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Testosterone Replacement, Low T, HCG, & Beyond
Testosterone Basics & Questions
FT using TruT vs Dialysis methods
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<blockquote data-quote="Cataceous" data-source="post: 163512" data-attributes="member: 38109"><p>Here's a long post from madman with research demonstrating the good correlation between Tru-T and equilibrium dialysis: <a href="https://www.excelmale.com/forum/threads/calculate-free-testosterone-with-trut-by-fpt.18468/post-145380" target="_blank">Calculate free testosterone with TruT by FPT</a></p><p>Snippets:</p><p><img src="https://www.excelmale.com/forum/attachments/screenshot-108-png.7255/" class="bbImage" alt="" data-url="https://www.excelmale.com/forum/attachments/screenshot-108-png.7255/" style="" /></p><p>[0023] Figs. 4A-4B demonstrate a comparison of the Free Testosterone Concentrations Derived Using the Vermeulen Equation (23) as implemented by Mazer (24) or the New Algorithm Based on the new Multi-step Dynamic Binding Model with Complex Allostery with those measured using the equilibrium dialysis in samples from the 5alpha reductase trial. Fig. 4A depicts a graph of a comparison of the free testosterone concentration calculated by the Vermeulen equation and the new algorithm based on the new Multi-step Dynamic Binding Model with Complex Allostery to that measured by equilibrium dialysis in samples from a randomized testosterone trial in men. (■) free testosterone concentrations derived using an algorithm based on new Multi-step Dynamic Binding Model with Complex Allostery; (•) free testosterone concentrations derived using the Vermeulen model (23) as implemented by Mazer (24). Solid lines are lines of best linear fit. Regression lines fit new Multi-step Dynamic Binding Model with Complex Allostery calculation (slope = 1.01±0.01, regression line fitting the squares), and the Vermeulen model (slope 0.77±0.02, lower line fitting the dots). Magenta dashed line is the line of prefect correlation. Fig. 4B depicts Bland Altman plots of the relative frequency distribution of % difference of calculated and measured free testosterone using either the Vermeulen equation (squares) or the new algorithm based on the new Multi-step Dynamic Binding Model with Complex Allostery (black dots) The relative deviations from the measured value are distributed around 0 for new Multi-step Dynamic Binding Model with Complex Allostery model and are different from zero for the Vermeulen model.</p></blockquote><p></p>
[QUOTE="Cataceous, post: 163512, member: 38109"] Here's a long post from madman with research demonstrating the good correlation between Tru-T and equilibrium dialysis: [URL="https://www.excelmale.com/forum/threads/calculate-free-testosterone-with-trut-by-fpt.18468/post-145380"]Calculate free testosterone with TruT by FPT[/URL] Snippets: [IMG]https://www.excelmale.com/forum/attachments/screenshot-108-png.7255/[/IMG] [0023] Figs. 4A-4B demonstrate a comparison of the Free Testosterone Concentrations Derived Using the Vermeulen Equation (23) as implemented by Mazer (24) or the New Algorithm Based on the new Multi-step Dynamic Binding Model with Complex Allostery with those measured using the equilibrium dialysis in samples from the 5alpha reductase trial. Fig. 4A depicts a graph of a comparison of the free testosterone concentration calculated by the Vermeulen equation and the new algorithm based on the new Multi-step Dynamic Binding Model with Complex Allostery to that measured by equilibrium dialysis in samples from a randomized testosterone trial in men. (■) free testosterone concentrations derived using an algorithm based on new Multi-step Dynamic Binding Model with Complex Allostery; (•) free testosterone concentrations derived using the Vermeulen model (23) as implemented by Mazer (24). Solid lines are lines of best linear fit. Regression lines fit new Multi-step Dynamic Binding Model with Complex Allostery calculation (slope = 1.01±0.01, regression line fitting the squares), and the Vermeulen model (slope 0.77±0.02, lower line fitting the dots). Magenta dashed line is the line of prefect correlation. Fig. 4B depicts Bland Altman plots of the relative frequency distribution of % difference of calculated and measured free testosterone using either the Vermeulen equation (squares) or the new algorithm based on the new Multi-step Dynamic Binding Model with Complex Allostery (black dots) The relative deviations from the measured value are distributed around 0 for new Multi-step Dynamic Binding Model with Complex Allostery model and are different from zero for the Vermeulen model. [/QUOTE]
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Testosterone Replacement, Low T, HCG, & Beyond
Testosterone Basics & Questions
FT using TruT vs Dialysis methods
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