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Biological models 

IBEC is a leader in developing innovative biological models to study human diseases and treatment responses. These models provide a powerful toolset for researchers and industry, offering:

  • Reduced reliance on animal testing: IBEC’s models allow for earlier and more efficient disease research stages, minimizing the need for animal models.
  • Enhanced understanding of human diseases: These models closely mimic human biology, providing a more accurate representation of disease processes compared to traditional methods.
  • Development of new therapeutic strategies: The ability to effectively test potential treatments on these models accelerates drug discovery and development.

KEY MODEL TYPES

  1. In vitro models:
    • Platforms: primary cultures, cortical stem cells, cortical organoids.
    • Ex vivo implantation platform:
      • 3DEX: Mimics in utero implantation for direct imaging.
      • IMPLATFORM: Microfluidic platform for ex vivo embryo culture.
    • Cell and Tissue Models:
      • Human Plasma-Derived Protein Supplement for embryo culture and implantation.
      • Cardiac tissue models from induced pluripotent stem cells (iPSCs).
      • 3D cultured myoblasts for studying muscle formation.
      • Microencapsulated beta-cells for diabetes research.
      • 3D micro liver models for drug testing (NAFL, NAFLD, NASH).
      • Biomaterials for cell encapsulation and scaffolds (pancreatic beta cells, hepatocytes, retinal cells).
      • Epithelial dynamics, cell mechanics, tissue growth, wound healing, and cancer cell invasion.
      • Cancer cell interaction with Cancer-Associated Fibroblasts (CAFs).
  2. Organ-on-a-chip models:
    • Microfluidic platform for modeling: Heart, Skin, Vessels, Bone, Angiogenesis, Muscle, NAFL, NAFLD, NASH, and Progenitor cell recruitment.
    • Standardized approaches using patient-derived organoids for personalized cancer treatment.
    • Human skeletal muscle integrated with biosensors for studying muscle function Organoids.
  3. Organoids:
    • Available Organoids: Cortical, Kidney, Retina, Muscle, Heart, Skin, Liver, Pancreas, Intestine, Spinal Cord, Bladder cancer and colorectal cancer.
    • Studies on organoid mechanics and function (validated on kidney organoids), and genome editing.
  4. In vivo models:
    • Mouse models of Parkinson´s, Alzheimer´s diseases (male and female).
    • Development of Parkinson’s and tauopathy models using adenoviral delivery.
    • Plasmodium-infected mice for malaria studies.
    • Zebrafish model for visual function studies.