Spines (branched structure)

Refers to the class(es) used in Neurolucida to mark the spines.

[Quantity of spines on the segment]/[Length of the segment]

Each tree selected for the analysis is assigned a unique number starting at 1.

Uses the centrifugal branch order. About branch orders

Refers to the class(es) used in Neurolucida to mark the spines.

Shortest path distance from the center of the spine head to the center of the dendrite.

Shortest path distance from the center of the spine head to the surface of the dendrite.

To determine the radius of the dendrite, subtract Length to Center and Length values.

Diameter of the spine head.

Sum of the lengths of the branch segments from the base of the spine to the beginning of the tree the spine is attached to.

Modeled as a frustum for manually-placed spines; based on the mesh for detected spines.

Modeled as a frustum for manually-placed spines; based on the mesh for detected spines.

Auto: Refers to the type automatically assigned when you use Classify all.

Manual: Refers to the type you assigned via the Edit Spines panel.

Refers to the radius of the dendrite at the point where the spine attaches.

This radius is calculated with the assumption that the dendrite is modeled as having an elliptical cross section.

For a spine with a length L and an anchor radius AR, the maximum distance to the center line is: L + AR.

no: The spine head is connected by a neck that is too dim to be identified by the image segmentation used to extract the spine shape. As a result, the spine head appears disconnected from the dendrite. To detect such a spine, you may increase the detector sensitivity and manually re-detect the spine to allow the neck to be modeled.

3D coordinate of the point where the spine is attached to the dendrite.

Uses the centrifugal branch order.

Apparent (that is, not corrected for residual axial smear) cross-sectional area of the base of the spine (area of the dendritic model covered by the spine).

N/A: Spine is too small to determine contact area.

Note that when there is no correction for residual axial smear, objects typically appear elongated along the optical axis because the microscope's axial resolution is much lower than its lateral resolution.

Sum of the lengths of the branch segments from the base of the spine to the beginning of the tree the spine is attached to.

The exM neck diameter is the average of the Rayburst diameters from the center of all layers below the spine head.

The top of the neck is one radius from the center of the head.

Based on Rayburst diameters calculated in the XY plane after the automatic detection process.

Shortest distance from the center of the head layer diameter to the surface of the dendrite.

Shortest distance from the center of the head layer diameter to the center of the dendrite.

3D coordinates of the center of the head of the spine measured in microns from the reference point.

Based on Rayburst diameters calculated in the XY plane after the automatic detection process.

Shortest distance from the center of the neck layer diameter to the surface of the dendrite.

Shortest distance from the center of the neck layer diameter to the center of the dendrite.

Refers to the radius of the spine attachment vector with respect to the optical plane.

• Zero means that the spine axis is parallel to the optical plane.
• 90 (+/-) means that the axis is perpendicular to the optical plane.

This is useful for discriminating between spines that are clearly visible on the side of the dendrite and spines that are detected over or under the dendritic segment when viewed in the direction of the optical axis.

Refers to the classification used in Neurolucida 360 to mark the spines.

Apparent (that is, not corrected for residual axial smear) exterior surface area of the spine in µ².

N/A: Spine is too small to determine surface area or spine was not detected in 3D.

Note that when there is no correction for residual axial smear, objects typically appear elongated along the optical axis because the microscope's axial resolution is much lower than its lateral resolution.

Shortest distance from the furthest identified voxel to the surface of the dendrite.

To determine the radius of the dendrite, subtract Total extent from Total extent to center.

Each tree selected for the analysis is assigned a unique number starting at 1.

Measured by the number of voxels that make up the spine object multiplied by the volume of a single voxel.

The volume of a single voxel is: X resolution * Y resolution * Z resolution.

Auto: Refers to the type automatically assigned when you use Classify all.

Manual: Refers to the type you assigned via the Edit Spines panel.

Refers to the radius of the dendrite at the point where the spine attaches.

This radius is calculated with the assumption that the dendrite is modeled as having an elliptical cross section.

For a spine with a length L and an anchor radius AR, the maximum distance to the center line is: L + AR.

no: The spine head is connected by a neck that is too dim to be identified by the image segmentation used to extract the spine shape. As a result, the spine head appears disconnected from the dendrite. To detect such a spine, you may increase the detector sensitivity and manually re-detect the spine to allow the neck to be modeled.

3D coordinate of the point where the spine is attached to the dendrite.

Uses the centrifugal branch order.

Apparent (that is, not corrected for residual axial smear) cross-sectional area of the base of the spine (area of the dendritic model covered by the spine).

N/A: Spine is too small to determine contact area.

Note that when there is no correction for residual axial smear, objects typically appear elongated along the optical axis because the microscope's axial resolution is much lower than its lateral resolution.

Sum of the lengths of the branch segments from the base of the spine to the beginning of the tree the spine is attached to.

The exM neck diameter is the average of the Rayburst diameters from the center of all layers below the spine head.

The top of the neck is one radius from the center of the head.

Based on Rayburst diameters calculated in the XY plane after the automatic detection process.

Head backbone length = [1] +[2] + [3] - [anchor radius]

Head backbone length to center = [1] +[2] + [3]

3D coordinates of the center of the head of the spine measured in microns from the reference point.

Neck backbone length = [1] +[2] + [3] - [head radius] -[anchor radius]

Neck backbone to center = [1] +[2] + [3] - [head radius]

Based on Rayburst diameters calculated in the XY plane after the automatic detection process.

Refers to the radius of the spine attachment vector with respect to the optical plane.

• Zero means that the spine axis is parallel to the optical plane.
• 90 (+/-) means that the axis is perpendicular to the optical plane.

This is useful for discriminating between spines that are clearly visible on the side of the dendrite and spines that are detected over or under the dendritic segment when viewed in the direction of the optical axis.

Refers to the classification used in Neurolucida 360 to mark the spines.

Apparent (that is, not corrected for residual axial smear) exterior surface area of the spine in µ².

N/A: Spine is too small to determine surface area or spine was not detected in 3D.

Note that when there is no correction for residual axial smear, objects typically appear elongated along the optical axis because the microscope's axial resolution is much lower than its lateral resolution.

Each tree selected for the analysis is assigned a unique number starting at 1.

Measured by the number of voxels that make up the spine object multiplied by the volume of a single voxel.

The volume of a single voxel is: X resolution * Y resolution * Z resolution.