Neurogenic and angiogenic poly(-acryloylglycine)--(acrylamide)--(-acryloyl-glutamate) hydrogel: preconditioning effect under oxidative stress and use in neuroregeneration.

Traumatic injuries, neurodegenerative diseases and oxidative stress serve as the early biomarkers for neuronal damage and impede angiogenesis and subsequently neuronal growth. Considering this, the present work aimed to develop a poly(-acryloylglycine)--(acrylamide)--(-acryloylglutamate) hydrogel [p(NAG-Ac-NAE)] with angiogenesis/neurogenesis properties. As constituents of this polymer modulate their vital role in biological functions, inhibitory neurotransmitter glycine regulates neuronal homeostasis, and glutamatergic signalling regulates angiogenesis.

Facile cost-effective green synthesis of carbon dots: selective detection of biologically relevant metal ions and synergetic efficiency for treatment of cancer.

A facile cost-effective green synthesis approach has been used to synthesize carbon-dot (CDs) from the Kernel part of theseeds and investigated their fluorescent and metal ions sensing capability and also used for the delivery of drugs. Metallic ions such as Ca, K, Na, Feand Znwhich are biologically important for many reactions and are selectively detected through the novel CDs. The resultant dot size of CDs (∼4 nm) is useful to eliminate the 'Achilles heel' problems, which is associated with the Znin the body and its detection is a very challenging task.

Progress in Treatment and Diagnostics of Infectious Disease with Polymers.

In this era of advanced technology and innovation, infectious diseases still cause significant morbidity and mortality, which need to be addressed. Despite overwhelming success in the development of vaccines, transmittable diseases such as tuberculosis and AIDS remain unprotected, and the treatment is challenging due to frequent mutations of the pathogens. Formulations of new or existing drugs with polymeric materials have been explored as a promising new approach.

Nitric oxide releasing novel amino acid-derived polymeric nanotherapeutic with anti-inflammatory properties for rapid wound tissue regeneration.

Endogenous gasotransmitter nitric oxide (NO) is a central signalling molecule that modulates wound healing by maintaining homeostasis, collagen formation, wound contraction, anti-microbial action and accelerating tissue regeneration. The optimum delivery of NO using nanoparticles (NPs) is clinically challenging; hence, it is drawing significant attention in wound healing. Herein, a novel polymeric nanoplatform loaded with sodium nitroprusside (SP) NPs was prepared and used for wound healing to obtain the sustained release of NO in therapeutic quantities.

Poly(-acryloylglycine-acrylamide) Hydrogel Mimics the Cellular Microenvironment and Promotes Neurite Growth with Protection from Oxidative Stress.

In this work, the glycine-based acryloyl monomer is polymerized to obtain a neurogenic polymeric hydrogel for regenerative applications. The synthesized poly(-acryloylglycine-acrylamide) [poly(NAG--A)] nanohydrogel exhibits high swelling (∼1500%) and is mechanically very stable, biocompatible, and proliferative in nature. The poly(NAG--A) nanohydrogel provides a stable 3D extracellular mimetic environment and promotes healthy neurite growth for primary cortical neurons by facilitating cellular adhesion, proliferation, actin filament stabilization, and neuronal differentiation.

Seed Derived Carbon Nanocapsules: Cell Imaging, Depolarization of Mitochondrial Membrane Potential, and Dose-Dependent Control Death of Breast Cancer.

In this work, a series of mesoporous carbon nanocapsules (mCNS) of size below 10 nm have been prepared from seeds with a very easy and cost-effective approach. These nanocapsules can emit red and green light and are effective for cell imaging. Further, these carbon nanocapsules are biocompatible toward the normal healthy cells, however, they possess modest cytotoxicity against the MCF-7 (human breast cancer) and triple-negative breast cancer (TNBC) (MDA- MB-231 breast cancer cells), and the rate of killing cancer cells strongly depends on the dose of mCNCs.

Polymeric Nanoparticle Based Diagnosis and Nanomedicine for Treatment and Development of Vaccines for Cerebral Malaria: A Review on Recent Advancement.

Cerebral malaria occurs due to infection, which causes 228 million infections and 450,000 deaths worldwide every year. African people are mostly affected with nearly 91% cases, of which 86% are pregnant women and infants. India and Brazil are the other two countries severely suffering from malaria endemicity.

Targeted and Enhanced Antimicrobial Inhibition of Mesoporous ZnO-AgO/Ag, ZnO-CuO, and ZnO-SnO Composite Nanoparticles.

In this work, mesoporous (pore size below 4 nm) composite nanoparticles of ZnO-AgO/Ag, ZnO-CuO, and ZnO-SnO of size ≤ 10 nm (dia.) have been synthesized through the solvochemical reduction method using NaBH. These composite nanoparticles exhibited excellent killing efficacy against Gram-positive/negative bacterial and fungal strains even at a very low dose of 0.

Melt sonocrystallized piroxicam for oral delivery: particle characterization, solid state analysis, and pharmacokinetics.

Objectives: The present study investigates the effect of particle engineering technique on powder properties and pharmacokinetics of piroxicam (PXM).

Methods: PXM was subjected to melt sonocrystallization to obtain product designated as MSCPXM and characterized for various pharmacotechnical parameters, performance characteristics and pharmacokinetic evaluation.

Results: Micromeritic and rheological properties were found to be superior to the original form (OFPXM).