Technologies of Cell Sorter On a Chip

Cell Sorter using microfluidic chip technology


Microfluidic technology

Disposable chip for sterile and contamination-free sorting

On-chip Sort performs cell analysis and cell sorting using a disposable microfluidic chip.
There are two types of microfluidic chips for sorting: 80μm x 80μm size channel chip for cells up to 60μm; and 150μm x 150μm size channel chip for large particles up to 140μm. All fluidics and reservoirs are fabricated on the disposable chip and that makes it possible to be free from contamination between samples nor contamination to the instrument.
The instrument does not have any sheath tanks. This led to the realization of this miniaturized system, and the instrument can be installed inside a standard biosafety cabinet.
The chips are fabricated in a cleanroom for spotless finish, but we also provide sterilized chips to ensure aseptic sorting condition.

Principle of our novel cell sorting technique

Pulse generation by air-over-liquid pressurization within a chip

Cells are flown through the microchannel by air pressure. Individual cells are analyzed at the laser interrogation point.
The novel sorting method involves gentle but rapid generation of liquid pulses at the sorting junction that pushes only the target cells into the collection reservoir. All the other cells would pass through the sorting junction to the waste reservoir.

Principle of sorting: Flow shift method 

Principle of sorting: Flow shift method (to generate pulse flow)

Realization of damage-free cell sorting

Damage-free sorting of cells on a microfluidic chip
On-chip’s novel sorting method (Flow shift method) eliminated many of the damaging steps involved in “jet-in-air” method used in conventional sorters. This method uses overwhelmingly small pressure. Moreover, our sorting technique does not require generation of droplets, and thus no ultrasonic waves and no electric charges. Fragile and sensitive cells like neurons, iPSCs, etc that can easily be influenced by external stress can be sorted without affecting them at all. The neurons (B) which were sorted using a conventional sorter died due to damage (diagram below). On the other hand, the neurons sorted using On-chip Sort (C) extended its dendrites, just like the control unsorted neurons (A).

Optical technology

The construction of the microfluidic channels achieves narrowing of the sample stream down to 10μm or less by hydrodynamic focusing. Cells are aligned in a line for detection of individual cells using lasers irradiated from the top of the chip. Forward scatter (FSC) and fluorescence are detected through objective lens underneath the chip. Side scattered light (SSC), on the other hand, travels through the chip material and reflected at the edge (figures below). On-chip Sort can hold maximum of three lasers from the option of: blue (488nm, primary), violet (405nm), green (561nm), and red (637nm). FSC, SSC and six fluorescence colors can be detected.

Easy maintenance and high flexibility

The chip is disposable, and thus there is absolutely no need for post-sort washing of the instrument. This also means that the users can choose the buffers for sorting. The example includes culture media, sea water, and oil. Sorting of cells do not require any complex calibrations. This makes the instrument very easy to use. All the unsorted cells can be recovered at the waste reservoir, so the sample can be resorted if necessary. Furthermore, the minimal sample volume requirement is 20μL, and thus you will not waste any of your precious samples.

PHC Corporation of North America

PHC Corporation of North America is a leader in laboratory equipment for the biopharmaceutical, life sciences, academic, healthcare and government markets. Product lines under the new PHCbi brand include the space saving and energy efficient VIP®ECO, TwinGuard®and VIP Series ultra-low temperature freezers, cryogenic and biomedical freezers, pharmacy and high performance refrigerators, cell culture CO2 and multigas incubators, portable autoclaves, cell processing work stations and Drosophila/plant growth chambers. PHC Corporation of North America is a subsidiary of PHC Holdings Corporation, Tokyo, Japan, which is a global healthcare company involved in the three core businesses of Medical Devices, Healthcare IT and Life Sciences. For more product information, please call PHC Corporation of North America at 800-858-8442