Universidad de Alcalá-OTRI posted this:Carbosilane dendrimers with a polyphenolic nucleus and their use as antiviralsThe research group in «Dendrimers for biomedical applications» of the University of Alcalá presents carbosilane dendrimers with a polyphenolic nucleus, its obtaining procedure and its uses as antiviral, antibacterial and antifungal agents. The group seeks to reach collaboration agreements, licensing or commercial agreements with technical assistance, with companies from the biotechnology, pharmaceutical and biomedicine sectors in general.
Universidad de Alcalá-OTRI posted this:Carbosilane dendrimers and their use as antiviralsThe research group in "Dendrimers for Biomedical Applications" of the University of Alcalá presents these highly branched macromolecules synthesized from a polyfunctional nucleus, of carbosilane structure and functionalized in its periphery with anionic groups that give the macromolecule a negative net charge. In addition, the invention relates to the use of the dendrimers as an antimicrobial and the process for obtaining them. The group seeks to reach collaboration agreements, licensing or commercial agreements with technical assistance, with companies in the biotechnology, pharmaceutical and biomedicine sectors in general.
Universidad de Alcalá-OTRI posted this:Carbosilane dendrimers with polyphenolic groups. Uses as antioxidants and anticancer.The "Dendrimer for biomedical applications Research Group" at Alcalá University presents dendritic macromolecules with skeleton of carbosilane nature that contain in their structure polyphenolic groups (GPF). These compounds are powerful antioxidants and free radical scavengers, as well as anticancer agents, with application in sectors such as food, cosmetics and pharmaceutical industry. The invention provides a process for its procurance and uses.
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Germans Trias i Pujol Health Sciences Research Institute (IGTP) posted this:Biosignatures for ulcerative colitisCurrently, the glucocorticoids are the first-line of treatment for of moderate-to-severe flare-ups. However, up to 40% of patients do not have an adequate response. Mechanisms of steroid-refractoriness in UC remains unknown. In addition, corticosteroid failure impair the effectiveness of rescue therapies.
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TTPU posted this:Anti-adhesive Biopolymer CoatingResearchers have developed an anti-adhesive coating based on a polymer naturally and sustainable produced by a marine bacterium. This coating prevents the bacterial adhesion and the subsequent biofilm formation that usually leads to host bacterial infections difficult to eradicate and control with the antibiotics currently in use, namely in hospital environments. This coating can be applied in a cost effective way to a broad range of materials through the application of a universal glue.
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University of Granada (OTRI) posted this:Dual Probes for Flow Cytometry and Mass CytometryResearchers of the University of Granada have developed probes based on nanoparticles, both fluorescent and functionalized with metals, which act as dual probes, and can be used for both flow cytometry (FACS –Fluorescent-Activated Cell Sorting) and mass cytometry (CyTOF -Cytometry by Time-Of-Flight-). The probes can be used for bar coding of living cells or carrying out in vivo studies of different cell lineages through cell co-cultures as well as the activation of drug precursors through cytoplasmic catalysis of organometallic reactions inside living cells.
Universidad de Alcalá-OTRI posted this:Metal nanoparticles stabilized with carbosilane dendrons for the treatment of infectious diseases and cancer.The research group in “Dendrimers for biomedical applications” of the University of Alcalá, in collaboration with researchers form the Foundation for Biomedical Research of Gregorio Marañón Hospital in Madrid, present the first example of dendronization of metallic nanoparticles with dendritic systems of ionic carbosilane nature. Also the present invention relates to the method of obtaining these nanoparticles and the use of the mentioned compounds for the treatment of infectious diseases or cancer. The researchers seek for collaboration agreements, licensing or commercial agreements with technical assistance, with companies or institutions from the biomedical sector.
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USP Innovation Agency posted this:PROCESS TO OBTAIN SILVER NANOPARTICLES, SILVER NANOPARTICLES AND THEIR USESRecent data published by the World Health Organization (WHO) shows that every year 8, 8 million people died from cancer around the world. Therefore, the development of new technologies more efficient, chipper and environmentally-friendly for the treatment of this disease it is currently a very relevant goal. This invention is about a new methodology of synthesis of silver nanoparticles, in observance of the green chemistry and by using seaweed extracts as reducing agent of silver ions.
RAMOT at Tel Aviv University Ltd. posted this:A novel behavioral bioassay for preclinical testing and characterization of CNS agentsOur team, including zoologists, statisticians, and computer scientists have developed a new hi-res bioassay for preclinical testing and characterization of CNS agents, extracting key animal-centered parameters of behavior via computerized tracking and measurement of free exploration. The features that distinguish our system and method from other existing systems and methods are: elaborate data preparation for analysis and a methodology that secures replicability of results across laboratories, and exposes active management of kinematic variables. Our measured parameters are carefully designed, animal-centered building blocks of behavior. They are selected on the basis of an in-depth understanding of the mouse’s functional world. These quite unexpected and unusual parameters reflect the animal’s cognitive and emotional state and its information processing capacity; therefore they are most prone to be affected by drugs that act on respective CNS structures that mediate these states. Unlike all other existing systems we expose and quantify the rich and highly organized developmental dynamics of self regulated behavioral growth. The dynamics of this process before and after genetic manipulation and/or pharmacological treatment can now be readily measured by our system, articulating the effects of potential CNS drugs on behavioral growth and decay processes. Project ID : 2-2009-11
RAMOT at Tel Aviv University Ltd. posted this:Oral Mucosa-derived Stem Cells: A Unique Population for the Prevention and Treatment of Ischemic Heart FailureStem cells (SC) are considered crucial building blocks for any regenerative strategy. Adult oral mucosa (OM) is a unique source for generating adult pluripotent stem cell (OPSC) populations. This uniqueness consists in the fact that 95% of the OM whole populations in culture (1st – 8th passages) express markers of embryonic and mesenchymal SC. Thus, in contradistinction to known sources which comprise very low numbers of SC, OPSC generation for clinical use is simple and cost effective and does not require cumbersome cost-consuming purification steps. The general objective is to lay the foundation for the development of a variety of products based on the pluripotency and simple and cost effective generation of billions of OPSC. The major aim of the proposed project is to develop a product for the treatment of ischemic heart failure (IHF). This product which will serve as a proof of concept was selected based on medicals needs, market cap and time to market. The specific aims of the proposal are: 1. To develop a cardiac product aimed at treating ischemic heart failure (IHF). The aim is to test the safety and therapeutic effect of OPSC on experimental IHF in a minipig model. 2. To strengthen the intellectual property by fully characterizing the profile of OPSC. The prevalence of IHF continuously increases (1 million new cases every year in the western world) and currently the market cap is estimated in the range of billions. Project ID : 10-2011-260
RAMOT at Tel Aviv University Ltd. posted this:Immunotherapy for Stroke and Cognition in a Cerebral Amyloid Angiopathy Animal ModelCerebral amyloid angiopathy (CAA) is due to amyloid accumulation in the vessel walls leading to hemorrhagic stroke, and cognitive impairment. There are no available treatments to specifically reduce the risk of CAA. In this research we aim to assess brain tissue damage and cognitive impairment resulting from CAA in animal model and to investigate a novel approach to immune therapy. Methods: We have shown that nasal vaccination with a proteosome adjuvant (Protollin) that is well tolerated in humans, decreases amyloid plaques in an Alzheimer’s disease mouse model. It was recently reported that an overexpression of TGF-?1 under the control of an astrocyte promoter GFAP in mice results in CAA. TGF-?1 mice were nasally treated with Protollin on a weekly basis starting at the age of 13 months for three months. Following treatment animals were subjected for MRI and cognition analysis. Results: Here we show that nasal Protollin activates perivascular macrophage and potently decreases vascular amyloid in TGF-?1 mice. Using MRI we found that while PBS treated animals showed a significant enlargement of the lateral ventricles area, Protollin prevents further brain damage and prevents pathological changes in the blood-brain barrier. Vascular risk factors have been found to be associated with vascular dementia. Using an object recognition test and Y-maze, we found significant improvement in cognition with the Protollin treated group. Interpretation :Our study demonstrates that activation of macrophages by Protollin is a novel approach to reduce microhemorrhage, prevent stroke and improve cognition in a model of cerebral amyloid angiopathy. Project ID : 10-2011-259
UATEC - Unidade de Transferência de Tecnologia posted this:Biopolymer based micro- and nanoparticlesA group of researchers from a Portuguese university developed a method for preparing new hybrid materials based on biopolymer and silica, in the form of spherical particles with uniform size and smaller than 1 micrometer for a number of applications in environmental and industrial areas. The method is also effective for coating nanoparticles of variable nature, with a thin shell (tens of nanometers) with composition identical to the hybrids. The materials have been successfully tested in the removal of chemical species in water at laboratory scale, in particular in the removal of organic pollutants dyes and pharmaceutical compounds. Other applications are being considered. The University looks for companies working in the environmental, pharmaceutical or biotechnology areas, or companies in the area of materials for licensing and / or future collaboration in developing new formulations and testing new applications.
UATEC - Unidade de Transferência de Tecnologia posted this:Electrochemical biosensor for the detection and quantification of alkylphenols.A group of researchers from Portuguese university developed a biosensor for the detection and quantification of alkylphenols (AP). This invention constitutes a fast, efficient and accurate method for the quantification of these contaminants, found in items ranging from detergents and pesticides to plastics, textiles and fuels. The apparatus has already been successfully tested in real samples and demonstrated to be faster and more efficient than the commonly used techniques for the quantification of AF, not requiring additional steps, namely, for sample preparation.
Fundació URV posted this:Potentiometric sensor for the quantitative determination of creatininePotentiometric sensor for the quantitative determination of creatinine in biological fluids and other aqueous media. By a new ionophore incorporated into a polymeric membrane that allows screening creatinine real samples. The use of said ionophore in the polymer membrane solve the selectivity problem found in other methods.
RAMOT at Tel Aviv University Ltd. posted this:Harnessing inhibitory RNA based- nanoparticles for therapeutic intervention in blood cancersModulating T cells functions by down regulating specific genes using RNA interference (RNAi) holds tremendous potential in advancing targeted therapies in many immune related disorders including cancer, inflammation, autoimmunity and viral infections. Hematopoietic cells, in general, and primary T lymphocytes, in particular, are notoriously hard to transfect with small interfering RNAs (siRNAs). Herein, we describe a novel strategy to specifically deliver siRNAs to murine CD4+ T cells using targeted lipid nanoparticles (tLNPs). To increase the efficacy of siRNA delivery, these tLNPs have been formulated with several lipids designed to improve the stability and efficacy of siRNA delivery. The tLNPs were surface functionalized with anti-CD4 monoclonal antibody (mAb) to permit delivery of the siRNAs specifically to CD4+ T lymphocytes. Ex vivo, tLNPs demonstrated specificity by targeting only primary CD4+ T lymphocytes and no other cell types. Systemic intravenous administration of these particles led to efficient binding and uptake into CD4+ T lymphocytes in several anatomical sites including the spleen, inguinal lymph nodes, blood and the bone marrow. Silencing by tLNPs occur in a subset of circulating and resting CD4+ T lymphocytes. Interestingly, we show that tLNPs internalization and not endosome escape is a fundamental event that takes place as early as one hour after systemic administration that determine tLNPs efficacy. Taken together, these results suggest that tLNPs may open new avenues for the manipulation of T cell functionality and may help to establish RNAi as a therapeutic modality in leukocyte-associated diseases. Project ID : 10-2016-962