Difference between revisions of "OvalDrive36 and OvalDrive18-ES"

From UCLA Miniscope
Jump to: navigation, search
(TASK 2: BUILD AND INSTALL THE GUIDE TUBE BUNDLES)
(TASK 5: BUILD AND INSTALL PROBE SHUTTLES)
 
(8 intermediate revisions by the same user not shown)
Line 1: Line 1:
 +
[[File:OvalDrive.JPG|thumb|300px]]
 +
 +
[[File:Escope_web.JPG|thumb|300px]]
 +
 
OvalDrive36 is a chronically implantable microdrive for rat neurophysiology experiments. Up to 36 individually movable probes (including single-unit recording electrodes, cyclic voltammetry probes, optical fibers, or fluid injection cannulae) can be targeted at multiple sites throughout the entire extent of the rat brain. With the Ovaldrive18-ES configuration, up to 18 individually moveable probes can be implanted alongside the UCLA miniscope for simultaneous electrophysiological recording and calcium imaging. A shuttle-in-groove design assures micrometer stability of probe tips over days or weeks during long-term recording experiments. OvalDrive36 is well suited for experiments employing convergent methods of electrophysiology, optogenetics, fast-scan cyclic voltammetry, and intracranial infusions of drugs or viral vectors.  
 
OvalDrive36 is a chronically implantable microdrive for rat neurophysiology experiments. Up to 36 individually movable probes (including single-unit recording electrodes, cyclic voltammetry probes, optical fibers, or fluid injection cannulae) can be targeted at multiple sites throughout the entire extent of the rat brain. With the Ovaldrive18-ES configuration, up to 18 individually moveable probes can be implanted alongside the UCLA miniscope for simultaneous electrophysiological recording and calcium imaging. A shuttle-in-groove design assures micrometer stability of probe tips over days or weeks during long-term recording experiments. OvalDrive36 is well suited for experiments employing convergent methods of electrophysiology, optogenetics, fast-scan cyclic voltammetry, and intracranial infusions of drugs or viral vectors.  
  
Line 6: Line 10:
  
  
[[File:OvalDrive.JPG|thumb|300px]]
 
  
[[File:Escope_web.JPG|thumb|300px]]
 
  
 
<br clear=all>
 
<br clear=all>
Line 15: Line 17:
 
= TASK 1: DESIGN AND PRINT THE TARGETING CONE =
 
= TASK 1: DESIGN AND PRINT THE TARGETING CONE =
  
1) Download a SolidWorksTM targeting cone template file
+
[[File:targeting_cone.JPG|thumb|300px]]
 +
 
 +
1) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/36634628/Targeting+Cone+Files Download a SolidWorksTM targeting cone template file]
 +
 
 +
2) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/32931847/Design+your+targeting+cone Design your targeting cone using SolidWorksTM]
  
2) Design your targeting cone using SolidWorksTM
+
3) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/38010883/3D+Printing+Instructions+for+the+Targeting+Cone Fabricate the targeting cone on a 3D printer]
  
3) Fabricate the targeting cone on a 3D printer
 
  
[[File:targeting_cone.JPG|thumb|300px]]
 
  
 
<br clear=all>
 
<br clear=all>
Line 27: Line 31:
 
= TASK 2: BUILD AND INSTALL THE GUIDE TUBE BUNDLES =
 
= TASK 2: BUILD AND INSTALL THE GUIDE TUBE BUNDLES =
  
1) Cut and store the guide tubes
+
[[File:bundles_installed.JPG|thumb|300px]]
 +
 
 +
1) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/28082180/Cut+and+store+the+guide+tubes Cut and store the guide tubes]
 +
 
 +
2) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/33718299/Cut+and+store+the+bundle+collars Cut and store the bundle collars]
  
2) Cut and store the bundle collars
+
3) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/29982730/Assemble+the+guide+tube+bundles Assemble the guide tube bundles]
  
3) Assemble the guide tube bundles
+
4) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/34177029/Construct+the+sighting+pin Construct the sighting pin]
  
4) Construct the sighting pin
+
5) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/36012034/Install+the+guide+tube+bundles Install the guide tube bundles]
  
5) Install the guide tube bundles
+
6) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/40501250/Check+alignment+of+the+guide+tubes Check alignment of the guide tubes]
  
6) Check alignment of the guide tubes
 
  
[[File:bundles_installed.JPG|thumb|300px]]
 
  
 
<br clear=all>
 
<br clear=all>
Line 45: Line 51:
 
= TASK 3: PRINT AND PREPARE THE DRIVE CORE =
 
= TASK 3: PRINT AND PREPARE THE DRIVE CORE =
  
1) Download a SolidWorksTM drive core file
+
[[File:drivecore.JPG|thumb|300px]].
 +
 
 +
1) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/80052226/Drive+Core+Files Download a SolidWorksTM drive core file]
  
 
2) Fabricate the drive core on a 3D printer
 
2) Fabricate the drive core on a 3D printer
Line 51: Line 59:
 
3) Cut and store the guide tube sleeves
 
3) Cut and store the guide tube sleeves
  
4) Prepare the Drive Core
+
4) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/38010889/Prepare+the+Drive+Core Prepare the Drive Core]
 +
 
 +
 
 +
 
 +
<br clear=all>
  
 
= TASK 4: MATE THE TARGETING CONE TO THE DRIVE CORE =
 
= TASK 4: MATE THE TARGETING CONE TO THE DRIVE CORE =
Line 65: Line 77:
 
= TASK 5: BUILD AND INSTALL PROBE SHUTTLES =
 
= TASK 5: BUILD AND INSTALL PROBE SHUTTLES =
  
1) Download a SolidWorksTM shuttle brick loaf file
+
[[File:shuttles.JPG|thumb|300px]]
2) Cut bricks from the loaf
+
 
 +
1) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/82378758/Shuttle+brick+loaf Download a SolidWorksTM shuttle brick loaf file]
 +
2) [https://open-ephys.atlassian.net/wiki/spaces/OEW/pages/82378762/Cut+bricks+from+the+loaf Cut bricks from the loaf]
 
3) OvalDrive36 can hold up to 36 individually moveable probe shuttles of the different types. If your drive uses more than one type of probe, then you should construct and install them in the following order:
 
3) OvalDrive36 can hold up to 36 individually moveable probe shuttles of the different types. If your drive uses more than one type of probe, then you should construct and install them in the following order:
      - Carbon fiber shuttle (for cyclic voltammetry)
+
* Carbon fiber shuttle (for cyclic voltammetry)
 +
 
 +
* Fluid cannula shuttle (for intracranial infusions)
 +
 
 +
* Optical fiber shuttle (for optogenetic stimulation)
  
      - Fluid cannula shuttle (for intracranial infusions)
+
* Electrode shuttle (for field potential or single unit recording)
  
      - Optical fiber shuttle (for optogenetic stimulation)
+
* Ground and reference wires
  
      - Electrode shuttle (for field potential or single unit recording)
 
  
      - Ground and reference wires
+
 
 +
<br clear=all>
  
 
= TASK 6: SURGICALLY IMPLANT THE DRIVE =
 
= TASK 6: SURGICALLY IMPLANT THE DRIVE =

Latest revision as of 12:18, 31 October 2018

OvalDrive.JPG
Escope web.JPG

OvalDrive36 is a chronically implantable microdrive for rat neurophysiology experiments. Up to 36 individually movable probes (including single-unit recording electrodes, cyclic voltammetry probes, optical fibers, or fluid injection cannulae) can be targeted at multiple sites throughout the entire extent of the rat brain. With the Ovaldrive18-ES configuration, up to 18 individually moveable probes can be implanted alongside the UCLA miniscope for simultaneous electrophysiological recording and calcium imaging. A shuttle-in-groove design assures micrometer stability of probe tips over days or weeks during long-term recording experiments. OvalDrive36 is well suited for experiments employing convergent methods of electrophysiology, optogenetics, fast-scan cyclic voltammetry, and intracranial infusions of drugs or viral vectors.

  • NEW!!!!! OvalDrive18-ES holds 18 driveable probes + UCLA miniscope
  • for information about obtaining drives and parts contact blairlab@gmail.com with subject heading 'OvalDrive36' or 'OvalDrive18-ES'
  • developed at UCLA by Hugh (Tad) Blair, Rose M. DeGuzman, Andrew Howe, & Garrett Blair





TASK 1: DESIGN AND PRINT THE TARGETING CONE

Targeting cone.JPG

1) Download a SolidWorksTM targeting cone template file

2) Design your targeting cone using SolidWorksTM

3) Fabricate the targeting cone on a 3D printer



TASK 2: BUILD AND INSTALL THE GUIDE TUBE BUNDLES

Bundles installed.JPG

1) Cut and store the guide tubes

2) Cut and store the bundle collars

3) Assemble the guide tube bundles

4) Construct the sighting pin

5) Install the guide tube bundles

6) Check alignment of the guide tubes



TASK 3: PRINT AND PREPARE THE DRIVE CORE

Drivecore.JPG
.

1) Download a SolidWorksTM drive core file

2) Fabricate the drive core on a 3D printer

3) Cut and store the guide tube sleeves

4) Prepare the Drive Core



TASK 4: MATE THE TARGETING CONE TO THE DRIVE CORE

1) Map each guide tube to a shuttle bay

2) Thread guide tubes into probe collars

3) Bolt the targeting cone to the drive core

3) Break off excess guide tube lengths

TASK 5: BUILD AND INSTALL PROBE SHUTTLES

Shuttles.JPG

1) Download a SolidWorksTM shuttle brick loaf file 2) Cut bricks from the loaf 3) OvalDrive36 can hold up to 36 individually moveable probe shuttles of the different types. If your drive uses more than one type of probe, then you should construct and install them in the following order:

  • Carbon fiber shuttle (for cyclic voltammetry)
  • Fluid cannula shuttle (for intracranial infusions)
  • Optical fiber shuttle (for optogenetic stimulation)
  • Electrode shuttle (for field potential or single unit recording)
  • Ground and reference wires



TASK 6: SURGICALLY IMPLANT THE DRIVE