Heart-Liver-Skeletal Muscle-Neuron Four-Organs-on-a-Chip Model Introduction

Creative Biolabs' heart-liver-skeletal muscle-neuron chip model combines four organ equivalents within a human-like metabolizing environment and aims at in vivo-like pharmacokinetics and pharmacodynamics. Our company provides you with a stable and powerful tool for cultivating tissues of various origins under stable extracellular conditions.

Our Heart-Liver-Skeletal Muscle-Neuron Four-organs-on-a-chip Model

We applied replica molding of polydimethylsiloxane (PDMS) to create a single 2 mm high PDMS layer containing the respective microfluidic channel system, which was permanently bonded to a glass microscope slide using low-pressure plasma oxidation. The PDMS layer consisted of two compartments for cultivating cells and three pump membranes. We also loaded additional multi-organ-on-a-chip with liver microtissues or neurospheres for comparison purposes.

Fig 1. Multi-OoC devices integrate in a single-plate format. Fig 1. Multi-OoC model comprising a microfluidic motherboard, an external peristaltic pump, and capillary connections.¹

Advantages of Our Heart-Liver-Skeletal Muscle-Neuron Four-organs-on-a-chip Model

Adjustable fluid flow and controllable tissue-to-fluid ratio.
Comprehensively maintaining various tissues.
Stable and long-term performance.
Combination of different organ systems in one media circuit.
Discriminatie toxicity profiles of two different doses.

Applications

The multi-organs-on-a-chip models have significant potential in the drug discovery process and development. The heart-liver-skeletal muscle-neuron four-organs-on-a-chip model of Creative Biolabs can be used to evaluate drug candidates at an early stage, enabling a high-content analysis of the mode of action of substances in a near-physiological cellular environment.

Evaluate potential drug candidates at an early stage of the process.
Enable a high-content analysis of the mode of action of substances in a near-physiological cellular environment.
Ensuring good absorption, distribution, metabolism, and excretion (ADME) properties.
Permanent access to the different compartments and the organ equivalents themselves enables an evaluation of pharmacokinetic and pharmacodynamics parameters.

Why Choose Us?

Creative Biolabs' heart-liver-skeletal muscle-neuron four-organs-on-a-chip model comprises an on-chip micropump, which eliminates the need for external media reservoirs and enables the chip to run at very low medium volumes, allowing for cellular interaction. It will help you in further studies elucidating the mechanism regarding co-cultivation among these four-organs-on-a-chip. View for more organ-on-a-chip models.

Related Services

As a global service provider in the field of life sciences, Creative Biolabs remains at the forefront of cutting-edge technologies, committed to delivering an array of reliable services as outlined below, tailored to meet the diverse research needs of our esteemed clients worldwide. If you are seeking further insights into our organs-on-a-chip models and the complementary assays in expediting your research initiatives, contact us for more information.

Reference

Picollet-D’hahan, N.; et al. Multiorgan-on-a-chip: a systemic approach to model and decipher inter-organ communication. Trends Biotechnol. 2021, 39(8): 788-810. Distributed under Open Access License CC BY 4.0. The original image was modified by keeping part (B) only.

Research Model

3D Biology Based Biomarker Discovery

3D Biology Based Drug Discovery and Development

3D Biology Based Toxicity Evaluation

Supporting Assays

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Research Models

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