The FCS2® System is a closed system, parallel plate flow cell environmental chamber used on a microscope to enable the acquisition of high resolution, time-lapse images of cells undergoing either natural growth or fluidic exposure to variant factors. The FCS2® System is designed to be used on any inverted microscope as the FCS3® System is specifically for upright microscopes. Both systems enable the user to define precise and unlimited flow characteristics within the chamber to suit their protocols. Bioptechs’ patented thermal design provides uniform temperature control across the entire field. This is a feature that is not possible with a peripheral only heated chambers.
What is it?
The Focht Chamber System 2 (FCS2®) is a closed system, live-cell micro-observation chamber that utilized several patented technologies that offer several exclusive advantages over other chambers. In addition to its uniform temperature control and user definable perfusion capability, it is fully compatible with all modes of microscopy. It is also the only chamber to combine high-volume laminar flow perfusion rates with Koehler illumination and precise temperature control without the need for an air curtain. This is accomplished by the development of micro aqueduct perfusion. A method of introducing media into a fluid optical cavity where the separation of optical surfaces and flow geometry is definable by the user. Therefore, the chamber is adaptable to the protocol instead of having to adapt the protocol to the chamber.
The FCS2 is a flow cell or flow chamber that is designed specifically for the demands of today’s live-cell imaging requirements. It has limitless flow characteristics because its flow geometry can easily be customized by the user. It provides the ability to configure the optical cavity to produce control shear forces, flow characteristics, high or low volume exchange rates, near laminar flow, and anything in between. The most important feature of the FCS2, other than unequalled temperature uniformity, is that the is flow of media is constrained to a precise location over the cells. Open dish type chambers do not provide the flow capabilities of the FCS2. The FCS2 provides unmatched, uniform temperature control, in a user configurable, perfusable, optical imaging cavity.
FCS2 users enjoy the following characteristics:
- Easy no tools needed assembly
- Compatibility with all modes of microscopy
- Complete control of the volume within the optical cavity
- Complete control of the separation between optical surfaces
- Complete control of the shape or profile of the flow channel
- Complete control of the temperature uniformly across the entire field
- Compatible with inverted microscopes
How does it work?
Cells are grown on a 40mm glass coverslip. This coverslip is then incorporated into a perfusable fluid optical cavity that is compatible with all modes of microscopy, and its geometry can be easily defined by the user. This optical cavity is secured into a fixture on the stage of the microscope where it can be perfused with media or remain static. Media that comes into one of the ports on the side of the chamber, emerges in a fluid optical path where the media is precisely directed over the cells. The media is collected within the optical cavity and directed out of the chamber on the other side. The flow characteristics of the media while in the optical cavity are easily modified by selecting gaskets of varying geometry that direct the flow. Temperature control is maintained by both peripheral thermal support from the chamber’s metal frame and heat that is emitted from an electrically conductive optically transparent coating on the "window" of the optical cavity. This technique provides uniform temperature control across the entire field, thus eliminating the temperature gradient that occurs with other designs. This technique also enables the FCS2 to recover from perfusion induced temperature fluctuations in just seconds.
Temperature Control:
The FCS2 was designed to maintain accurate thermal control and allow high-volume laminar flow perfusion. Both of these functions are incorporated into our patented Microaqueduct Slide (see drawing below). The surface of the slide, opposite the specimen side, is coated with an electrically conductive transparent thin film of Indium-Tin Oxide (ITO) and two electrical contacts (busbars). When the FCS2 is completely assembled two electrical contacts, (not shown in drawing), which are contained in the electrical enclosure rest on the busbars. A temperature controller is used to pass a regulated current flow through the ITO Coating. This causes the surface of the slide to heat. The heat is transferred through the perfusable media to the cell surface on the coverslip thereby providing first surface thermal control. The self-locking base of the chamber is also temperature regulated to provide peripheral heat as well.
FCS2 Chamber Features
- Closed system so that bicarbonate CO2 or organic buffers can be employed
- Compatible with 1/16" tubing for perfusion (C-Flex, Tygon, etc.)
- Easily assembled with ordinary skill (no tools required)
- Stand-alone temperature controller with an alarm circuit to safeguard your cells
- Near laminar flow
FCS2 Starter Set includes:
- FCS2 Chamber
- Controller
- 5 Micro aqueduct Slides
- 100 #1.5 – 40mm German Desag263 Coverslips
- 30 piece Gasket Set