In this second email I attached the script that I used!
Thanks in advance
SPM12: spm_results_ui (v6200) 19:20:31 - 20/04/2017
=======================================================================
SPM computation : ...height
thresholdError using gammaln
Input must be nonnegative.
Error in spm_ECdensity (line 68)
EC(3,:) = a*exp(gammaln((v+k-2)/2)-b)*(k*t/v).^(1/2*(k-2))...
Error in spm_P_RF (line 63)
EC = spm_ECdensity(STAT,Z,df);
Error in spm_uc_peakFDR (line 83)
[P,p,Eu] = spm_P_RF(1,0,ui,df,STAT,R,n);
Error in wfu_spm_getSPM12 (line 866)
[up,Pp] = spm_uc_peakFDR(0.05,df,STAT,R,n,Zum,XYZum,u);
Error in spm_getSPM (line 7)
[SPM xSPM] = wfu_spm_getSPM12(varargin{:});
Error in spm_results_ui
Error while evaluating UIControl Callback
% List of open inputs
nrun = X; % enter the number of runs here
jobfile = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK\elultimohecho_job.m'};
jobs = repmat(jobfile, 1, nrun);
inputs = cell(0, nrun);
for crun = 1:nrun
end
spm('defaults', 'FMRI');
spm_jobman('run', jobs, inputs{:});
%-----------------------------------------------------------------------
% Job saved on 20-Apr-2017 18:17:56 by cfg_util (rev $Rev: 6134 $)
% spm SPM - SPM12 (6225)
% cfg_basicio BasicIO - Unknown
%-----------------------------------------------------------------------
matlabbatch{1}.spm.stats.factorial_design.dir = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK'};
%%
matlabbatch{1}.spm.stats.factorial_design.des.mreg.scans = {
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_A90.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_A97.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_A100.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_A102.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_A103.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_A106.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_A109.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_A111.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_A113.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_PR77.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_PR89.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_PR91.nii,1'
'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\1stlevel_contrast_images\NO_MHE\NBACK\Tcontrast\2back-resting\con_0002_PR92.nii,1'
};
%%
matlabbatch{1}.spm.stats.factorial_design.des.mreg.mcov = struct('c', {}, 'cname', {}, 'iCC', {});
matlabbatch{1}.spm.stats.factorial_design.des.mreg.incint = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(1).c = [13
122
25
9
17
63
85
15
26
9
8
17
35];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(1).cname = 'Amonio';
matlabbatch{1}.spm.stats.factorial_design.cov(1).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(1).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(2).c = [8.8
8.8
5.2
4.8
4.4
6.75
5.51
4.75
6.59
3.6
4
4.8
4.4];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(2).cname = 'GMP Ciclico';
matlabbatch{1}.spm.stats.factorial_design.cov(2).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(2).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(3).c = [16.26
26.14
28.41
40
20.83
21.96
27.72
30.69
31.96
20.61
32.45
23.67
30.61];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(3).cname = 'Nitratos/Nitritos';
matlabbatch{1}.spm.stats.factorial_design.cov(3).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(3).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(4).c = [2.16
2.97
1.35
1.68
0.29
3.61
2.037
2.65
4.58
1.27
1.68
8.47
3.04];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(4).cname = 'IL6';
matlabbatch{1}.spm.stats.factorial_design.cov(4).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(4).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(5).c = [489.67
176.3
146.3
174.67
176.3
126.31
59.7
108.9
158
46.8
121.33
160.15
201.1];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(5).cname = 'IL18';
matlabbatch{1}.spm.stats.factorial_design.cov(5).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(5).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(6).c = [1.81
1.66
10.09
7.2
14.1
7.08
2.32
9.66
1.54
7.5
17.34
36
5];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(6).cname = '3-Nitrotirosina';
matlabbatch{1}.spm.stats.factorial_design.cov(6).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(6).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(7).c = [10.7
9.13
11.63
7.35
12.05
12.23
19.85
11.86
23.86
13.51
11.8
9.85
9.68];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(7).cname = '8-Hidroxideoxiguanina';
matlabbatch{1}.spm.stats.factorial_design.cov(7).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(7).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(8).c = [0.278
0.118
0.131
0.146
0.109
0.18
0.141
0.13
0.102
0.13
0.228
0.283
0.162];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(8).cname = 'Proteinas carboniladas';
matlabbatch{1}.spm.stats.factorial_design.cov(8).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(8).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(9).c = [0.497
0.554
0.413
0.515
0.484
0.482
0.489
0.371
0.204
0.555
0.36
0.271
0.304];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(9).cname = 'Malonaldehido';
matlabbatch{1}.spm.stats.factorial_design.cov(9).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(9).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(10).c = [61
58
65
65
42
53
53
45
67
47
55
47
53];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(10).cname = 'Age';
matlabbatch{1}.spm.stats.factorial_design.cov(10).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(10).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(11).c = [1
1
1
1
1
1
1
1
1
0
1
1
1];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(11).cname = 'Gender Male';
matlabbatch{1}.spm.stats.factorial_design.cov(11).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(11).iCC = 1;
%%
matlabbatch{1}.spm.stats.factorial_design.cov(12).c = [0
0
0
0
0
0
0
0
0
1
0
0
0];
%%
matlabbatch{1}.spm.stats.factorial_design.cov(12).cname = 'Gender Female';
matlabbatch{1}.spm.stats.factorial_design.cov(12).iCFI = 1;
matlabbatch{1}.spm.stats.factorial_design.cov(12).iCC = 1;
matlabbatch{1}.spm.stats.factorial_design.multi_cov = struct('files', {}, 'iCFI', {}, 'iCC', {});
matlabbatch{1}.spm.stats.factorial_design.masking.tm.tm_none = 1;
matlabbatch{1}.spm.stats.factorial_design.masking.im = 1;
matlabbatch{1}.spm.stats.factorial_design.masking.em = {''};
matlabbatch{1}.spm.stats.factorial_design.globalc.g_omit = 1;
matlabbatch{1}.spm.stats.factorial_design.globalm.gmsca.gmsca_no = 1;
matlabbatch{1}.spm.stats.factorial_design.globalm.glonorm = 1;
matlabbatch{2}.spm.stats.review.spmmat = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK\SPM.mat'};
matlabbatch{2}.spm.stats.review.display.matrix = 1;
matlabbatch{2}.spm.stats.review.print = 'jpg';
matlabbatch{3}.spm.stats.review.spmmat = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK\SPM.mat'};
matlabbatch{3}.spm.stats.review.display.matrix = 1;
matlabbatch{3}.spm.stats.review.print = 'jpg';
matlabbatch{4}.spm.stats.review.spmmat = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK\SPM.mat'};
matlabbatch{4}.spm.stats.review.display.orth = 1;
matlabbatch{4}.spm.stats.review.print = 'jpg';
matlabbatch{5}.spm.stats.review.spmmat = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK\SPM.mat'};
matlabbatch{5}.spm.stats.review.display.factors = 1;
matlabbatch{5}.spm.stats.review.print = 'jpg';
matlabbatch{6}.spm.stats.review.spmmat = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK\SPM.mat'};
matlabbatch{6}.spm.stats.review.display.covariates = 1;
matlabbatch{6}.spm.stats.review.print = 'jpg';
matlabbatch{7}.spm.stats.review.spmmat = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK\SPM.mat'};
matlabbatch{7}.spm.stats.review.display.covariance = 1;
matlabbatch{7}.spm.stats.review.print = 'jpg';
matlabbatch{8}.spm.stats.fmri_est.spmmat = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK\SPM.mat'};
matlabbatch{8}.spm.stats.fmri_est.write_residuals = 0;
matlabbatch{8}.spm.stats.fmri_est.method.Classical = 1;
matlabbatch{9}.spm.stats.con.spmmat = {'F:\WORKSPACE_INCLIVA\DATA\Resultados_New\2ndLevel\CORRELATIONS\NO_MHE\NBACK\2BACK\SPM.mat'};
matlabbatch{9}.spm.stats.con.consess{1}.fcon.name = 'NO_MHE-Amonio';
matlabbatch{9}.spm.stats.con.consess{1}.fcon.weights = [1 -1 0 0 0 0 0 0 0 0 0 0 0];
matlabbatch{9}.spm.stats.con.consess{1}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.consess{2}.fcon.name = 'NO_MHE-GMP Ciclico';
matlabbatch{9}.spm.stats.con.consess{2}.fcon.weights = [1 0 -1 0 0 0 0 0 0 0 0 0 0];
matlabbatch{9}.spm.stats.con.consess{2}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.consess{3}.fcon.name = 'NO_MHE-Nitratos/Nitritos';
matlabbatch{9}.spm.stats.con.consess{3}.fcon.weights = [1 0 0 -1 0 0 0 0 0 0 0 0 0];
matlabbatch{9}.spm.stats.con.consess{3}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.consess{4}.fcon.name = 'NO_MHE-IL6';
matlabbatch{9}.spm.stats.con.consess{4}.fcon.weights = [1 0 0 0 -1 0 0 0 0 0 0 0 0];
matlabbatch{9}.spm.stats.con.consess{4}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.consess{5}.fcon.name = 'NO_MHE-IL18';
matlabbatch{9}.spm.stats.con.consess{5}.fcon.weights = [1 0 0 0 0 -1 0 0 0 0 0 0 0];
matlabbatch{9}.spm.stats.con.consess{5}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.consess{6}.fcon.name = 'NO_MHE-3Nitrotirosina';
matlabbatch{9}.spm.stats.con.consess{6}.fcon.weights = [1 0 0 0 0 0 -1 0 0 0 0 0 0];
matlabbatch{9}.spm.stats.con.consess{6}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.consess{7}.fcon.name = 'NO_MHE-8Hidroxideoxiguanina';
matlabbatch{9}.spm.stats.con.consess{7}.fcon.weights = [1 0 0 0 0 0 0 -1 0 0 0 0 0];
matlabbatch{9}.spm.stats.con.consess{7}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.consess{8}.fcon.name = 'NO_MHE-Proteinas carboniladas';
matlabbatch{9}.spm.stats.con.consess{8}.fcon.weights = [1 0 0 0 0 0 0 0 -1 0 0 0 0];
matlabbatch{9}.spm.stats.con.consess{8}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.consess{9}.fcon.name = 'NO_MHE-Malonaldehido';
matlabbatch{9}.spm.stats.con.consess{9}.fcon.weights = [1 0 0 0 0 0 0 0 0 -1 0 0 0];
matlabbatch{9}.spm.stats.con.consess{9}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.consess{10}.fcon.name = 'Prueba';
matlabbatch{9}.spm.stats.con.consess{10}.fcon.weights = [1 1 0 0 0 0 0 0 0 0 0 0 0];
matlabbatch{9}.spm.stats.con.consess{10}.fcon.sessrep = 'none';
matlabbatch{9}.spm.stats.con.delete = 0;
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