Schmidt-Christensen et al 2024, "Structure-function analysis of time-resolved immunological phases in metabolic dysfunction-associated fatty liver disease".
Supplementary Figure 1: SR-µCT enables virtual histology for human biopsies and larger animal tissues.
Supplementary Figure 2: The standard deviation (sd) and ranked mean calculated from the gene expression matrix.
Supplementary Figure 3: Venn diagrams indicating shared and unique differentially expressed genes (DEG) in liver transcriptomes across ages of 24abNOD control and NIF mice.
Supplementary Figure 4: Comparative hepatic gene expression in NIF mice, human NASH-associated gene and other mouse models for NASH.
Supplementary Figure 5: SR-μCT imaging reveals characteristics of NASH in GAN diet fed NIF mice.
Supplementary Table 5: Animal models used for comparative analysis.
Suppl. Table 3a: DEGs NIF mice 3 vs. 6 w age corrected.
Suppl. Table 3b: DEGs NIF mice 6 vs. 18 w age corrected.
Suppl. Table 3c: DEGs NIF mice 3 vs. 18 w age corrected.
Suppl. Table 4a: GEO analysis of genes found in Table S3a.
Suppl. Table 4b: GEO analysis of genes found in Table S3a.
Suppl. Table 4c: GEO analysis of genes found in Table S3a.
Supplementary videos 1-3
Supplementary video 1
The SRµCT imaging technique allows for virtual dissection and flexible viewing of human biopsies and larger animal tissues. The video displays a 3D-rendering of a liver biopsy.
Supplementary video 2
The SRµCT imaging technique allows for virtual dissection and flexible viewing of human biopsies and larger animal tissues. The video displays a 3D-rendering of a liver biopsy.
Supplementary video 3
The SRµCT imaging technique allows for virtual dissection and flexible viewing of human biopsies and larger animal tissues. The video displays a 3D-rendering of a liver biopsy.