Structural and geometric features of connectivity modes. by Justine Y. Hansen (17041502)

“…Circles indicate structural degree thresholds where the median rich-link edge rank of a connectivity mode is significantly greater than the edge rank of all other structurally supported edges (Welch’s <i>t</i> test, one-sided). …”

Percentage of significant bins (%sigbins) for each breathing mode. by Sadeq Mohammadi (22622219)

N-acetilcysteine prevents the <i>A</i>. <i>simplex</i> CE-induced TEER decrease. by Noelia Carballeda-Sangiao (2889611)

Data_Sheet_1_Age-Related Decrease in Default-Mode Network Functional Connectivity Is Accelerated in Patients With Major Depressive Disorder.docx by Shixiong Tang (6014612)

“…However, little is known whether such process would be reflected by a more rapid aging of the brain function. In this study, we tested the hypothesis that MDD would be characterized by accelerated aging of the brain’s default-mode network (DMN) functions. …”

The MWPM connects the deep features of the RGB mode and the thermal infrared mode, and then assigns weights to all channels. by Wei Luo (80175)

The connection mode between compound 1 in Table 3 and URAT1 protein. by Jiaxin Zhang (1836484)

Distribution of voxels across functional brain networks in significant seed-based connectivity clusters. by Sadeq Mohammadi (22622219)

“…Red bars represent the cluster associated with the olfactory seed, which shows strong engagement in the salience, somatosensory, default mode, frontoparietal, and limbic networks. Blue bars correspond to two significant clusters connected to the brainstem seed, with peak voxel counts in the limbic network. …”

JNJ26993135 + BML-111 decreases permeability and enhances ZO-1 and claudin-1 induced by PAF but does not change TEER. by Kameljit K. Kalsi (16496511)

Most significant group differences in local VAR in the modes for HCPEP and Cobre datasets. by Fran Hancock (14833557)

Brain regions whose functional connectivity was changed significantly due to mindfulness meditation. by Jinsoo Koh (12360260)

Subjects:

Transepithelial electrical resistance (TEER) (N = 6). by Shirko Marcel Shokr (19173337)

“…<p><b>(A)</b> During the cultivation of SMC and ALI we observed significantly differences on day 18 (SMC: 9.61 kΩ*cm²; ALI: 7.73 kΩ*cm²; p<0.05) and day 25 (SMC: 8.19 kΩ*cm²; ALI: 6.44 kΩ*cm²; p<0.05) ALI cultures showed significantly decreased values compared to SMC. …”

Names of ROIs with significant network alterations (significant RI index) for each brain system. by Mengjia Xu (4523824)

Mean connectivity maps of REST and SWITCH session. by Letizia Clementi (8605434)

Subjects:

Equivalent circuit of mode 4. by Wang Jinpeng (19286154)

Equivalent circuit of mode 2. by Wang Jinpeng (19286154)

Equivalent circuit of mode 5. by Wang Jinpeng (19286154)

Equivalent circuit of mode 3. by Wang Jinpeng (19286154)

Equivalent circuit of mode 1. by Wang Jinpeng (19286154)

Summary of significant clusters composition from the seed-based connectivity analysis of the brainstem (covering ≥ 10% of the regions). by Sadeq Mohammadi (22622219)

The strength of the commute time-functional connectivity relationship demonstrates weak pathological significance and weak dependency on age. by Rostam M. Razban (22232522)