Whole brain volume change over 5 years using the SIENA pipeline. by Renxin Chu (5169857)

Histograms of model vertex von Mises stress values exceeding 5 MPa. by Nathan L. Wright (18389458)

Mean heart rate percentage difference (between CON and AI at each 15-second time span). by Jan Maleček (17396660)

Subjects:

Significantly decreased adhesion to host cells by the Δ<i>tad123</i> mutant (A) and time-dependent recovery (B). by Tra-My Duong-Nu (7300970)

Monocytes mediate LPS induced decrease of T cell proliferative response to OKT3. by Fanny Poujol (834338)

rVλ6Wil fibrils cause a decrease in cardiomyocytes MTT reduction without inducing cell death. by Helen P. McWilliams-Koeppen (116503)

“…(C) Cell number, quantified using crystal violet (black) did not decrease over 72 h of incubation with 1 μM rVλ6Wil fibrils despite a decrease in MMT reduction (grey; n = 3 samples per time point). …”

V3Nter decreases colony formation and induces tumor cell death in HCT116 and HepG2 cells. by Delphine Quélard (43727)

Statistical evaluation of cerebral autoregulation indices at different time points during the experiment: baseline, last LBNP/LBPP level (LBNP: first 10 seconds), presyncope (5 sec... by Marcus Thudium (6441863)

Normalized whole brain volume change over 5 years using an SPM pipeline. by Renxin Chu (5169857)

19606 decreases the luminal pH of the ACV during infection. by Jesus S. Distel (11250759)

Acute myocardial infarction changes bone marrow cell composition and decreases endothelial differentiation capability. by Ming-Yao Chang (700415)

“…<b>(D)</b> Quantification of the ratio of cells stained positively with vWF. Data are presented as the mean±SEM. *<i>P</i><0.05. …”

Homozygous deletion of <i>ERG251</i> leads to the decreased ergosterol accumulation in the absence of FLC and decreased production of toxic dienol in the presence of FLC. by Xin Zhou (54275)

Absence of LFA-1 results in decreased numbers of NKT cells within the regenerating liver. by Ann-Kathrin Jörger (3559358)

All data points from Fig 2. by Sara Hijazi (21656615)

“…Specifically, we observed that demyelination caused an impairment in the ability of PV interneurons to sustain high-frequency firing associated with a substantial decrease in Kv3-specific currents. …”

All data points from Fig 8. by Sara Hijazi (21656615)

“…Specifically, we observed that demyelination caused an impairment in the ability of PV interneurons to sustain high-frequency firing associated with a substantial decrease in Kv3-specific currents. …”

All data points from Fig 3. by Sara Hijazi (21656615)

“…Specifically, we observed that demyelination caused an impairment in the ability of PV interneurons to sustain high-frequency firing associated with a substantial decrease in Kv3-specific currents. …”

All data points from Fig 1. by Sara Hijazi (21656615)

“…Specifically, we observed that demyelination caused an impairment in the ability of PV interneurons to sustain high-frequency firing associated with a substantial decrease in Kv3-specific currents. …”

All data points from Fig 4. by Sara Hijazi (21656615)

“…Specifically, we observed that demyelination caused an impairment in the ability of PV interneurons to sustain high-frequency firing associated with a substantial decrease in Kv3-specific currents. …”

All data points from Fig 9. by Sara Hijazi (21656615)

“…Specifically, we observed that demyelination caused an impairment in the ability of PV interneurons to sustain high-frequency firing associated with a substantial decrease in Kv3-specific currents. …”

All data points from Fig 7. by Sara Hijazi (21656615)

“…Specifically, we observed that demyelination caused an impairment in the ability of PV interneurons to sustain high-frequency firing associated with a substantial decrease in Kv3-specific currents. …”