P2404 EasyMount Slider
The P2404 EasyMount Low Volume Slider is engineered for use with the Low Volume EasyMount Chamber Model P2400, designed to support small tissue specimens, such as mouse intestine, in transport and permeability studies. Featuring an aperture of 2.8 x 9.2 mm (0.25 cm² area) and incorporating eight stainless steel mounting pins, the P2404 slider provides secure, stable positioning for delicate tissues, preserving specimen integrity and alignment. Its low-volume design allows experiments with reduced solution requirements, enhancing precision in physiological measurements. This slider is an essential tool for researchers seeking reliable and reproducible data on barrier function and transport properties in Ussing chamber systems, particularly within small animal models.
⦿ To be used with P2400 EasyMount Low-Volume Chambers- Regular price
- $208.00
- Regular price
-
- Sale price
- $208.00
- Unit price
- per
Product Description
P2404 EasyMount Low Volume Slider for Mouse Intestine
APETURE SIZE: 2.8x9.2MM | Area = 0.25 cm2
The P2404 EasyMount Low Volume Slider is specifically designed for the Low Volume EasyMount Chamber Model P2400, offering an ideal solution for mounting small tissue specimens such as mouse intestine. With an aperture size of 2.8 x 9.2 mm and an effective area of 0.25 cm², the P2404 slider accommodates precise studies on transport, permeability, and barrier function in smaller tissues. Its low-volume design enables experiments with minimal solution requirements, helping to preserve sample integrity while creating a controlled environment for accurate physiological measurements.
Equipped with eight stainless steel mounting pins, the P2404 slider provides exceptional stability and alignment for delicate tissues, ensuring that specimens remain securely positioned and free from distortion throughout the experiment. This reliable mounting feature supports reproducible data collection in Ussing chamber systems, making the P2404 EasyMount Low Volume Slider an invaluable tool for researchers studying transport and barrier properties in small animal models. Its robust construction and precise design make it highly suitable for obtaining high-quality data in detailed physiological and pharmacological investigations.