TChipD4-0-3mm-Z300 Permeability Chip
THIS IS A NOVEL DESIGN FOR CLASSICAL OVERLAPPING CHANNEL DEVICE WITH MEMBRANE IN THE MIDST OF CHANNELS FOR APPLICATIONS FOR STARTERS OF TISSUE/ORGAN-ON-A-CHIP APPLICATIONS. THE MIDDLE LARGER AREA IS FOR TISSUE CULTURING.
ALL PRICES ARE WITHOUT VAT AND THE SHIPPING COSTS CAN BE SEEN AT THE SHOPPING CART AFTER PROVIDING SHIPPING ADDRESS.
Microfluidics is beneficial for saving reagent consumption. Tissue or organ-on-a-chip is a type of application of microfluidics technology for mimicking organism tissue sections for mainly pharmaceutical testing applications. Tissue-on-chips are engineered microsystems to be worked as organs like skin, liver or brain. Metabolism, physical structure and functional modeling is the primary issue.
Ultimately, this new technology aims to make pharmaceutical development, especially toxicology and efficacy screening, more reliable, because the tissue chips may provide researchers with insights into predicting more accurately how effective potential pharmaceuticals would be in humans.
It is also very promising for 3Rs (Reduction, Refinement, Replacement) for animal use in research experiments.
It is not only for representing human organ/tissues during the pharmaceutical development process but also various areas of research given below
--- Life Sciences: molecular biology analysis of tissues slices, the 3d culture of primary tissues, cell invasion and motility analysis in tissue-like structures
--- Pharmaceutical Sciences: Pharmaceutical toxicology and efficacy studies, understanding the metabolism of pharmaceuticals, pharmaceutical permeability between different tissue interactions
--- Biotechnology: complete organism mimicking
--- Diagnostic tech: metabolized pharmaceutical diagnosis
--- Others: testing of new molecules of cosmetics products, food additives, agrochemicals, etc on emulating tissue chips
|Number of devices per chip||1 device|
|Material||PDMS bonded on PDMS. Please also check the "Our Trip to PDMS Chips" blog post.|
|Bonding technique||Oxygen plasma treatment|
|XY Size of total chip||30x30 mm2 of a chip|
|Z Height of PDMS chip||3.0 - 6.0 mm|
|XY Size of active sites||on the middle: the diameter is 3.0 mm
on port channels: X width is 1.5 mm and Y length is min 15 mm
|Z Height of microchannels||300 micrometer|
|The Membrane in between||PET membrane Pore 1.0um|
|Ports on top/edge||on Top|
|Number of ports||
4 ports per device
2 for upper channel and 2 for lower channel
|Pitch btw ports and edge-to-port||3 mm and 3.5 mm|
|Size / Shape of ports||2 mm / Circle|
|Suitable connector outer diameter||2.0 - 2.5 mm|
|The layout of Active ports||To Be Developed|
|Pumping/Actuation||Flow and mixing of the liquids inside microchannels require low-pulsation flow.
Some high-quality syringe pumps and pressure pumps work well.
Peristaltic and piezoelectric pumps may also be suitable but mind the possible relatively high pulsation.
|Fittings||All fittings in ufluidic.com are suitable with this chip. Any other connectors compatible with pitch and port size is also applicable. Reactive compatibility of the fittings is also important to be considered.|
|Chemicals||Depends on the application of the researcher.|
|Visualization||Epi-Fluorescent Microscopy is widely used together with microfluidic chips.
Other analysis techniques should be determined by user researchers for the experiments where optical changes inside chips do not occur.
These are some highly sited articles from literature. The chip designs are not identical but working is the same in principle.
|Kullanım Kılavuzu||Yakında eklenecektir|
|Nasıl Kullanılır - Multimedya||Yakında eklenecektir|
|Uygulama Örnekleri - Multimedya||Yakında eklenecektir|