Cannula Implant Guides


  • Improves Adhesion and Stability of Cannula Implants
  • Versions Compatible with Ø1.25 mm and Ø2.5 mm Cannulae
  • Lightweight Surgical Titanium Construction

OGF

Ø2.5 mm Cannula Implant Guide

OGL

Ø1.25 mm Cannula Implant Guide

Application Idea

Implant guides can be used with cannula holders for compatibility with stereotaxic guidance equipment.

Related Items


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Selection Guide
Fiber Optic Cannulae
Cannula Holders and Adapters
Cannula Implant Guides

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Cross Section Drawing of OGL with CFML22L05 Cannula (Not Included)

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Add glue via the two weep holes when affixing the ferrule within the implant guide.

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Mounting Surface of OGF Cannula Impant Guide

Features

  • Improves Adhesion and Stability During Implantation
  • Compatible with Ø1.25 mm and Ø2.5 mm Fiber Optic Cannulae with ≥5 mm Length
  • Ø3.8 mm (OGL) or Ø5.1 mm (OGF) Mounting Surface with Grooved Ring for Dental Cement
  • Lightweight Surgical Titanium Construction (≤0.11 g)
  • Weep Holes for Glue and Epoxy to Secure a Cannula
  • Compatible with Stereotaxic Cannula Holders

These Cannula Implant Guides are designed to provide guidance and stability for a fiber optic cannula during an implantation procedure. The bottom surface of each implant guide features a roughened surface and circular groove (see image to the right) that increases the surface area available to dental cement and improves adhesion to the specimen. A 1.6 mm long protrusion on the implant guide helps stabilize the guide when implanted. Each implant is constructed using lightweight surgical titanium (≤0.11 g) which can be sterilized prior to use. For convenience, the cannula guides are offered below in packs of one or five.

For best results when implanting a cannula, the OGL and OGF should be used with a cannula holder and stereotaxic guidance equipment. To affix the cannula within the implant guide, first insert the cannula into the receptacle of the implant guide. Then, add a small amount of cement or epoxy to the cannula via the two Ø0.8 mm weep holes (see image above). Finally, attach the cannula ferrule to an XCL (Ø1.25 mm ferrule) or XCF (Ø2.5 mm ferrule) cannula holder (see image above).

The OGL implant guide is compatible with our standard Ø1.25 mm cannulae (ceramic and stainless steel) and the OGF implant guide is compatible with our standard Ø2.5 mm cannulae (ceramic and stainless steel). When assembled, the effective length of the protruding fiber is reduced by 1 mm (Item # OGL) or 2 mm (Item # OGF); therefore, these implant guides cannot be used with our 2 mm long cannulae. Additionally, due to the fiber separation distance, the implant guides cannot be used with our dual-core cannulae.


Posted Comments:
Fabio Mammano  (posted 2024-03-01 17:00:34.893)
Can you please provide clear instruction on how OGL should be attached to a mouse skull using dental cement? Images of the preparation would be helpful.
cdolbashian  (posted 2024-03-15 01:57:22.0)
Thank you for reaching out to us with this inquiry Fabio. We unfortunately do not have an guide for this type of application. I have contacted you directly to inquire on further details, and perhaps find an alternate resource for you.
dlindenbach  (posted 2017-02-27 14:08:22.35)
The OGL and OGF cannula implant guides could be quite useful for me but they are fairly prohibitively expensive. I make my own fiber optic cannula using thorlabs materials because I can make a good cannula for 5 dollars instead of buying one for 60+ dollars. I need a good means of securing ceramic ferrules to the head, but I really can't be spending 15 dollars per ferrule on the implant. If you had a more affordable option, I would be all over it. Or if you have suggestions for making my own that would be very useful. For example, with metal guides, I can soulder a bit of thin wire to the cannula to make it "grip" the dental cement better. Thanks!
tfrisch  (posted 2017-03-29 04:37:26.0)
Hello, thank you for your interest in Thorlabs' products. I will reach out to you directly to discuss your application.

Optogenetics Selection Guide

Thorlabs offers a wide range of optogenetics components; the compatibility of these products in select standard configurations is discussed in detail here. Please contact Technical Support for assistance with items outside the scope of this guide, including custom fiber components for optogenetics.

 

Single-Site Stimulation

One Light Source to One Cannula Implant

The most straightforward method for in vivo light stimulation of a specimen is to use a single fiber optic with a single LED light source. The single wavelength LED is powered by an LED driver, and then the illumination output is fiber-coupled into a patch cable, which connects to the implanted cannula. See the graphics and expandable compatibility tables below for the necessary patch cables and cannulae to create this setup. To choose the appropriate LED and driver, see below or the full web presentation.

Click on Each Component for More Information

LED DriverLED DriverFiber-Coupled LEDFiber-Coupled LEDSMA to Ferrule Patch Cable with Optional Rotary JointSMA to Ferrule Patch Cable with Optional Rotary JointADAF2 InterconnectADAF2 InterconnectFiber Optic CannulaFiber Optic Cannula



 

Multilateral Stimulation

The ability to accurately and simultaneously direct light to multiple locations within a specimen is desired for many types of optogenetics experiments. For example, bilateral stimulation techniques typically target neurons in two spatially separated regions in order to induce a desired behavior. In more complex experiments involving the simultaneous inhibition and stimulation of neurons, delivering light of two different monochromatic wavelengths within close proximity enables the user to perform these experiments without implanting multiple cannulae, which can increase stress on the specimen.

Multilateral stimulation can be achieved with several different configurations depending on the application requirements. The sections below illustrate examples of different configurations using Thorlabs' optogenetics products.


Option 1: One Light Source to Two Cannula Implants Using Rotary Joint Splitter

Thorlabs' RJ2 1x2 Rotary Joint Splitter is designed for optogenetics applications and is used to split light from a single input evenly between two outputs. The rotary joint interface allows connected patch cables to freely rotate, reducing the risk of fiber damage caused by a moving specimen. See the graphic and compatibility table below for the necessary cables and cannulae to create this setup. For LEDs and drivers, see below or the full web presentation.

LED DriverFiber-Coupled LEDHybrid Patch Cable1x2 Rotary Joint SplitterOG Patch CableOG Patch CableADAF2 InterconnectADAF2 InterconnectFiber Optic CannulaFiber Optic CannulaFiber Optic Cannula

Option 2: One or Two Light Sources to Two Cannula Implants

If the intent is for one LED source to connect to two cannulae for simultaneous light modulation, then a bifurcated fiber bundle can be used to split the light from the LED into each respective cannula. For dual wavelength stimulation (mixing two wavelengths in a single cannula) or a more controlled split ratio between cannula, one can use a multimode coupler to connect one or two LEDs to the cannulae. If one cable end is left unused, the spare coupler cable end may be terminated by a light trap. See the graphic and compatibility table below for the necessary cables and cannulae to create this setup. For LEDs and drivers, see below or the full web presentation.

Click on Each Component Below for More Information

LED DriverLED DriverFiber-Coupled LEDFiber-Coupled LEDPatch CabletextY-CableMating SleeveMating SleeveMating SleeveMating SleeveFiber Optic CannulaFiber Optic CannulaFiber Optic CannulaFiber Optic Cannula

LED Driver2nd LED DriverLED Driver textFiber-Coupled LED2nd Fiber-Coupled LEDFiber-Coupled LED textMultimode CouplerMultimode Coupler TextADAF2 InterconnectADAF2 Interconnect TextADAF2 InterconnectADAF2 Interconnect TextFiber Optic CannulaFiber Optic CannulaFiber Optic CannulaFiber Optic Cannula


Option 3: One Light Sources to Seven Cannula Implants

If the intent is for one LED source to connect to seven cannulae for simultaneous light modulation, then a 1-to-7 fiber bundle can be used to split the light from the LED into each respective cannula. See the graphic and compatibility table below for the necessary cables and cannulae to create this setup. For LEDs and drivers, see below or the full web presentation.

Click on Each Component Below for More Information

 LED Driver


 

Two Light Sources into One Dual-Core Cannula Implant

For bilateral stimulation applications where the two cannulas need to be placed in close proximity (within ~1 mm), Thorlabs offers dual-core patch cables and cannulae that are designed for this specific application. Each core is driven by a separate light source, enabling users to stimulate and/or supress nerve cells in the same region of the specimen. See the graphic and compatibility table below for the necessary cables and cannulae to create this setup. For LEDs and drivers, see below or the full web presentation.

LED Driver2nd LED DriverLED Driver TextFiber-Coupled LED2nd Fiber-Coupled LEDFiber-Coupled LEDsDual-Core Patch CableDual-Core Patch CableADAF2 InterconnectADAF2 InterconnectFiber Optic CannulaFiber Optic Cannula

Click on Each Component for More Information

Part Selection Table (Click Links for Item Description Popup)
Common Fiber Properties
Core Diameter 200 µm
Wavelength Range 400 - 2200 nm
NA 0.39
Fiber Type FT200EMT
Ferrule Stylea FC (Ø2.5 mm)
Dual-Core Patch Cable FC/PC Input BFY32FL1
SMA905 Input BFY32SL1
Compatible Mating Sleeve/Interconnect ADAF1
ADAF2
ADAF4-5
Dual-Core Fiber Optic Cannulaec Stainless Steel CFM32L10
CFM32L20
  • FC components have a Ø2.5 mm ferrule end.
  • Patch cables for dual light source to single implant applications are highlighted in green above. Choose a patch cable with an input that matches your light source.
  • Available cannulae are highlighted in orange of the table above. Cannule within the same column are interchangeable.

 

LED Item # Wavelengtha Typical Opsin Output Powerb Color
M385F1c 385 nm EBFP, moxBFP 10.7 mW UV
M405F1c 405 nm mmilCFP, hcriGFP 3.7 mW UV
M430F1 430 nm ChR2 7.5 mW Violet
M455F3 455 nm ChIEF, bPAC 24.5 mW Royal Blue
M505F3 505 nm ChRGR, Opto-α1AR, Opto-β2AR 11.7 mW Cyan
M530F2 530 nm C1V1, VChR1 9.6 mW Green
M565F3 565 nm Arch, VChR1-SFO 13.5 mW Lime
M595F2 595 nm ChR2-SFO, eNpHR3.0 11.5 mW Amber
M625F2 625 nm ReChR 17.5 mW Red
  • Click the link for a spectrum and raw data.
  • Typical output power measured with a Ø400 µm Core, 0.39 NA multimode fiber.
  • Precautions must be taken to prevent looking directly at the UV light and UV light protective glasses must be worn to avoid eye damage. Exposure of the skin and other body parts to UV light should be avoided.

Illumination

Fiber-Coupled LEDs and Drivers

Our fiber-coupled LEDs are ideal light sources for optogenetics applications. They feature a variety of wavelength choices and a convenient interconnection to optogenetics patch cables. Thorlabs offers fiber-coupled LEDs with nominal wavelengths ranging from 280 nm to 1050 nm. See the table to the right for the LEDs with the most popular wavelengths for optogenetics. A table of compatible LED drivers can be viewed by clicking below.

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+1 Qty Docs Part Number - Universal Price Available
OGL Support Documentation
OGLImplant Guide for Ø1.25 mm Cannula
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OGL-5Implant Guide for Ø1.25 mm Cannula, Pack of 5
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OGF Support Documentation
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OGF-5Implant Guide for Ø2.5 mm Cannula, Pack of 5
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