Global Fertility Research Alliance
News Jun 08, 2015
The alliance is a partnership between Illumina, Merck KGaA, Darmstadt, Germany, and Genea, which develops innovative fertility technologies.
The alliance aims to improve the consistency in ART worldwide and addresses the need for more standardization of fertility processes within the ART laboratory. The three companies will launch their initiative at the 31st Annual Meeting of the European Society of Human Reproduction and Embryology (ESHRE) in Lisbon, Portugal, on 13 June 2015. This is another important step for Illumina towards establishing global standards in the growing market of fertility technologies and the ultimate goal of helping families to have a baby.
"We are the global leader in the field of fertility drugs and committed to supporting the success and improvement in ART by going beyond drugs with innovative technologies," explained Meeta Gulyani, Head of Global Strategy and Franchises at the biopharmaceutical business of Merck KGaA, Darmstadt, Germany. "By forging the Global Fertility Alliance with partners like Illumina and Genea, we aim to support the development of needed global standards in ART labs. This will ensure a consistently high level of performance between different centers and countries."
With the establishment of the alliance, Illumina, Merck KGaA, Darmstadt, Germany, and Genea emphasize their desire to help improve fertility outcomes by contributing to the standardization of technologies and protocols in ART labs. Currently, variation in practices and techniques can lead to inconsistent results and outcomes. Recognizing the importance of innovation in ART technologies, the alliance aims to enhance progress and innovation in three ways. Firstly, the founding members aim to foster integration of multiple, leading fertility technologies. Secondly, building on this, the alliance will aim to collaborate with leading health care professionals and medical societies to develop global standards. And finally, as technologies in the fertility space are rapidly advancing, the alliance will also develop educational resources for health care professionals worldwide. These efforts will include training curricula and workshops, as well as access to model labs, symposia and events at medical meetings.
"Illumina has a strong commitment to improving in vitro fertilization (IVF) outcomes through the use of industry-leading genomics, but appreciates that there are many factors that impact ART outcomes," said Tristan Orpin, Senior Vice President and General Manager, Reproductive and Genetic Health for Illumina. "Founding the Global Fertility Alliance together with Merck KGaA, Darmstadt, Germany, and Genea represents an exciting opportunity for us to share our knowledge and experience with the wider community and to help bring alignment and higher consistency to ART practices worldwide. Having already partnered with Merck KGaA, Darmstadt, Germany, in other treatment areas, we are confident this collaboration of innovators in the fertility field will deliver a significant positive impact for health care professionals, fertility labs, and most importantly their patients."
"Increasing success rates for patients worldwide and advancing the science of fertility treatment is an integral part of our mission," said Tomas Stojanov, CEO of Genea. "The new Global Fertility Alliance for excellence in ART will drive automation and standardization in the field and support health care professionals in providing their patients with the best possible outcomes."
In order to rapidly progress the initiative, Illumina, Merck KGaA, Darmstadt, Germany, and Genea will actively contribute to the alliance and establish a board of representatives, which will meet regularly. At the same time, the companies invite new members, who demonstrate a consistent commitment to driving technology innovation and improving ART results, to join the alliance.
With their ability to treat a wide a variety of diseases, spherical nucleic acids are poised to revolutionize medicine. But before these digitally designed nanostructures can reach their full potential, researchers need to optimize their various components. A team has developed a direct route to optimize these particles, bringing them one step closer to becoming a viable treatment option for numerous diseases, including cancer.READ MORE