R&D Projects



28 Friday, February 2020

Red de Investigación de Sanidad Animal (RISA) risa LOGO


genetic PCR solutions™ become a member of RISA. This Network, which brings together numerous researchers dedicated to Animal Health in Spain, is created with the intention of enhancing the existing synergies between the different Spanish animal health research groups, with experts in disciplines as varied as entomology, epidemiology and animal welfare, among others, all complementary, to achieve a more rational, responsible and optimized use of resources, ensure animal health and welfare and therefore, public health. 


06 Wednesday, February 2019

ARREST-TB: Accurate, rapid, robust and economic diagnostic technologies for tuberculosis


The Spanish technology-based company Genetic Analysis Strategies SL, through its GPS™ brand, participates in the European project "ARREST-TB: Accurate, rapid, robust and economic diagnostic technologies for tuberculosis". The project brings together a consortium of academics from the University of Edinburgh, the Heriot Watt University, the University of Padua, together with the companies DestiNA Genómica and Optoi. The development of new technologies for the diagnosis of tuberculosis is projected to be evaluated in countries with a high prevalence for this infection, in close collaboration with the Central Institute of Tuberculosis Research, (Moscow, Russia), the National Institute for Tuberculosis Research (Chennai, India) and ShanMukha Innovations Pvt. Ltd.


Tuberculosis, a disease caused by bacteria of the species Mycobacterium tuberculosis, is a global threat to public health responsible of 1.3 million lives in 2016 and being the ninth leading cause of mortality in the world. The World Health Organization (WHO) has designed a route plan to follow with the aim of motivating collaborations that lead to the development of new diagnostic methods, allowing an improvement in the monitoring of patients. Tuberculosis, moreover, is not left out of the global growth of resistance to multiple antibiotics that has been detected in many pathogens. The rapid spread of these resistances is compromising the efficacy of antibiotics, including those of last resort. According to Dr Antonio Martinez-Murcia, professor at the Miguel Hernández University and director of GPS™, "as a result, drug resistance is considered to be the most accurate and imminent threat to the population".


GPS Team

The objective of the ARREST-TB project is the development of molecular probes and optical devices that enable effective action in the rapid diagnosis of Mycobacterium tuberculosis as well as the presence of its resistance to antibiotics. The development of trials that allow monitoring patients under treatment against tuberculosis and determine its evolution will be addressed.  


Know more about ARREST TB Project


06 Wednesday, June 2018


The objective of this project, with the acronym "ONE-DAY FOOD TESTING", is the achievement and validation of a prototype system capable of ensuring the detection of pathogenic microorganisms in high-risk foods with maximum precision and sensitivity, reducing the time of analysis so that it can be executed in a working day (approximately 8 hours) and ensure the delivery of IV and V range products with all the health guarantees. IMIDTA/2017/53

Know more about ONE-DAY FOOD TESTING


Aquavalens TR

genetic PCR solutions™ is a partner of The AQUAVALENS consortium. AQUAVALENS has brought together SMEs, Industries, Universities and Research Institutes with the mission of protecting the health of European Citizens from contaminated drinking water and water used in food processing. We will achieve this by developing sustainable technologies to enable water system managers whether in large or small water systems or within food growers or manufacturers to better control the safety of their water supplies. The GPS™ developed kits, have been spread among AQUAVALENS partners to be used as a reference method during process development and ring-test validation. 2013-2018

Know more about AQUAVALENS Project