IMPLANTEU | Innovative approaches to implantation research in health and disease

Summary
Implantation of the embryo in a receptive uterus is critical for mammalian reproduction, yet remains poorly understood. This challenge is particularly significant in human health, as up to two-thirds of human pregnancies are lost due implantation failure. In the agricultural sector, particularly in sustainable milk and meat production, understanding and improving embryo implantation is equally crucial. High peri-implantation mortality rates in livestock lead to lower efficiency, profitability, and environmental sustainability. Much remains unknown about the molecular pathways and regulatory mechanisms of embryo-endometrial interactions in humans and livestock species. For ethical and practical reasons, implantation cannot be adequately studied in vivo in human, and it remains challenging in most animal models.
IMPLANTEU is an international community of researchers whose objectives are:
1) To develop a molecular blueprint of human implantation in health and disease;
2) To improve implantation fitness for food production mammals and
3) To develop an advanced toolkit for implantation research.
IMPLANTEU provides multi-species, multi-sector and multi-model molecular and system implantation research, integrating complementary expertise in reproductive and stem cells biology, medicine, physiology, ethics and law, and cutting-edge technologies such as stem cell-based embryo models, organoids, machine learning, and organ-on-chip.
IMPLANTEU will train 13 doctoral candidates through research, innovation, secondments in academic and industrial environments, horizontal and focused courses, and interactions with stakeholders. The findings generated through IMPLANTEU will contribute to the profound understanding of the embryonic and endometrial contribution to reproductive success, innovations in infertility treatment, animal production efficiency and sustainability, tissue bioengineering, pathogen-host interaction, reproductive toxicology, and stem cell biology.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101169308
Start date: 01-10-2024
End date: 30-09-2028
Total budget - Public funding: - 3 432 420,00 Euro
Cordis data

Original description

Implantation of the embryo in a receptive uterus is critical for mammalian reproduction, yet remains poorly understood. This challenge is particularly significant in human health, as up to two-thirds of human pregnancies are lost due implantation failure. In the agricultural sector, particularly in sustainable milk and meat production, understanding and improving embryo implantation is equally crucial. High peri-implantation mortality rates in livestock lead to lower efficiency, profitability, and environmental sustainability. Much remains unknown about the molecular pathways and regulatory mechanisms of embryo-endometrial interactions in humans and livestock species. For ethical and practical reasons, implantation cannot be adequately studied in vivo in human, and it remains challenging in most animal models.
IMPLANTEU is an international community of researchers whose objectives are:
1) To develop a molecular blueprint of human implantation in health and disease;
2) To improve implantation fitness for food production mammals and
3) To develop an advanced toolkit for implantation research.
IMPLANTEU provides multi-species, multi-sector and multi-model molecular and system implantation research, integrating complementary expertise in reproductive and stem cells biology, medicine, physiology, ethics and law, and cutting-edge technologies such as stem cell-based embryo models, organoids, machine learning, and organ-on-chip.
IMPLANTEU will train 13 doctoral candidates through research, innovation, secondments in academic and industrial environments, horizontal and focused courses, and interactions with stakeholders. The findings generated through IMPLANTEU will contribute to the profound understanding of the embryonic and endometrial contribution to reproductive success, innovations in infertility treatment, animal production efficiency and sustainability, tissue bioengineering, pathogen-host interaction, reproductive toxicology, and stem cell biology.

Status

SIGNED

Call topic

HORIZON-MSCA-2023-DN-01-01

Update Date

24-12-2024
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Horizon Europe
HORIZON.1 Excellent Science
HORIZON.1.2 Marie Skłodowska-Curie Actions (MSCA)
HORIZON.1.2.0 Cross-cutting call topics
HORIZON-MSCA-2023-DN-01
HORIZON-MSCA-2023-DN-01-01 MSCA Doctoral Networks 2023