EVERYONE IS ENTITLED TO
SAFE MEDICAL TREATMENT
PREFILLED SYRINGES AND COMPONENTS
LUBRICATION FREE, COATING FREE AND SILICONE FREE (LIQUID AND BAKED-ON)
– THE WORLDS ONLY CLEAN INJECTION SYSTEM –
We are a company with a global perspective that values new ideas, passion, simplicity, entrepreneurship, team play, competence, strategic alliances and proper timing.
We care about the health of the world’s population and are committed to strong performance and high quality in everything that we do
Injecto is a pharmaceutical packaging company with focus on innovation and development of lasting solutions for the pharmaceutical industry.
OUR VISION & MISSION
Our vision is to become the world’s preferred supplier of components for clean and safe injection systems.
Our Mission is to contribute to safe pharmaceutical packaging by developing optimum solutions for the pharmaceutical industry and ultimately the patients in need.
OUR BOARD OF DIRECTORS
MD and Dr.Sc
Chairwoman of the Board
Dr. Foegh has more than 25 years’ experience in the pharmaceutical, biotechnology and drug delivery industries.
Board of Directors
Thomas Sonne-Schmidt has more than 15 years experience in M&A’s, finance and management of investments within real estate, renewable energy and venture capital.
Emil Bue Bredel
Board of Directors
Emil Bue Bredel is a business entrepreneur with an international focus, who has established various companies based on intellectual property rights.
Founder, Executive Boardmember
Mikkel Hetting is the founder of Injecto and a business entrepreneur with a substantial experience in intellectual property rights.
Strandvejen 60, 5.
Phone: +45 2785 1000
CVR/Org. No.: DK-38 72 98 88
INJECTO can deliver prefillable syringes and syringe components for ready-to-use liquid injectables
Clean injection systems...
Our components are high-precision injection moulded and can be provided for syringe solutions that are lubrication free, coating free, silicone oil free and baked-on silicone free
Feel free to contact INJECTO for more information
||This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 875949|