Laser Doppler Needle Probe Insertion: A Technique for Real-time Quantification of Blood Flow within the Spinal Cord in a Porcine Model
Laser Doppler Needle Probe Insertion: A Technique for Real-time Quantification of Blood Flow within the Spinal Cord in a Porcine Model
Transcript
Start by prepping an anesthetized pig in a lateral position. Flex the animal's back to expand the intervertebral spaces. Now, make a midline dorsal incision along the thoracolumbar region.
Incise the muscles around the thoracic vertebrae. Then, retract the muscles on both sides of the vertebral column to expose the spinous processes and lamina.
Now, remove the lamina - a small section of the spinal bone between the thirteenth and fourteenth thoracic vertebra. This creates a space between the vertebrae. Insert a vein catheter into this gap. This procedure punctures the spinal cord and positions the vein catheter laterally in the spine.
Remove the inlay needle of the catheter and replace it with a laser Doppler needle probe. Then, connect the probe to the laser Doppler hardware and acquisition system. This system allows the real-time evaluation of blood flow velocity in the microvessels of the spinal cord.
Start the laser Doppler machine to allow light from a monochromatic low-energy laser source to illuminate the area of interest. When light collides with moving red blood cells, there is a change in its frequency called the Doppler shift. The average Doppler frequency shift corresponds to the velocity at which the red blood cells move. This technique can help determine impaired blood flow in spinal cord injury.