Microlyzer 1200 Micron Blade (BLD1200)
The Latest breakthrough in Non Enzymatic SVF and Fat Grafting. Special Blade Filters, specifically designed for a safe and effective processing of the adipose tissue. Patented Non Enzymatic SVF isolation device. The optimum and innovative solution for Microfat/Nanofat transfer and NEXT SVF Protocols.
- NON-Enzymatic SVF Isolation
- Microfat & Nanofat Graft
- 4-8 million/mL. Nucleated Cells
- %90 more than Cell Viability
- Ex Tax: €30.00
- Brands T-Lab
- Product Code: BLD1200
- Availability: In Stock
The Latest breakthrough in Non Enzymatic SVF and Fat Grafting. Special Blade Filters, specifically designed for a safe and effective processing of the adipose tissue.
What is Microlyzer?
Microlyzer is a medical device which offers an option of obtaining the “Microfat & Nanofat” for fat transfer procedures and also more importantly, the “Non-enzymatic Stromal Vascular Fraction”. Microlyzer is designated as a blade-filter and a cartridge formation which is aimed to be used with fat tissue processing in order dissociate by tearing the Stromal Vascular Fraction cells off the adipose tissue.
The History Of Adipose Tissue And Regenerative Medicine & The Idea Of Microlyzer
The adipose tissue is known as one of the most important sources generically for “stem cells”. ASCs are isolated at the point of care from the lipoaspirate tissue as the stromal vascular fraction. The most common isolation method requires the use of collagenase enzyme thus adipose stem cells are able to be isolated using various techniques however some of the methods are being considered more than “minimally manipulated” by current good manufacturing practice requirements. Alternatively, mechanical isolation methods are set to demonstrate whether the possibility of isolation of ADSCs.
The design of Microlyzer offers 2-way connectors of Microlyzer catridges with luer-connectors for syringes. One side syringe with lipoaspirate is affixed and the other side there is a vacant same volume syringe is attached. The Microlyzer cartidge is a nest fort he blade-filters. The blade-filters are 2400 to 600 microns. The device requires 3 steps of cutting of lipoaspirate for mechanical separation of the cells from the ECM.
Why Non-Enzymatic Svf Option Is Important?
The standard enzymatic SVF isolation methods have been demonstrated with clinical benefits. However the enzymatic method requires longer protocol durations, higher costs and risks associated to presence of enzyme residual activities in the frame of regulation issues. Our method and device may be an alternative to enzymatic isolation methods due to the factors of regulation restaints, costs and duration of the isolation processes.
The Microlyzer protocol offers a very cost-effective option, high nucleated cell yields, very fast and by the absence of enzyme presence in the protocol; much safer and easier to use within the frame of regulation.
Along with the Microlyzer device, the whole adipose tissue is being processed through the blade-filter from one side to another. During R&D process of Microlyzer blade-filters, we evaluated the best possible design for the adipose tissue to be processed.
Microlyzer - Short Video
|MICROLYZER HONEYCOMB SHAPE FILTERS||HOLES||BLADE-EDGES|
||73 holes||438 blades|
||151 holes||936 blades|
|600 microns||559 holes||3354 blades|
|BLADE-FILTER SIZE (PROCESSED MICROFAT / NANOFAT)||INJECTABLE CAPABILITY (GAUGE)|
||Up to 18 G|
||Up to 21 G|
||Up to 30 G|
|Blade-Filter Size (Processed Microfat/Nanofat)|
|1200 Microns||Up to 21 G|
|2400 Microns||Up to 18 G|
|600 Microns||Up to 30 G|
|Microlyzer Honeycomb Shape Filters|
|1200 Microns||151 Holes - 936 Blades|
|2400 Microns||73 Holes - 438 Blades|
|600 Microns||559 Holes - 3354 Blades|