Hi Falk, yes, the output of long_mris_slopes and long_stats_slopes is in percent (100 * rate / value_of_fit_at_mid_time).
Also running 1mm data is different (as you know :-) from .8 so maybe you would analyze both separately, e.g. creating one base on 1mm time points and another on the .8mm ? If you re-scan in short time interals (and if these are young and healthy, then even for mid to long intervals), you would not expect anatomical aging effects. Then the variance is probably mainly acquisition noise (e.g. induced by motion etc, see eg https://www.ncbi.nlm.nih.gov/pubmed/25498430) plus some processing noise (different surface placement etc). Maybe there are also hydration effects (see https://www.ncbi.nlm.nih.gov/pubmed/26381562 ). Best, Martin On Thu, 2019-05-09 at 09:51 +0000, falk.luesebr...@med.ovgu.de wrote: > External Email - Use Caution > Dear all, > > I’m a beginner in using the longitudinal processing pipeline (as well > as statistical analysis) and it would be great to get some insights > or hints to analyze my data. > > I have a dataset consisting of 11 subjects each acquired at 7 > different time points with an isotropic resolution of 1 and 0.8 mm at > 3T using a 64-channel head coil. Using that dataset I want to > investigate short term differences in e.g. cortical thickness with > the goal to assess the degree of biological variance during that time > period. > > I have plotted the mean cortical thickness of each time point of > every subject (using lme_timePlot and lme_lowessPlot) showing a > somewhat random distribution across time and from my perspective > fairly high standard deviation. I wanted to have a look at the > individual percent change by overlaying the symmetric percent change > on fsaverage, but wasn’t quite sure of the scale. Is it in percent? > So in case I set the scale bar between 1 and 5, the color relates to > 1 to 5 percent? > > What other ways would make sense to have a look at? I definitely > cannot compare groups, as there is just one. The days and time of > acquistion are rather randomly choosen, so I potentially cannot use > either as a covariate. > > Best, > Falk > > ............................................... > > > University Clinic for Neurology > > Otto-von-Guericke-university Magdeburg > Medical faculty > Leipziger Str. 44 > 39120 Magdeburg > > Phone +49-391-6117-512 > > falk.luesebr...@med.ovgu.de > http://www.kneu.ovgu.de/kneu.html > > _______________________________________________ > Freesurfer mailing list > Freesurfer@nmr.mgh.harvard.edu > https://mail.nmr.mgh.harvard.edu/mailman/listinfo/freesurfer _______________________________________________ Freesurfer mailing list Freesurfer@nmr.mgh.harvard.edu https://mail.nmr.mgh.harvard.edu/mailman/listinfo/freesurfer
