CMA 20 Microdialysis Probes
The CMA 20 Microdialysis Probe is designed for dialysis experiments in moving soft tissues such as muscle, heart, skin and adipose tissue, as well as in blood, vitreous fluid of the eye, etc.
- Tailored for dialysis in peripheral tissues and blood vessels
- Inlet and outlet tubing is attached
- Soft, non-metallic construction
- Available membranes: PAES, 20 kDa MWCO or PES, 100 kDa MWCO
- Membrane lengths: 4 or 10 mm
Exciting new applications in soil analysis! See Journal Articles.
The CMA 20 Microdialysis Probe is designed for dialysis experiments in moving soft tissues such as muscle, heart, skin and adipose tissue, as well as in blood, vitreous fluid of the eye, etc.
As with the other models, the probe is of concentric construction, but is made completely from plastic materials. Due to its flexibility, the probe must be implanted in the tissue with the help of a steel needle and a split tubing – the Introducer. The membrane is available in both 20,000 and 100,000 Daltons cut-off.
All CMA 20 packages are provided with 3 Introducers and 9 Split Tubing.
Specifications | CMA8010435 | CMA8010436 | CMA8309670 | CMA8309671 |
---|---|---|---|---|
Membrane Length | 4 mm | 10 mm | 4 mm | 10 mm |
Membrane O D | 0.5 mm | 0.5 mm | 0.5 mm | 0.5 mm |
Membrane Material | PAES | PAES | PES | PES |
Molecular Weight Cut-off | 20 kDA MWCO | 20 kDA MWCO | 100 kDA MWCO | 100 kDA MWCO |
Polyurethane Shaft Diameter | 0.77 mm | 0.77 mm | 0.77 mm | 0.77 mm |
Probe Length (shaft+membrane) Metric | 24 mm | 24 mm | 24 mm | 24 mm |
Intlet Internal Volume | 1.4 µL | 1.4 µL | 1.4 µL | 1.4 µL |
Outlet Internal Volume | 0.3 µL | 0.3 µL | 0.3 µL | 0.3 µL |
membrane | 3.2 µL | 2.6 µL | 3.2 µL | 2.6 µL |
200 mm Inlet tubing (blue) | 3.6 µL | 3.6 µL | 3.6 µL | 3.6 µL |
200 mm Outlet tubing (transp.) | 3.6 µL | 3.6 µL | 3.6 µL | 3.6 µL |
Lindqvist A, Rip J, van Kregten J, Gaillard PJ, Hammarlund-Udenaes M. (2015 ) In vivo Functional Evaluation of Increased Brain Delivery of the Opioid Peptide DAMGO by Glutathione-PEGylated Liposomes. Pharm Res.
Brackin R, Näsholm T, Robinson N, Guillou S, Vinall K, Lakshmanan P, Schmidt S, Inselsbacher E. (2015 ) Nitrogen fluxes at the root-soil interface show a mismatch of nitrogen fertilizer supply and sugarcane root uptake capacity Sci Rep.
Abrahamsson P, Johansson G, Åberg AM, Winsö O, Blind PJ. (2015 ) Outcome of microdialysis sampling on liver surface and parenchyma J Surg Res.