MFBS‑S10 Microfluidic Biomimetic Organoid Chip Culture System (10‑Channel),Sage-Bio_specification/price/image

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The MFBS Organoid Chip Culture System / Microfluidic Chip Culture System is a new product line developed by SAIGEE Biotech for organoid and microfluidic research.

This series provides standardized, highly automated culture chambers for organoid chips.

Combined with a supporting micro-flow drive module, it enables controllable, microlitre-level continuous-flow organoid chip culture, offering a standardized solution for in vitro organoid chip culture based on microfluidic technology.

The main unit of the MFBS system integrates temperature control, gas concentration control, and automatic loading of microfluidic chips.

When paired with the micro-flow drive module and SG-CHS stretchable chips, it supports culture of contractile organoids such as alveoli, cardiac organoids, and intestinal organoids.

The MFBS Organoid Chip Culture System standardizes the application of microfluidic and organoid chip culture.

With an integrated design and high compatibility, it provides a stable and controllable environment for organoid research.

Equipped with the SG-SSC fluid supply kit, it features a simplified gas and liquid path design that eliminates errors caused by non-standard connectors and complex tubing.

Integrated functions and automated control lower the technical barrier, improve experimental repeatability, and help researchers focus on core topics.

Depending on the model, the MFBS system supports 1 to 10 parallel culture channels.

Precise microfluidic perfusion via a dedicated micro-flow drive module, achieving stable microlitre-level continuous flow and reducing interference from operational errors.
Highly integrated control: the main unit combines temperature control, gas concentration control, and automatic chip loading, simplifying experimental setup.
Standardized connection design: compatible with the SG-SSC supply kit to eliminate non-standard connectors and unify interfaces, reducing flow fluctuations caused by tubing variations.
Convenient sterilization: the optimized closed structure of the supply kit simplifies sterilization; pre-sterilized versions are available to reduce risk and labor time.
Biomimetic culture capability: works with SG-CHS stretchable chips to simulate the physiological environment of contractile organs such as alveoli and heart.
Improved experimental reproducibility: standardized fluidic paths and protocols reduce human-induced variability.
Flexible synergy: the supporting micro-pressure module can be used either together with the system or independently.
Low technical threshold: no complex gas/liquid tubing or chip connections; no CO₂ incubator required; automated operation replaces manual assembly.
7-inch HD capacitive touchscreen, supporting full local operation.

The MFBS Organoid Chip Culture System is a standardized, automated culture platform from SAIGEE Biotech.

It integrates temperature control, gas concentration control, and automatic chip loading.

With the micro-flow drive module, it delivers precise microlitre-level perfusion.

When used with SG-SSC supply kits and SG-CHS / SG-CHR organoid chips, it supports stretchable chip culture and provides a biomimetic environment for contractile organoids.

Typical applications include (but are not limited to):

Cardiac organoid function research – simulating cardiomyocyte contraction and evaluating drug effects on rhythm.
Lung injury and repair models – simulating alveolar stretch for studies of COVID-19, pulmonary fibrosis, etc.
Intestinal organoid absorption and metabolism – simulating peristalsis and perfusion for drug and nutrient analysis.
High-throughput organoid activity screening – 1–10 parallel channels for rapid drug efficacy and toxicity evaluation.
Stem cell directed differentiation – stable microenvironment for differentiation into tissue-specific organoids.
Respiratory disease drug development – bronchial organoid models for asthma and COPD drug screening.
Organoid chip education and demonstration – standardized protocols for teaching in universities and institutes.
Food additive safety assessment – intestinal organoid models for barrier function testing.
Kidney organoid filtration research – simulating renal filtration for nephrology drug and dialysis development.

Q: What flow precision does the MFBS system achieve, and how is stability ensured?

A: The system uses a micro-flow drive module for microlitre-level continuous perfusion. The SG-SSC supply kit simplifies fluid paths and removes non-standard connectors, minimizing flow variability from tubing length or connection tightness.
Q: What core functions are integrated into the main unit, and what external equipment is not needed?

A: The main unit integrates temperature control, gas concentration control, and automatic chip loading. No external temperature/gas control system or CO₂ incubator is required.
Q: Does the system support multi-channel culture? What channel options are available?

A: Yes. Different models support 6, 8, 10, or 12 channels for high-throughput experiments such as drug screening.
Q: How does the system work with other accessories, and what are the benefits?

A: It is fully compatible with SG-SSC supply kits and SG-CHS/SG-CHR organoid chips. The SG-SSC ensures standardized fluid delivery, while SG-CHS stretchable chips enable biomimetic culture of contractile organoids.
Q: What special designs support contractile organoids (heart, alveoli)?

A: Combined with the micro-flow drive module and SG-CHS stretchable chips, the system simulates alveolar inflation/deflation and myocardial contraction for functional organoid studies.
Q: Is sterilization convenient? What methods are supported?

A: Yes. The SG-SSC supply kit has an optimized sealed structure suitable for autoclaving. Pre-sterilized kits are also available.
Q: Is the micro-pressure module flexible? How can it be used?

A: Highly flexible. It can operate together with the MFBS main unit or as a standalone unit for other experimental setups.
Q: Can users without microfluidic experience operate it easily?

A: Yes. Complex tubing and connections are eliminated; automated operation and standardized protocols greatly reduce the learning curve.
Q: How does the system improve efficiency and reliability in drug development?

A: Multi-channel high-throughput culture, precise temperature/gas control, and stable perfusion enable fast drug screening. Standardization reduces variability, ensuring consistent results across batches and users.