31/01/2019

Paris, January 31st, 2019. Inotrem S.A., a biotechnology company focused on the modulation of the TREM-1 pathway for the management of acute and chronic inflammatory syndromes, announced today the signature of an exclusive license agreement with four major research organizations, under which it receives the exclusive worldwide rights for the biomarker soluble TREM-1 (sTREM-1) in cardiovascular diseases, and in particular acute myocardial infarction. The academic partners are Universities of Paris Sorbonne and of Lorraine, Inserm, and AP-HP.
As of today, Inotrem owns exclusive rights for sTREM-1 in septic shock and cardiovascular diseases. This agreement will enable Inotrem to commercialize or sublicense for these indications any resulting test developed for sTREM-1.
Jean-Jacques Garaud, CEO of Inotrem, comments: “This licensing agreement is an important step towards expanding our TREM-1 franchise from sepsis to cardiovascular diseases and consolidating our unique intellectual property position around the TREM-1 pathway, both from a therapeutic agent and personalized medicine perspective”.
Pr Hafid Ait Oufella, team leader “Immuno-metabolic mechanism of cardiovascular diseases” at Inserm (U970), comments: “This collaboration led to the first demonstration of the implication of TREM-1 in cardiovascular diseases and opens very promising avenues for research and therapeutic development in diseases with huge unmet medical need”.
For Catherine Guillemin, President of SAYENS (ex. SATT Grand Est), who represents the interests of Université de Lorraine in the preparation of this license agreement, comments: “This license agreement has been done thanks to the close collaboration and constructive negotiation between Inserm Transfert and SAYENS, which has undoubtedly enabled an alignment of interests that will be valuable for a long-term relationship with Inotrem”.
Soluble TREM-1 has been shown to be a reliable marker of severity and outcome of patients suffering from acute myocardial infarction: high sTREM-1 levels in blood following a heart attack is associated with a three-times higher risk of recurrence of further cardiovascular events or death in the following 2 years (references 1 and 2 below).
Inotrem has recently announced promising Phase IIa results in septic shock that support the company’s approach which uses soluble TREM-1 level in blood as a potential biomarker for the identification of patients who will most likely benefit from treatment by nangibotide, Inotrem lead drug candidate. On top of these promising results in the field of septic shock, sTREM-1 may thus have a strong value as a standalone biomarker for the identification of patients at risk of secondary events following a heart attack.

About Inotrem
Inotrem S.A. is a biotechnology company specialized in for the control of acute inflammatory syndromes, such as septic shock. The company has developed a new concept of immunomodulation that targets the TREM-1 pathway to control unbalanced inflammatory responses. Through its proprietary technology platform, Inotrem has developed the first-in-class TREM-1 inhibitor, nangibotide (LR12), with applications in a number of therapeutic indications such as septic shock and myocardial infarction. In parallel, Inotrem has also launched another program to develop a new therapeutic modality targeting chronic inflammatory diseases. The company was founded in 2013 by Dr. Jean-Jacques Garaud, a former head of research and early development at the Roche Group, Prof. Sébastien Gibot and Dr. Marc Derive. Inotrem is supported by leading European investors — Sofinnova Partners, Andera Partners, Biomed Invest and Inserm Transfert Initiative.
www.inotrem.com

About sTREM-1 and TREM-1 pathway.
TREM-1 pathway is an amplification loop of the immune response that triggers an exuberant and hyperactivated immune state which is known to play a crucial role in the pathophysiology of septic shock and acute myocardial infarction. Soluble TREM-1 (sTREM-1) is a plasma circulating protein with is released upon TREM-1 activation, and is thus a marker of TREM-1 pathway activation.

About Nangibotide
Nangibotide is the formulation of the active ingredient LR12, which is a 12 amino-acid peptide prepared by chemical synthesis. LR12 is a specific TREM-1 inhibitor, acting as a decoy receptor and interfering in the binding of TREM-1 and its ligand. In preclinical septic shock models, nangibotide was able to restore appropriate inflammatory response, vascular function, and improved animals’ survival post septic shock.

References
1- Boufenzer et al, TREM-1 Mediates Inflammatory Injury and Cardiac Remodeling Following Myocardial Infarction. Circulation Research 2015 May 22.
Download at https://www.inotrem.com/wp-content/uploads/2018/09/Boufenzer_Circ-Res-2015.pdf
2- Jeremie Lemarie, Pharmacological inhibition of the triggering receptor expressed on myeloid cells-1 limits reperfusion injury in a porcine model of myocardial infarction. ESC Heart Failure 2015.
Download at: https://www.inotrem.com/wp-content/uploads/2018/09/Lemarie_2015-ESC_Heart_Failure.pdf

13/12/2018

Paris, France – December 13, 2018  – Pixium Vision (FR0011950641 – PIX), a bioelectronics company developing innovative bionic vision systems to enable patients who have lost their sight to lead more independent lives, announces today that it has been awarded the Prix Galien 2018 in the “Research Project” category for its PRIMA device for the treatment of dry Age-related Macular Degeneration (AMD).
The Galien Foundation attributes this award to Pixium Vision in recognition of the innovative technology of its PRIMA wireless sub-retinal implant, a “brain-machine” interface applied to the eye to create bionic vision in the treatment of persons with dry AMD. The PRIMA device was chosen from a selection of premier projects supported by prestigious academic institutions.
Khalid Ishaque, CEO of Pixium Vision, comments: “It is with pleasure that our entire team of scientific, engineering and medical researchers receives this prestigious award. The Galien Award attests to the very innovative nature of our PRIMA technology owing to elicit visual perception for patients with dry AMD. We are extremely honoured that the Galien Foundation recognizes PRIMA’s major technological and medical advances, which offer new possibilities in the field of bionic vision for the treatment of retinal diseases. We would like to thank the first patients in our clinical trial for their contribution in this breakthrough human endeavour, which will enable us to continue pursuit of our mission.”
“We are proud to accompany Pixium Vision in developing its breakthrough technology, today awarded the Galien Prize. We congratulate the whole team for this highly valuable scientific recognition.” stated Chahra Louafi et Maïlys Ferrère, Investment Directors at Bpifrance.
Created as a “pharmaceutical research award” in France in 1970, the prestigious Prix Galien is recognised by the French authorities for its public interest and has an international reputation. Each year, the Prix Galien recognises the best healthcare innovations in five categories: pharmaceutical products, medical systems, e-health, patient care and research. The Prix Galien is awarded by a jury comprised of 50 international experts in healthcare. Their independence, authority and reputation confirm the excellence and credibility of the Galien Prize.

Contacts
Pixium Vision
Didier Laurens, CFO
investors@pixium-vision.com
+33 1 76 21 47 68

Media Relations
Newcap Media
Annie-Florence Loyer – afloyer@newcap.fr
+33 1 44 71 00 12 / +33 6 88 20 35 59
Léa Jacquin – ljacquin@newcap.fr
+33 1 44 71 94 94
US Investor Relations
ICR
David Clair
david.clair@icrinc.com
+1 646 277 12 66

ABOUT PRIMA
PRIMA is a new generation miniaturized and totally wireless sub-retinal implant. The 2×2 millimeters wide and 30 microns thick photovoltaic chip contains 378 electrodes. Implanted under the retina via a minimally invasive surgical procedure, it acts like an array of tiny solar panel powered by pulsed near infrared light projected from a miniature projector integrated into augmented reality glasses, along with a mini-camera. PRIMA is designed to restore sight in patients blinded by retinal dystrophies – a very significant unmet medical need. The target population includes patients with atrophic dry Age-related Macular Degeneration (dry AMD), and also Retinitis Pigmentosa (RP). In addition to a clinical trial with five atrophic dry-AMD patients in France, PRIMA is approved for a similar five-patients study in USA.

ABOUT AGE-RELATED MACULAR DEGENERATION (AMD)
Age-related macular degeneration is the leading cause of severe vision loss and legal blindness in people over the age of 65 in North America and Europe. The global impact is significant with current projected estimates1 for people living with AMD of around 196 million people worldwide and expected rapid growth due to ageing population. Around 1000 new patients are diagnosed everyday just in Europe and USA. There are two forms of advanced AMD: the wet form, where treatment like anti-VEGF injections slows down the disease progression, and the dry form that is most frequent, where there is currently no curative treatment available. More than 5 million patients are afflicted with advanced dry AMD, also referred to as Geographic Atrophy. Patients suffering from this retinal dystrophy gradually lose their central vision (responsible for high visual acuity, e.g. for reading and face recognition) due to loss of photoreceptors.

ABOUT PIXIUM VISION
Pixium Vision’s mission is to create a world of bionic vision for those who have lost their sight, enabling them to regain partial visual perception and greater autonomy. Pixium Vision’s bionic vision systems are associated with a surgical intervention and a rehabilitation period. Pixium Vision is in clinical stage with PRIMA, its sub-retinal miniature photovoltaic wireless implant system, designed for patients who have lost their sight due to outer retinal degeneration, initially for atrophic dry age-related macular degeneration (dry AMD). Pixium Vision collaborates closely with academic and research partners spanning across the prestigious Vision research institutions including Stanford University in California, Institut de la Vision in Paris, Moorfields Eye Hospital in London, Institute of Ocular Microsurgery (IMO) in Barcelona, and UPMC in Pittsburgh, PA. The company is EN ISO 13485 certified and qualifies as “Entreprise Innovante” by Bpifrance.
For more information, please visit: www.pixium-vision.com;
And follow us on: @PixiumVision; www.facebook.com/pixiumvision
www.linkedin.com/company/pixium-vision

Disclaimer:
This press release may expressly or implicitly contain forward-looking statements relating to Pixium Vision and its activity. Such statements are related to known or unknown risks, uncertainties and other factors that could lead actual results, financial conditions, performance or achievements to differ materially from Vision Pixium results, financial conditions, performance or achievements expressed or implied by such forward looking statements.
Pixium Vision provides this press release as of the aforementioned date and does not commit to update forward looking statements contained herein, whether as a result of new information, future events or otherwise.
For a description of risks and uncertainties which could lead to discrepancies between actual results, financial condition, performance or achievements and those contained in the forward-looking statements, please refer to Chapter 4 “Risk Factors” of the company’s Registration Document filed with the AMF under number R16-033 on April 28, 2016 which can be found on the websites of the AMF – AMF (www.amf-france.org) and of Pixium Vision (www.pixium-vision.com).
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