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12th World Meeting on Pharmaceutics, Biopharmaceutics and Pharmaceutical Technology

8-11 February 2021, Vienna, Austria

In continuation of the very successful scientific meetings in Budapest, Paris, Berlin, Florence, Geneva, Barcelona, Malta, Istanbul, Lisbon, Glasgow and Granada, the 12th PBP World will be held in Vienna from 8-11 Feb 2021. This every two year held conference has gained an ever increasing impact among the pharmaceutical scientists: With up to 1000 submitted abstracts and about 1300 participants it has become a well-established major meeting, attracting scientists from all over the world.
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News and Press Releases

Data Showing SARS-CoV-2 Reactive T Cells are Associated with Protection from COVID-19 – and Can Be Both Detected and Measured Using Oxford Immunotec’s T-SPOT® Technology – is Published by Public Health England and Oxford Immunotec

Oxford Immunotec Global PLC (Nasdaq: OXFD) (the “Company”), a global, high-growth diagnostics company, today announced the release of data from a prospective cohort study in keyworkers in the UK – a collaboration between the Company and Public Health England (PHE). The data demonstrates that SARS-CoV-2 reactive T cells may be sufficient to give protection from COVID-19 and that serology alone may underestimate those at lower risk of clinical SARS-CoV-2 infection.
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White Papers

Medpace Reference Laboratories establishes state of the art Flow Cytometry techniques for flexible approaches to clinical trials across multiple therapeutic areas.

Medpace

Cytometry is the process of measuring the properties of individual cells. These properties may include gene or protein expression, chemical properties, deoxyribonucleic acid (DNA) content, and various cellular functions. The earliest methods of cytometry relied upon light microscopy for the classification and observation of cells and cellular components. Microscopy permitted direct visual observation of cells for the first time, leading to the classification of cells by morphology and insight into cellular functions. However, the time required for microscopic analysis constrains the number of samples or number of cells in each sample that can be examined. Therefore, the utility of microscopy for analysis of rare cells or in situations where sample throughput is a priority is limited. Flow cytometry was developed largely to improve upon these limitations.
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