Applications
Neuromuscular Junction Model
3D Human Neuromuscular Junction Model
Curi Bio’s scalable, functional and quantifiable 3D human NMJ model is a high-throughput, iPSC-derived platform delivering unparalleled reproducibility for neurotoxin testing, drug discovery, and disease modeling.
Histological Characterization of NMJs
DM1 Skeletal Muscle Myoblasts
Powering Translational Research with Patient Specific Human Myoblasts and CRISPR Corrected Isogenic Control
Skeletal Muscle Models
Curi Bio's 3D Engineered Muscle Tissues (EMTs) enable in vitro models of skeletal muscle contractility and Curi Bio’s 2D skeletal muscle model utilizes microtissues built by structurally maturing human skeletal muscle cells.
Cardiac Models
Curi Bio’s 3D Engineered Heart Tissues (EHTs) enable in vitro models of cardiac muscle contractility while our 2D heart model utilizes microtissues built by structurally maturing human iPSC-derived cardiomyocytes.
Disease Models
Curi Bio has licensed and/or developed advanced human tissue models for a number of monogenic disorders, including Duchenne Muscular Dystrophy (DMD) (see our DMD case study). Additional models include:
Myotonic Dystrophy Type 1 (DM1)
Facioscapulohumeral Muscular Dystrophy (FSHD)
X-linked Myotubular Myopathy (XLMTM)
Hypertrophic & Dilated Cardiomyopathies (HCM/DCM)
and More
Contact our team to discover how Curi Bio can help accelerate your disease research and therapeutic discoveries by providing access to our pre-made disease model library, tissue models, and tissue-specific biosystems. Curi Bio is actively pursuing additional partnerships to create new disease models.
Histological analysis of 3D EMT cross sections shows distribution of myosin positive myotubes in control (WT) but not DMD tissues.
Cells & Media
Skeletal Muscle Metabolic Media
Physiologically Formulated to Drive Translational Metabolic Discovery
Reproducible Results
Physiological Relevance
Serum-Free Formulation
Designed for Metabolic Assays
iPSC-Derived Skeletal Muscle Myoblasts
Ready to Cast Isogenic Control and Duchenne Muscular Dystrophy Human Myoblasts for 3D Engineered Muscle Tissue Experiments
Enable discovery and validation of new therapeutics with Curi Bio's high fidelity DMD tissue model.
3D Cardiac Muscle Tissue Media
Promote mature cardiac phenotypes over months in culture with Curi Bio’s next-generation cell culture media for 3D cardiac models.
Generate Human Relevant Functional Cardiac Data
Physiological Metabolism
Stronger Tissues
Improved Kinetics
Curi Bio’s Cardiac Muscle Tissue Media
Isogenic MYBPC3 Hypertrophic Cardiomyopathy Model
Cryopreserved, Assay-Ready Cardiomyocytes for Advanced Cardiac Disease Research
With the MYBPC3e6 Isogenic Pair, you gain:
Genetic Fidelity
Physiological Relevance
Translational Power
Celogics
Celo.Cardiomyocytes
Highly Pure and Reproducible iPSC-derived Cardiomyocytes for 2D and 3D Applications
Unlock the Potential of Cardiac Research with High Quality iPSC-Derived Cardiomyocytes
Celogics Celo.Cardiomyocytes are Suitable for 2D and 3D Formats and Have Been Used in Numerous Discovery and Safety Applications