Title: Kimerly A. Powell, Ph.D.
1Quantitative Microscopy and Micro-CT
- by
- Kimerly A. Powell, Ph.D.
2Quantitative microscopy
3Objective
To determine the quantitative morphometrics
(i.e., number, size, orientation) of biological
structures (i.e., cells, cell nuclei, collagen
fibers) in an automated unbiased fashion.
4Feature Analysis Rat Tendon Collagen Fibrils
Number fibrils 247 Mean (s.d.) Area 16701.32
(791.6) nm Range Area 857.7 - 48203.3 nm Mean
(s.d.) Diameter 134.2 (57.0) nm Range Diameter
33.0 - 247.7 nm
5Mouse Alveolar Septae Width
MAT overlayed EDM
Histogram
EDM image
mean half-width 8.3 (0.03) pixels mean width
11.5 microns
6Mouse Bone Stem Cells Colony Proliferation
7Mouse Bone Stem Cells
Colony Statistics for Plating Density of 2 x 106 (n12 chambers) Colony Statistics for Plating Density of 2 x 106 (n12 chambers) Colony Statistics for Plating Density of 2 x 106 (n12 chambers)
WT KO
Number Colonies 168 (35) 82 (37)
Number Cells/colony 71 (102) 56 (133)
Size Colony (mm2) 0.214 (0.343) 0.161 (0.343)
Cell Density () 15.6 (6.7) 17.0 (8.5)
AP- Pos Staining () 32.7 (23.7) 22.8 (24.1)
8Introduction - Micro-CT Imaging
Micro-CT is a high resolution version of X-ray
tomographic imaging (resolution 10 - 100
microns). It has primarily been used to image ex
vivo bone core specimens. And more recently been
used to image various bone structures in vivo in
small animal models.
9Introduction Micro-CT Imaging
- increased scanning speed
- more efficient use of x-rays
- reduced dose
Cone-Beam Micro-CT
10CCF Micro-CT Imaging System
- 4 micron spot size X-ray
- 10-225 kV, 0.01 - 0.3 mA
- 3-field II (5, 7, 9 inch FOV)
- 2k x 2k 12-bit CCD camera
- 7 - axis positioning system
11Micro-CT Imaging Applications
- Bone trabecular morphometry
- iliac crest, calcaneous, femoral head
- Tissue engineering
- Bone density and location of new bone formation
in HA and PCL bone tissue scaffolds - In-vivo small animal imaging
- Longitudinal evaluation of callus and bone
volume in in vivo bone fracture/healing model - Mouse Phenotyping
- Morphometric analysis of skeletal structure in
metalloprotease knockout mice
12Small Animal Imaging
13Fracture Model - Image Acquisition
resolution 100 mm
Projection radiograph
Hind limbs secured in micro-CT system
14Fracture Model 3D Reconstructions
Right leg
Left leg
15Fracture Model Spatial Registration
- Segment bone global threshold
- Find outer outlines
- ICP registration
- reference prinicpal axis week 0
ROI
Red week 0 Yellow week 5
16Fracture Model - Morphometrics
17Fracture Model - Morphometrics
18Fracture Model - Results
Table 1. Normalized Bone Volume Table 1. Normalized Bone Volume Table 1. Normalized Bone Volume Table 1. Normalized Bone Volume
Weeks Post-Surgery Number Samples Mean Standard Deviation
0 18 1.00 0.00
1 18 1.13 0.04
2 18 1.22 0.08
3 16 1.21 0.09
4 16 1.20 0.10
5 14 1.24 0.07
19Fracture Model - Results
Table 2. Normalized Callus Volume Table 2. Normalized Callus Volume Table 2. Normalized Callus Volume Table 2. Normalized Callus Volume
Weeks Post-Surgery Number Samples Mean Standard Deviation
0 18 0.00 0.00
1 18 0.16 0.08
2 18 0.49 0.18
3 16 0.49 0.23
4 16 0.42 0.16
5 14 0.41 0.04
20Trabecular Architecture In vivo imaging
Trabecular morphometry Treatment therapies - PtH
Proximal tibia rat
21Mouse Phenotyping
22Mouse Phenotyping
E18.5 WT mouse
23Application Embryonic Development
E18.5 in ethanol
Alizarin red/Alcian Blue
after staining
24Application Embryonic Development
25Application Embryonic Development
26Soft Tissue Micro-CT Imaging Rat Embryo (E18)
cut plane
heart
liver
intestines
Side view
Front view
27Ex vivo Micro-CT Imaging of Mouse Skulls
2 week old Wild Type
2 week old MMP-14 KO
28Application Skull Morphometry
WT MMP14-KO
Skull Length 15.6 mm 11.5 mm
Skull Width 8.5 mm 7.3 mm
Nose Length 10.2 mm 7.4 mm
Inner canthal Distance 4.5 mm 3.8 mm
Upper Jaw (left) 9.7 mm 6.6 mm
Upper Jaw (right) 9.8 mm 6.8 mm
Lower Jaw (left) 7.3 mm 4.9 mm
Lower Jaw (right) 7.3 4.9
29Application Skull Morphometry
- Procrustes Analysis
- 3D Landmark Data
- Separates Size from Shape
3D reconstruction rat skull
30Application Skull Morphometry
M
I
S
31Application Vertebral Morphometry
- Segment bone
- Label separate objects
- Separate touching objects
- Make linear and volumetric
- measurements on separated
- objects
S1
S2
S3
Sacral spine of 2-week old WT mouse
32Application Vertebral Morphometry
S2
S2
Spinous process
verterbal foramen
articular process
transverse process
2 week old MMP-14 KO
2 week old Wild Type
33Application Vertebral Morphometry S2
WT (n4) MMP14-KO (n4)
Transverse Process 3.95 (0.11) 4.00 (0.38)
Articular Process 1.54 (0.17) 2.51 (0.27)
Spinous Process 2.11 (0.06) -
Foramen Height 1.10 (0.03) 1.25 (0.09)
Foramen Width 1.27 (0.16) 2.03 (0.13)
Body Height 1.11 (0.02) 0.84 (0.08)
Body Width 1.38 (0.06) 1.66 (0.14)
Body Depth 2.07 (0.05) 1.49 (0.16)
34Application Tibia Morphometry
growth plate
trabeculae
Internal micro-architecture of 2 week old mouse
tibia resolution 15 microns
35Application Skeletal Atlas
- Automatically label individual bones in skeleton
- Standardize measurements for individual bones
36Application Mouse Histology
37Acknowledgements
Collaborators Suneel Apte, MBBS D. Phil. Ron
Midura, Ph.D. George Muschler, M.D. Don Stredney
(OSC)
Barry Kuban, B.S. Larry Latson, M.S. Craig
Bennetts B.S. BME Prototype Lab Jason Bryan (OSC)
NIH DOD