Bilcare Research is an innovation-led solutions provider that partners with the global pharmaceutical and healthcare industry to improve patient healthcare outcomes. We endeavour to deliver effective and affordable solutions that enhance the speed and quality of drug discovery and help build and protect brands by ensuring the delivery of genuine medicines to patients.
An R&D driven organization, Bilcare Research focuses on developing cutting-edge solutions that enable the pharmaceutical industry to realize significant qualitative and measurable cost and time benefits in the 'drug discovery to market' value chain.
Bilcare Research has a global footprint with modern manufacturing and R&D plants located across U.S., Europe, India and Singapore. We work with leading pharmaceutical companies across the globe to address their challenges. This includes not only bolstering the drug discovery pipeline through innovative products, processes and services, but also improving the efficacy of pharmaceuticals and drug delivery through innovative solutions in packaging. Our novel brand protection and management technologies aim to ensure that safe and genuine medicines reach the hands of consumers.
We, at Bilcare Research, drive our continual innovation process with a unilateral focus on addressing the key concerns and challenges of the pharmaceutical and healthcare industries, more particularly the 5Cs - Counterfeit, Compliance, Communication, Convenience and Cost. We firmly believe that our solutions contribute not only to addressing these crucial challenges but also seamlessly integrate with their core objectives of enhancing business growth and improving Health Outcomes.
Keeping Tumor Growth at Bay Engineers at Washington University in St. Louis found a way to keep a cancerous tumor from growing by using nanoparticles of the main ingredient in common antacid tablets.Future of Medicine Could be Found in a Tiny Crystal Ball A Drexel University materials scientist has discovered a way to grow a crystal ball in a lab. Not the kind that soothsayers use to predict the future, but a microscopic version that could be used to encapsulate medication in a way that would allow it to deliver its curative payload more effectively inside the body.Improving Delivery of Poorly Soluble Drugs Using Nanoparticles A technology that could forever change the delivery of drugs is undergoing evaluation by the Technology Evaluation Consortium™ (TEC). Developed by researchers at Northeastern University, the technology is capable of creating nanoparticle structures that could deliver drugs into the bloodstream orally – despite the fact that they are normally poorly soluble.Faster Drug Discovery? Startup develops more cost-effective test for assessing how cells respond to chemicals.New Mechanism of Antitumor Action Identified A team of UAB researchers and collaborators from the Catalan biotech company Ability Pharmaceuticals (UAB Research Park), have described a new mechanism of anti-tumour action, identified during the study and development of the new drug ABTL0812.Nanoparticles Deliver Tumor Suppressors to Damaged Livers UT Southwestern Medical Center chemists have successfully used synthetic nanoparticles to deliver tumor-suppressing therapies to diseased livers with cancer, an important hurdle scientists have been struggling to conquer.Experimental Combination Surprises with Anti-HIV Effectiveness A compound developed to protect the nervous system from HIV surprised researchers by augmenting the effectiveness of an investigational antiretroviral drug beyond anything expected.A New Type of Anticancer Agent Success in the development of a ?-tubulin specific inhibitor.Nanoparticles Proven Effective Against Antibiotic-Resistant “Superbugs” In the ever-escalating evolutionary battle with drug-resistant bacteria, humans may soon have a leg up thanks to adaptive, light-activated nanotherapy developed by researchers at the University of Colorado Boulder.Versatile New Molecule-Building Technique Chemists at The Scripps Research Institute (TSRI) have devised a new and widely applicable technique for building potential drug molecules and other organic compounds.