Influence of interstitial fluid pressure, porosity, loading magnitude, and anisotropy in cortical bone adaptation.

Adaptive elasticity in cortical bone has traditionally been modeled using Strain Energy Density (SED). Recent studies have highlighted the importance of interstitial fluid in bone adaptation, yet no research has quantified the role of interstitial fluid pressure and its effects, specifically incorporating both SED and interstitial fluid pressure in the adaptation process. This study introduces a novel formulation combining theory of porous media and theory of adaptive elasticity that considers both SED and interstitial fluid's pressure in cortical bone adaptation.

Role of microRNA-146a in cancer development by regulating apoptosis.

Despite great advances in diagnostic and treatment options for cancer, like chemotherapy surgery, and radiation therapy it continues to remain a major global health concern. Further research is necessary to find new biomarkers and possible treatment methods for cancer. MicroRNAs (miRNAs), tiny non-coding RNAs found naturally in the body, can influence the activity of several target genes.

Ferrocene/ β-cyclodextrin based supramolecular nanogels as theranostic systems.

A supramolecular redox responsive nanogel (NG) with the ability to sense cancer cells and loaded with a releasing therapeutic agent was synthesized using hostguest interactions between polyethylene glycol-grafted-β-cyclodextrin and ferrocene boronic acid. Cyclic voltammetry matched with other spectroscopy and microscopy methods provided strong indications regarding host-guest interactions and formation of the NG. Moreover, the biological properties of the NG were evaluated using fluorescence silencing, confocal laser scanning microscopy, and cell toxicity assays.

Stimuli-responsive natural gums-based drug delivery systems for cancer treatment.

Chemotherapy as the main cancer treatment method has non-specific effects and various side-effects. Accordingly, significant attempts have been conducted to enhance its efficacy through design and development of "smart" drug delivery systems (DDSs). In this context, natural gums, as a nice gift by the nature, can be exploited as stimuli-responsive DDSs for cancer treatment in part due to their renewability, availability, low cost, bioactivity, biocompatibility, low immunogenicity, biodegradability, and acceptable stability in both in vitro and in vivo conditions.

A novel bioreducible and pH-responsive magnetic nanohydrogel based on β-cyclodextrin for chemo/hyperthermia therapy of cancer.

A new strategy for design and development of a magnetic "smart" drug delivery system (DDS) based on β-cyclodextrin (β-CD) and poly(2-ethyl-2-oxazoline) (PEtOx) was reported. For this purpose, a β-CD-(I) was acetylated, and then EtOx monomer was grafted onto the acetylated β-CD-(I) through cationic ring-opening polymerization followed by simultaneous crosslinking with amine-end capped FeO nanoparticles (FeO-NH NPs) and cystamine to produce a β-CD-g-(PEtOx)/FeO as a reduction- and pH-responsive magnetic DDS. The developed magnetic nanohydrogel was loaded with doxorubicin hydrochloride (Dox), and its drug loading and encapsulation efficiencies, as well as its pH- and reduction-triggered drug release behaviors were investigated.