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Absolute Metabolite Concentrations Gaussian and Lorentzian Functions

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Presentation on theme: "Absolute Metabolite Concentrations Gaussian and Lorentzian Functions"— Presentation transcript:

1 Absolute Metabolite Concentrations Gaussian and Lorentzian Functions
on Brain Tissue by Gaussian and Lorentzian Functions Amarjeet Bhullar Bimonthly Meeting on Dec. 5, 2008

2 How to get absolute signal?
Absolute Signal = Raw data - Noise Raw data = Real Spectrum without any manipulation Noise = Draw a Baseline using few anchor points on Spectrum Noise=Baseline is determined by interpolating anchor points on spectrums.

3 Absolute Metabolite Concentrations
Create baseline using few anchor points on spectrum. Find metabolite peaks. Fit Mathematical function on metabolite peaks. Integrate peaks between the limits to calculate absolute metabolite concentrations.

4 Mathematical Model: Gaussian Function

5 Integral of Gaussian Function : Error Function
Numerically: Codes developed in C and Mathematica 6.0

6 Integral of Gaussian Function : Gamma Function

7 Mathematical Model: Lorentz Function

8 Integral of Lorentzian Function : ArcTan

9 Difference Between Lorentzian and Gaussian Function

10 Metabolite ratios by Gaussian function
Voxel #32 Gaussian Cho/Cre 1.58 Cho/NAA 0.34

11 Metabolite ratios by Lorentzian function
Voxel #32 Lorentzian Cho/Cre 1.54 Cho/NAA 0.33

12 Conclusion: Both mathematical models have produced the same ratios.
Voxel #32 Gaussian Lorentzian Average Cho/Cre 1.58 1.54 1.55 Cho/NAA 0.34 0.33 Both mathematical models have produced the same ratios. Suggestions are welcome

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