PDT-active upconversion nanoheaters for targeted imaging guided combinatorial cancer phototherapies with low-power single NIR excitation.

A versatile nanoformulation is designed by anchoring human transferrin protein (Tf) on fluoromagnetic upconverting nanoheaters, NaGdF:Yb,Er (UCNP), loaded with Rose Bengal (RB), for multimodal imaging guided synergistic photothermal (PTT) and photodynamic therapy (PDT) at the targeted tumor site. The NIR excitation of the UCNP-RB Forster Resonance Energy Transfer (FRET) pair results in the reactive oxygen species (ROS) generation for PDT, whereas the non-radiative transitions in Er result in the heat required for PTT. The intravenously injected theranostic agent (UCNP@Tf-RB) enabled; (1) combinatorial PTT and PDT of 4T1 tumors with minimal systemic toxicity, (2) dual targeted (passive and active) tumor accumulation, (3) dual-modal imaging (MRI/photothermal), and, (4) excellent stability and biocompatibility.

ZnO Nanoflower petals mediated amyloid degradation - An in vitro electrokinetic potential approach.

An electrokinetic potential (ζ-potential) based approach was introduced to address the amyloid degradation on ZnO-nanoflower platform. The hallmark of neurodegenerative disorders like Alzheimer's disease, Parkinson's disease (PD), Creutzfeldt-Jakob Disease (CJD), Prion- associated diseases, type-II diabetes, etc. is the deposition of misfolded protein aggregates predominantly β-sheeted in structure and fibrillar morphology, known as amyloids, in the brain and different parts of the body.

Excitation Wavelength Independent Carbon-Decorated Ferrite Nanodots for Multimodal Diagnosis and Stimuli Responsive Therapy.

The combination of superparamagnetism and excitation independency have been packed into carbon-decorated ferrite nanodots (CDs@MNFs) for the introduction of a cost-effective and less-toxic multimodal contrast agent in fluorescence/MR imaging to replace conventional heavy metal containing Gd-DOTA. The label-free surface engineered ferrite nanodots are capable of generating twin T1 (longitudinal) and T2 (transverse) weighted magnetic resonance (MR) along with fluorescence emission. The calculated molar relaxivities and molar radiant efficiency obtained from in vitro and in vivo studies are the indication of its multimodal efficacy in medical imaging compared to the conventional contrast agents.

In Vivo and in Vitro Demonstration of Gold Nanorod Aided Photothermal Presoftening of B16F10 Melanoma for Efficient Chemotherapy Using Doxorubicin Loaded Graphene Oxide.

A combined photothermal therapy (PTT) and chemotherapy (chemo) were performed in vitro on B16F10 melanoma cells and in vivo using melanoma bearing C57BL/6 mice. The 785 nm (100 mW) irradiated gold nanorods (AuNRs) were used as the PT agent, and electrostatically conjugated Doxorubicin (Dox) to a nanocarrier graphene oxide (GO) worked as the chemotherapeutic. Selection of dosage was optimized from the individual viability studies, and finally a combined therapeutic (AuNR (100 ppm), GO (125, and 250 ppm), Dox (0.

Label Free Ultrasmall Fluoromagnetic Ferrite-clusters for Targeted Cancer Imaging and Drug Delivery.

Objective: The label free ultrasmall fluorescent ferrite clusters have been engineered in a controlled fashion which was stabilized by serum protein and functionalized by folic acid for the application of targeted multimodal optical and Magnetic Resonance (MR) cancer imaging.

Methods: The ultra-small manganese ferrite nanoclusters (PMNCs) with a diameter of 4 nm have a commendable effect on the longitudinal (T1) and transverse (T2) relaxation in MR imaging that was evident from the phantom and animal MRI.

Results: The calculated longitudinal molar relaxivity of nanoclusters was found to be 6.

ZnO nanoflower based sensitive nano-biosensor for amyloid detection.

Zinc oxide (ZnO) is a semiconductor metal oxide nanoparticle with inherent optical properties. Among the different zinc oxide nanostructures, nanoflowers have greater surface area. Utilizing this property a reagentless biosensor has been developed for the detection of beta amyloids, a hallmark of neurodegenerative diseases like Alzheimer's disease, Creutzfeldt-Jakob Syndrome, insulin dependent type II diabetes etc.