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MCS

MCS

MOM Computer System and Software


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Overview

MCS

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MCS DataSheet
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Features

  • Large-scale, high-resolution, deep-tissue mapping
  • Multispectral, high-speed, functional optical imaging
  • Photostimulation while imaging through the same optical pathway ("photostimaging")
  • Two-photon microscopy and concurrent electrophysiology with computer-controlled placement of electrodes by Sutter micromanipulators

The MOM Computer System (MCS) includes the software package MScan. This program has been designed to seamlessly control two-photon imaging using conventional or resonant scanners while incorporating photostimulation and electrophysiology. While designed exclusively for use with the MOM microscope, it is also compatible with other two-photon platforms. MCS2.0 is designed to take on complex experiments in deep-tissue intravital imaging. Its intuitive user interface is easy to use. The MCS package and the MOM together form a formidable tool to understand the most complex issues in neuroscience, immunology or oncology. Importantly, you will find in MCS the same standard of technical excellence that is the hallmark of all Sutter Instruments products.

The MScan software has been developed to simplify the many tasks inherent in complicated imaging experiments. MScan is extensively multithreaded to take advantage of multicore processors. The newest release, MScan2.0 supports resonant or conventional scanning. MScan is multiuser based to facilitate sharing of a MOM microscope with MCS among experimenters. Experimenters can then send their data to other workstations for analysis. The MCS analysis program MView is available for free download on the Sutter Instrument website.

MCS includes a windows 7 workstation, National Instruments data acquisition boards, a firewire CCD camera and a USB controlled MPC-200. The National Instruments boards included are a PCI-6110 board for imaging, a PCIe-6353 board for control of imaging and photostimulation laser power and a PCIe-6321 board for electrophysiology. The package is a turnkey system as all data acquisition boards and software come installed within the workstation.

An important feature in MScan is the ability to do bidirectional frame scanning with sub-pixel line offset adjustment. Conventional two-photon frame scanning has involved unidirectional scanning. In these scenarios, data is only recorded when sweeping in one direction across the sample. To increase the rate of data acquisition, it is then necessary to steer the laser beam back to the origin of the scan as quickly as possible to begin the subsequent line. As galvanometric scanners are most taxed and most likely to be damaged during these high-frequency movements, bidirectional scanning both increases the speed at which frames can be recorded and decreases the likelihood of damage to expensive galvanometers.

Technical Information

IMAGING MODES
  • XY movie - Real-time continuous zoom and rotation, 1° increment
  • XZ movie - Requires Z-piezo nanopositioner
  • Timelapse
  • Stack - Synchronized Z focus and power modulation (linear or exponential)
    On-line averaging
  • Fast stack - Fast XYZT time series when used with Z-piezo nanopositioners
    Synchronized Z focus and power modulation (linear or exponential)
  • Line scan - User-drawn trajectory with arbitrary orientation and position
  • Region scan - User-designated collections of points, lines, rectangles, ellipses or polygons
    Unlimited number of regions
  • Photostimulation scan - User-designated collections of points, lines, rectangles, ellipses or polygons
    For each region, user can set:
    - Dwell time per pixel
    - Laser intensity
    - Duty cycle to output trains of light in the region
3-D MAP WINDOW
  • Stores multispectral frames or stacks in a 25 x 25 x 25 mm 3-D world in objective coordinates
FUNCTIONAL IMAGING
  • Real-time display of averaged intensities of regions of interest (ROIs) in scrolling plot
    - ROIs can be rectangles, ellipses or polygons
    - Unlimited number of regions
    - Automatic selection of the same region in other channels (useful for FRET)
ANALOG INPUTS
  • 8 analog channels, up to 250 kHz continuous acquisition rate
SOFTWARE STIMULATOR
  • Ideal to interface electrical or optogenetic stimulators
    - 2 analog out channels
    - 8 digital out lines
TARGETED PATCH-CLAMPING
  • Support for one Sutter Instrument micromanipulator
    Control of two more micromanipulators with additional MPC-200 controller
CELLULAR AMPLIFIER CONTROL
  • Automatic real-time scaling of inputs via telegraph gain
    Supports Axon Instruments AxoClamp 900A, Axopatch 200B and Multiclamp 700B
IMAGING FEATURES
  • 4 imaging channels with independent gains and user-adjustable pixel duration
  • Bidirectional line scan with sub-pixel line offset adjustment
  • User or TTL triggered
CONTROL OF IMAGING POWER
  • Dedicated fast analog output (sub-microsecond response time) to control laser intensity via Pockels cell allowing beam blanking on scan turnabout
POWER MEASUREMENT
  • Interfaces with an optical laser power meter for accurate, real-time measurement of laser power to the preparation
FOCUS CONTROL
  • Full XYZ control of objective placement with Sutter Instrument MPC-200
PHOTOSTIMULATION
  • Dedicated fast analog output (sub-microsecond response time) to control laser intensity via:
    - Pockels cell
PHOTOSTIMAGING
  • Photostimaging is photostimulation during imaging. Photostimaging can be enabled during an XY movie, line scan or region scan
    Photostimaging requires a photostimulation laser (i.e. an ultrafast laser coupled to a Pockels cell or an analog-controlled blue-green diode laser) sharing the imaging pathway with the imaging laser via a dichroic mirror
INTEGRATED DEVELOPMENT ENVIRONMENT
  • Rich object model to control hardware, fully compatible with ActiveX Automation
MCS DATA FILES
  • Designed with GLP (Good Laboratory Practive) compliant header, visible from Windows shell
    Contain imaging data, analog data and snapshots from CCD focusing camers
    Standar tags and custom tags, queriable Automation interface
DATA FILE MANAGEMENT
  • Semi-automatic backup of data files at the end of a session at up to two different locations (i.e. thumb drive, network disk...)
BLOGGABLE NOTEBOOK
  • Automatic log of events accessible via the built-in web browser

Specifications

TECHNICAL SPECIFICATIONS

Dimensions (subject to change)
CPU
20.5in x 8.25in x 20in | 52cm x 21cm x 51cm
Monitor
26in x 10in x 19in | 67cm x 24cm x 48cm

Weight (subject to change)
CPU
31 lbs | 14 kg
Monitor
15 lbs | 7 kg

Electrical
115/ 230 Volts
50/ 60 Hertz power line

RoHS compliant

MCS SYSTEM

Catalog Number and Description

MOM-MCS*
System includes preinstalled MCS2.0 software, Windows 7 workstation, data acquisition boards, Firewire CCD camera

* Must be used with MOM systems equipped with MOM-DAQ, MPC-200 and ROE-200


MCS COMPONENTS

Catalog Number and Description

MOM-DAQ
MOM data acquisition system (includes NI 6110E PCI board)

MPC-200-ROE
Includes MPC-200 controller and ROE-200


NOTE: The MOM-MCS communicates with the MPC-200 controller via the USB port for control of X, Y and Z movement. It is not compatible with the MP-285 controller. Please contact Sutter for more information.


Accessories

Citations

Anwar, H., & Roome, C. (2014). Dendritic diameters affect the spatial variability of intracellular calcium dynamics in computer models. Name: Frontiers in …. Retrieved from https://journal.frontiersin.org/Journal/10.3389/fncel.2014.00168/pdf

Eggermann, E., Kremer, Y., Crochet, S., & Petersen, C. (2014). Cholinergic Signals in Mouse Barrel Cortex during Active Whisker Sensing. Cell Reports. Retrieved from https://www.sciencedirect.com/science/article/pii/S2211124714009590

Letourneur, A., & Chen, V. (2014). A method for longitudinal, transcranial imaging of blood flow and remodeling of the cerebral vasculature in postnatal mice. Physiological …. Retrieved from https://physreports.physiology.org/content/2/12/e12238.abstract

Park, J., Frantz, M., Kast, R., & Chapman, K. (2014). Nogo Receptor 1 Limits Tactile Task Performance Independent of Basal Anatomical Plasticity. PloS One. Retrieved from https://dx.plos.org/10.1371/journal.pone.0112678

Paukert, M., Agarwal, A., Cha, J., & Doze, V. (2014). Norepinephrine controls astroglial responsiveness to local circuit activity. Neuron. Retrieved from https://www.sciencedirect.com/science/article/pii/S0896627314003535

Roome, C., & Kuhn, B. (2014). Chronic cranial window with access port for repeated cellular manipulations, drug application, and electrophysiology. Frontiers in Cellular Neuroscience. Retrieved from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4227473/

Seemann, K., & Kuhn, B. (2014). Multi-photon excited luminescence of magnetic FePt core-shell nanoparticles. Biomedical Optics Express. Retrieved from https://www.opticsinfobase.org/boe/fulltext.cfm?uri=boe-5-7-2446&id=294401

Suzuki, N., Tang, C., & Bekkers, J. (2014). Persistent barrage firing in cortical interneurons can be induced in vivo and may be important for the suppression of epileptiform activity. Frontiers in Cellular …. Retrieved from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3952511/

Tada, M., & Takeuchi, A. (2014). A highly sensitive fluorescent indicator dye for calcium imaging of neural activity in vitro and in vivo. European Journal of …. Retrieved from https://onlinelibrary.wiley.com/doi/10.1111/ejn.12476/full

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