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What immuno-oncology research can tell us about COVID-19
Dr Jing Watnick discusses how lessons learnt from cancer immunotherapy treatments could be applied to the development of COVID-19 therapies.
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Research & Development
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Rod-shaped microparticles could improve immune system response to COVID-19
Researchers have suggested that neutrophils, which contribute to the development of ARDS in COVID-19 patients, could be diverted from the lungs by rod-shaped particles in a new form of treatment.
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Cancer drug could be used to treat Rett syndrome, finds study
Researchers have found that a compound named JQ1, an experimental cancer drug, extends the life of mice with Rett syndrome.
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Technique to synthesise anticancer compound FE399 developed
A team has successfully created a new method to artificially produce FE399, a compound known to induce apoptosis in cancer cells.
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Researchers develop a novel respiratory system simulator
Scientists reveal their reliable and tuneable simulator created using swine lungs, synthetic actuators and artificial muscles.
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Study identifies pathway responsible for blood-brain barrier impairment in Alzheimer’s
The team found that the expression of the APOE4 gene variant in pericytes caused amyloid plaque formation in a blood-brain barrier model.
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Investigational anti-SARS-CoV-2 molecules show efficacy in pre-clinical studies
Pre-clinical testing of the COVIDTRAP™ (STI-4398) protein and STI-1499 antibody reveal they can inhibit SARS-CoV-2 from infecting cells.
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A new vision: restoring eyesight using a novel gene therapy technique
Scientists created a technique to give photoreceptors infrared-light sensitivity, allowing the animal models to see infrared heat signatures.
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Researchers suggest animal experiments may be too standardised to be reproducible
Experts suggest that increasing biological and conditional variations in their experiments could not only make them more reproducible but also reduce the total number of animals required.
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TMPRSS2 inhibitors, Bromhexine, Aprotinin, Camostat and Nafamostat as potential treatments for COVID-19
Arsalan Azimi explains why inhibiting TMPRSS2 with clinically proven protease blockers could work as a therapeutic strategy against COVID-19.
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Using big data approaches to develop cell therapies
An area where stem cell biology and medicine are combining effectively is the establishment of new cell therapies. However, current therapies are limited to a narrow set of cell types that can be isolated or created and expanded in vitro. Dr Owen Rackham discusses how utilising computational approaches will further…
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Seeing the light – visualising protein translation in real time
Non-invasive imaging has played an increasing role in drug discovery and development processes. Nikki Withers spoke with Yochi Slonim, who discusses a novel technology that leverages FRET signals for the discovery of small molecule drugs that selectively control mRNA translation in a novel target space.
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Antibodies against viral disease: highlighting technologies behind COVID-19 antibody therapy
Amid the rush to develop an effective vaccine against COVID-19, antibody therapy has become a major strategy to ameliorate and treat cases of severe disease. Armed with the capacity to neutralise pathogens and orchestrate the immune system, promising antibody candidates for multiple viral indications, including HIV, continue to emerge. Technology…
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Delivering a therapy to kerb COVID-19
Sheraz Gul explores current research developments to help treat and tackle the spread of COVID-19.
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The Crick HTS facility – facilitating research through large-scale screening
The high-throughput screening (HTS) facility at the Francis Crick Institute in the UK provides a core service for Crick research groups. It enables scientists to use large-scale, unbiased screening technologies and approaches as part of their research. Nikki Withers spoke to the Science Technology Platform Head, Michael Howell, to hear…
