ADNI Update– Utah Analysis Laboratory, PET Core

1. ADNI Update– Utah Analysis Laboratory, PET Core Norman L. Foster, M.D. University of Utah, Salt Lake City, UT

2. Utah Analysis Laboratory 3D-Stereotactic Surface Projection (3D-SSP) Results of topographic extent of significant hypometabolism (group data) Findings on individual case analysis FDG-PET correlates of MCI conversion to AD Summary of major findings Hypotheses we plan to test

3. Utah Analysis: 3-Dimensional Stereotactic Surface Projection (3D-SSP) Maps with Neurostat • Scan rotated and warped into a uniform space • Vectors constructed perpendicular to approximately 16,800 predefined pixels on the outer and medial brain surfaces • Maximum value on each vector is projected to the brain surface • Using peak rather than average values make results relatively resistant to effects of atrophy • Surface values normalized to Pons • Z-score maps in comparison to reference population

4. Alzheimer’s Disease

5. Topographic Extent of Hypometabolism at Baseline Is Intermediate inaMCI # of Significant Pixels (Z>3) Diagnosis at Baseline • aMCI (n = 161) • 217 ± 307 • AD (n = 75) • 579 ± 865 (p< 0.001) • CN (n = 80) • 86 ± 152 (p< 0.01) Median and quartile plots

6. Case-by-Case Image Analysis • Grouped data show typical, symmetric pattern • Individual analysis reveals remarkable pattern variability

7. Background • Long-standing concern that studies of Alzheimer’s disease (AD) could be contaminated with other disorders • Frontotemporal dementia (FTD) and AD are difficult to distinguish clinically • Patients with FTD often meet NINCDS-ADRDA criteria for probable AD

8. Simple Rules for Classification 98% specificity for FTD in autopsy-confirmed cases; Foster et al. Brain 2007; 130: 2616-35.

9. Results • 10 of 93 subjects (10.8%) had metabolic patterns classified as FTD

10. FTD-like Pattern is Heterogeneous

11. Characteristics of Subjects with FTD-like Metabolic Pattern • All from different clinical sites • No significant demographic differences • 6 men, 4 women • Slightly older (78.9 ± 6.7 vs 75.3 ± 7.3) • No significant cognitive test differences • Lower MMSE (21.6 ± 1.8 vs 23.8 ± 2.2) • Lower Immediate Logical Memory (4.0 ± 2.8 vs 1.9 ± 1.5) • Higher NPI (5.0 ± 4.0 vs 4.0 ± 3.5)

12. Hypometabolism is More Extensive in MCI Subjects Converting to AD by 1 Year # of Significant Pixels • Remain MCI at 1 year • N=138 (92 men, 46 women) • Age: 75.4 ± 6.5 • Pixels: 217 ± 307 • Convert to AD by 1 year • N=23 (14 men, 9 women) • Age: 75.3 ± 6.5 • Pixels 511 ± 627 (p< 0.02) Median and quartile plots

13. In MCI Extent of Hypometabolism Predicted Timing of Conversion • Conversion to AD at 6 months: N=5 • # Significant Pixels 1128 ± 1000 • Conversion to AD at 12 months: N=18 • # Significant Pixels 340 ± 363 • Remain MCI at 12 months: N=138 • # Significant Pixels 168 ± 283

14. Extent of Significant Hypometabolism at Baseline Predicts Timing of Conversion to AD inaMCISubjects

15. Major Findings – Utah Component, PET Core Topographic extent of hypometabolism is a promising outcome measure showing group differences and correlation with dementia severity While AD patients on average have symmetric hypometabolism, individual patients may have dramatic hemispheric asymmetry About 10% of clinically diagnosed AD patients have an FTD-like pattern of hypometabolism The extent of hypometabolism at baseline in aMCI predicts likelihood and timing of conversion to AD

16. Hypotheses to Test – Utah Component, PET Core • 3D-SSP can aid analysis of AV-45 scans by: • Limiting analysis to peak cortical areas, minimizing effects of atrophy • Providing statistical Z-score displays • Individual differences in regional amyloid binding explain patterns of glucose hypometabolism • ADNI AD subjects with FTD-like pattern don’t have increased amyloid binding • Baseline patterns of asymmetry and topographic extent of hypometabolism have prognostic value