Precision & Reproducibility
Tight sealing and minimal edge damage—even for delicate tissues such as frog skin and curved epithelia.
Physiologic Instruments ha desarrollado una amplia selección de soportes para cultivos celulares y de tejidos que llamamos "deslizadores" porque se utilizan para "deslizar" la muestra de tejido en su lugar entre las dos mitades de la cámara EasyMount Ussing. Las características de estos controles deslizantes dependen de las características de la muestra. Para los insertos de cultivo celular, el control deslizante está diseñado como una sola pieza que crea un sello hermético entre las mitades de la cámara y con el inserto de cultivo, de modo que la monocapa celular se convierte en la barrera que separa los fluidos en cada mitad de la cámara.
Actualmente ofrecemos controles deslizantes diseñados para los cinco insertos de cultivo más populares de fabricantes como Corning-CoStar, Nunc y Millipore. Los tejidos epiteliales, por otra parte, derivan de una amplia variedad de fuentes y tienen diversas limitaciones de tamaño y forma. Por este motivo hemos diseñado deslizadores específicos para pañuelos según lo requieran nuestros clientes. Las aberturas de muchos controles deslizantes tienen forma circular y su tamaño varía desde 0,005 cm 2 (por ejemplo, intestino de Drosophila o tráquea de ratón recién nacido) hasta 1,26 cm 2 (por ejemplo, intestino bovino). Otros controles deslizantes tienen aberturas oblongas porque algunos tejidos, como el intestino del ratón, son simplemente más largos que anchos.
Los deslizadores de tejido vienen con o sin pasadores para estirar y sujetar el tejido durante el proceso de montaje. Generalmente son un control deslizante de "dos piezas" en el que el tejido forma el sello entre las mitades del control deslizante, creando un sándwich de tejido que luego se inserta entre las mitades de la cámara. Para tejidos "apretados" de alta resistencia, como la piel de rana, los controles deslizantes tienen un ligero rebaje para evitar el aplastamiento de las células epiteliales a lo largo del perímetro de la apertura para evitar daños en los bordes. Para tejidos como el epitelio o el endotelio corneal, el control deslizante está diseñado para manejar la curvatura natural de la muestra.
Explore your solution for ion transport, barrier integrity, and solute flux across epithelial tissues and cell monolayers—optimized for precise transepithelial resistance (TER) and short-circuit current (Isc) measurements.
Product | Application | Key Features |
---|---|---|
P2250 EasyMount Ussing Chamber | Rat, rabbit, guinea pig intestinal tissues | Custom slider aperture (5 × 22 mm, ~1.0 cm²); half-chamber volume 2–8 mL |
P2300 EasyMount Ussing Chamber | Cell culture inserts, animal tissues | Versatile for monolayers and tissues; half-chamber volume 2–7 mL |
P2400 Low-Volume Ussing Chamber | Drug solution assays, flux studies | Minimal reagent use (1–5 mL); ideal for expensive compounds |
Chamber Sliders & Inserts | Tissue mounting and sealing | Single- or two-piece sliders; apertures ~0.005 → 1.26 cm²; curved options for non-flat tissues |
Each Ussing chamber pairs with sliders (often called Ussing chamber sliders) to mount tissues or inserts securely and maintain leak-free seals between upper and lower halves.
Tight sealing and minimal edge damage—even for delicate tissues such as frog skin and curved epithelia.
From low-volume chambers (ideal for costly reagents) to systems for standard tissue sizes.
Circular/oblong apertures from ~0.005 to 1.26 cm²; curved variants for non-flat tissues.
Integrates with popular cell culture inserts for seamless Ussing chamber workflows.
Materials selected for frequent use, sterilization, and compatibility with electrode sets and data acquisition.
These practices help ensure robust, reproducible data in epithelial transport and barrier research.
What are Ussing chambers used for?
Answer: Ussing chambers are specialized electrophysiology tools used to study ion transport, epithelial barrier integrity, and solute flux across tissues or cell monolayers. They allow measurement of transepithelial resistance (TER) and short-circuit current (Isc) under tightly controlled conditions.
Which Ussing chamber should I choose?
Answer: Choose the Ussing chamber that matches your experimental needs: the P2250 is optimized for rat, rabbit, and guinea pig intestinal tissues, the P2300 is versatile for both cell culture inserts and animal tissues, and the P2400 is a low-volume EasyMount chamber ideal for assays involving costly reagents or tracer studies.
Do you support custom sliders and apertures?
Answer: Yes. We offer a full range of single- or two-piece sliders with circular or oblong apertures ranging from ~0.005 cm² to 1.26 cm². Curved slider variants are also available to accommodate non-flat or corrugated tissues.
Are your chambers compatible with standard inserts?
Answer: Yes. Our Ussing chamber sliders integrate seamlessly with widely used inserts such as Corning Costar Snapwell and Transwell, as well as Millipore Millicell, simplifying tissue mounting and maintaining leak-free seals.
How do Ussing chambers work?
Answer: Ussing chambers work by clamping voltage and current across epithelial tissues or cell monolayers mounted between two fluid-filled half-chambers. This allows precise measurement of transepithelial ion transport, barrier properties, and solute flux under controlled temperature, gas composition, and buffer conditions.
What does 'EasyMount' mean in your Ussing chambers?
Answer: All of our Ussing chambers are branded EasyMount, referring to their design that slides directly into a heated chamber stand with support arms and a thumb screw for secure, leak-free sealing. The EasyMount design simplifies assembly, reduces setup time, and ensures reproducible results in both standard and low-volume configurations.
Ussing Chamber Sliders & Inserts — full range of aperture sizes and geometries.
Voltage/Current Clamps — precise control for TER and Isc studies.
Acquire & Analyze — data acquisition and analysis tools.
Book a call — discuss applications and experimental design.