Mesoporous silica nanoparticles (MSNs) are attracting increasing interest for potential
biomedical applications. With tailored mesoporous structure, huge surface area and pore …

In the past decade, there has been a shift in research, clinical development, and commercial
activity to exploit the many physiological roles of RNA for use in medicine. With the rapid …

Superparamagnetic iron oxide nanoparticles (MNPs) with appropriate surface chemistry
exhibit many interesting properties that can be exploited in a variety of biomedical …

Nucleic acids carry the building plans of living systems. As such, they can be exploited to
make cells produce a desired protein, or to shut down the expression of endogenous genes …

For progression of health care system, it has always been a challenge to the researchers for
formulation to a type of advanced drug delivery system which will have less toxicity, targeted …

Nanoparticle technology is being incorporated into many areas of molecular science and
biomedicine. Because nanoparticles are small enough to enter almost all areas of the body …

This study has tested the feasibility of using physical delivery methods, employing static and
oscillating field “magnetofection” techniques, to enhance magnetic nanoparticle-mediated …

Magnetic nanocarriers are useful in targeted cancer therapy. Dasatinib (DAS)-loaded
magnetic micelles were prepared for magnetically guided drug delivery. The magnetic …

PEGylated PAMAM conjugated fluorescein-doped magnetic silica nanoparticles (PEGylated
PFMSNs) have been synthesized for evaluating their ability across the blood–brain barrier …

Bone marrow derived human mesenchymal stem cells (hMSCs) show promising potential in
regeneration of defective tissue. Recently, gene silencing strategies using microRNAs (miR) …