Missing: Crossject Medical Technology's Product Demo & Case Studies
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Missing: Crossject Medical Technology's Product & Differentiators
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Crossject Medical Technology Patents
Crossject Medical Technology has filed 1 patent.
Chelating agents, Food additives, Allergology, Amines, Calcium compounds
Chelating agents, Food additives, Allergology, Amines, Calcium compounds
Crossject Medical Technology Web Traffic
Crossject Medical Technology Rank
Crossject Medical Technology Frequently Asked Questions (FAQ)
When was Crossject Medical Technology founded?
Crossject Medical Technology was founded in 2001.
What is Crossject Medical Technology's latest funding round?
Crossject Medical Technology's latest funding round is Unattributed VC - III.
How much did Crossject Medical Technology raise?
Crossject Medical Technology raised a total of $28.6M.
Who are the investors of Crossject Medical Technology?
Investors of Crossject Medical Technology include Sofimac Partners, Gemmes Ventures, A Plus Finance, GSK Biologicals, Financiere Agache and 7 more.
Who are Crossject Medical Technology's competitors?
Competitors of Crossject Medical Technology include PharmaJet, Flexion Therapeutics, Sirion Biotech, Presage Biosciences, Milestone Pharmaceuticals and 13 more.
Compare Crossject Medical Technology to Competitors
Solidus Biosciences is a company that received a STTR Phase II grant for a project entitled: Development of a Lead Optimization Chip for Drug Discovery. Their award is funded under the American Recovery and Reinvestment Act of 2009 and their project will address further development and commercialization of a multi-enzyme lead optimization chip (Multizyme Chip) for high-throughput generation of lead compound analogs coupled with cell-based screening for the rapid identification of biologically active derivatives. Such a capability directly impacts a key bottleneck in drug discovery; namely, the efficient optimization of lead compounds to develop drugs with optimal pharmacological properties. Solidus Biosciences, Inc. proposes to combine six biocatalysis with pharmacological screening to provide rapid identification of biologically active compounds against cell-specific targets, which is a new paradigm for lead optimization. Moreover, the Multizyme Chip platform will be well-suited for lead optimization in related industries, including agrochemicals, cosmetics, and cosmeceuticals. The Solidus technology will thus improve the competitiveness and efficiency of the pharmaceutical, cosmetics, and chemical industries, and will serve as a rich source of new and improved commercial products. The broader impacts of this research are the advances that Solidus Biosciences will achieve toward generating better and safer drugs, reducing the cost to develop these drugs, and increasing the overall efficiency of the pharmaceutical industry. Solidus will generate Multizyme Chips for purchase by pharmaceutical and biotechnology companies to facilitate their lead optimization programs, particularly those involving natural product-derived and complex synthetic small molecule leads. Cryopreservation techniques developed in Phase II will enable the sale of chips and chip-handling devices produced during Phase I, and will allow seamless penetration of the Solidus technology platform into the company's target markets. Solidus Biosciences is a company that received a STTR Phase I grant for a project entitled: Development of a Lead Optimization Chip for Drug Discovery. Their research project aims to develop a new method for generating lead compounds by using enzymatic modification of compound sets. Availability of new methodology to generate biologically active compounds from existing molecules may enhance the success of the drug discovery process and may lead to the discovery of new and useful therapeutics. Solidus Biosciences is a company that received a STTR Phase I grant for a project entitled: High-Throughput RNAi Screening of Mammalian Cells. Their research project aims to develop a system for the rapid screening of siRNAs that can inhibit genes involved in cellular responses such as hyperosmotic stress that can affect pathways of high commercial importance, including protein production. Use of hyperosmotic stress as a proof of concept system will demonstrate the feasibility of high-throughput RNAi screening and will at the same time yield results that can be used to improve monoclonal antibody production in commercial and laboratory settings Production of biopharmaceuticals such as antibodies is exquisitely responsive to the culture conditions under which the cells are grown and thus can be improved through optimizing such settings, which in turn, would affect the genes involved in the specific synthetic pathways of interest. Development of a rapid methodology to identify inhibitory RNA molecules that can inhibit genes that adversely affect yield would be of significant importance to pharmaceutical companies that produce protein therapeutics and may result in a lowering of the const of these therapeutic entities.
Flamma specializes in the manufacture of active ingredients and intermediates for the pharmaceutical, nutraceutical and cosmetic industries.
Optimata Ltd. is a privately-owned science-based interdisciplinary company engaged in biosimulation technology for optimizing drug treatment protocols. Optimata partners with pharmaceutical and biotechnology companies to develop effective new treatments for diseases by simulating disease processes. This aims to reduce time-to-market and development costs while improving the competitive profile of the newly developed drug.
QPS is a GLP/GCP-compliant contract research organization (CRO) delivering the highest grade of discovery, preclinical, and clinical drug development services. Focused on bioanalytics and clinical trials, QPS is known for proven quality standards, technical expertise, a flexible approach to research, client satisfaction and turnkey laboratories and facilities.
Rhenovia Pharma is a French biotechnology company founded in 2007 by an international team that brings together managers from large pharmaceutical companies and world experts in neuroscience and nervous system modeling. The company is a provider in the application of biosimulation in the prevention and treatment of neurological, neurodegenerative and psychiatric disorders and diseases.
KIYATEC specializes in modeling and predicting cancer patient response to drug therapies, using ex vivo 3D cell culture technology, in order to inform clinical decision making and drive drug development. Its predictive clinical tests provide oncologists with patient-specific response profiles to current standard of care drugs prior to treatment selection.
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