9 documents found, page 1 of 1

Shape-versatile fixed cellular materials for multiple target immunomodulation

Therapeutic cells are usually administered as living agents, despite the risks of undesired cell migration and acquisition of unpredictable phenotypes. Additionally, most cell-based therapies rely on the administration of single cells, often associated with rapid in vivo clearance. Three-dimensional cellular materials may be useful to prolong the effect of cellular therapies and offer the possibility of creatin...

A Polymeric Nanoparticle Formulation for Targeted mRNA Delivery to Fibroblasts

Messenger RNA (mRNA)-based therapies offer enhanced control over the production of therapeutic proteins for many diseases. Their clinical implementation warrants formulations capable of delivering them safely and effectively to target sites. Owing to their chemical versatility, polymeric nanoparticles can be designed by combinatorial synthesis of different ionizable, cationic, and aromatic moieties to modulate ...

Author Correction: Efficient spatially targeted gene editing using a near-infra...

Engineering graphene-based electrodes for optical neural stimulation

Graphene-based materials (GBM) have been investigated in recent years with the aim of developing flexible interfaces to address a range of neurological disorders, where electrical stimulation may improve brain function and tissue regeneration. The recent discovery that GBM electrodes can generate an electrical response upon light exposure has inspired the development of non-genetic approaches capable of selecti...

Efficient spatially targeted gene editing using a near-infrared activatable pro...

Spatial control of gene expression is critical to modulate cellular functions and deconstruct the function of individual genes in biological processes. Light-responsive gene-editing formulations have been recently developed; however, they have shown limited applicability in vivo due to poor tissue penetration, limited cellular transfection and the difficulty in evaluating the activity of the edited cells. Here,...

Therapeutic Approaches for Stroke: A Biomaterials Perspective

Stroke is a leading cause of death worldwide and poses significant societal and healthcare challenges due to functional impairment of the brain. In order to fully restore brain function, innovative approaches have aimed to regenerate the injured tissue and to restore neuronal circuitry. In the last 5 years, stem cells have been consistently explored in clinical trials for tissue regeneration. Recent technologic...

A high-throughput screening platform to identify nanocarriers for efficient del...

Microglia Dysfunction Caused by the Loss of Rhoa Disrupts Neuronal Physiology a...

Nervous tissue homeostasis requires the regulation of microglia activity. Using conditional gene targeting in mice, we demonstrate that genetic ablation of the small GTPase Rhoa in adult microglia is sufficient to trigger spontaneous microglia activation, producing a neurological phenotype (including synapse and neuron loss, impairment of long-term potentiation [LTP], formation of β-amyloid plaques, and memory ...

Bacterial cellulose membranes as transdermal delivery systems for diclofenac: I...

Bacterial cellulose (BC) membranes were explored as novel nanostructured transdermal delivery systems for diclofenac sodium salt (a typical non-steroidal anti-inflammatory drug). Diclofenac sodium salt loaded BC membranes were prepared through a simple methodology, using glycerol as plasticizer, and characterized in terms of structure, morphology and swelling behavior. The membranes were very homogeneous, quite...