70 years is briefly described. Since synthetic DDSs can be recognized and eliminated as foreign substances by the immune system, new approaches must be found. Using the body’s own cells as DDSs is a unique and exciting strategy and can be used in a completely new way to overcome the critical limitations of existing drug-delivery approaches. Among the different circulatory cells, red blood cells (RBCs) are the most abundant and thus can be isolated in sufficiently large quantities to decrease the complexity and cost of the treatment compared to other cell-based carriers. Therefore, in the second part, this article describes 70 years of research on the development of RBCs as DDSs, covering the most important RBC properties and loading methods. In the third part, it focuses on RBCs as the NA delivery system with advantages and drawbacks discussed to decide whether they are suitable for NA delivery in vivo.

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Magneto-Erythrocyte Membrane Vesicles’ Superior T2 MRI Contrast Agents to Magneto-Liposomes

Cited by 2 publications

References 37 publications

The Therapeutic Potential of Chemo/Thermotherapy with Magnetoliposomes for Cancer Treatment

The Therapeutic Potential of Chemo/Thermotherapy with Magnetoliposomes for Cancer Treatment

Nucleic Acid Delivery with Red-Blood-Cell-Based Carriers

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