Biases in larger populations. by Sander W. Keemink (21253563)

Image 1_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”

Table 1_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.docx by Francesca Bietto (21511316)

“…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”

Image 5_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”

Image 4_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”

Image 2_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”

Image 3_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…</p>Results<p>Our research demonstrates that GDC decreases Caco-2/HT29-MTX Trans-Epithelial Electrical Resistance (TEER) and increases paracellular permeability, without inflammation or cytotoxicity. …”

Reproducibility of response time and brain measures. by Jan Willem Koten (17743224)

IKK KO in microglia leads to increased accumulation of PK-resistant PrP <i>in vitro</i> but decreased accumulation <i>in vivo.</i> by Arielle J. D. Hay (15456341)

Conditional knockout of SLAMF5 in CX3CR1^er cells attenuates EAE progression, reduces brain myeloid cell activation, and decreases T cell infiltration. by Laura Bellassen (22209109)

Conditional ablation of <i>Ybx1</i> leads to a reduction in cortical progenitor cell pool and a decrease in cortical thickness. by Jian Zhang (1682)

Uncovering Urinary Proteome Differences in Very Preterm Infants with and without Preterm Brain Injury by Magdalena Zasada (4524901)

“…Notably, extracellular proteoglycans (NCAN, ACAN, BCAN), associated with neuroprotection, were markedly reduced in infants with brain injury. Conversely, fatty acid-binding proteins (FABP1, FABP3, FABP4, FABP7) decreased over time in uninjured infants but increased in those with brain injury, suggesting a role in exacerbating damage. …”

NBs in Mod-depleted brains display defects in expression of key cell identity factors. by Amalia S. Parra (4173004)

Quercetin reduced infarct volume and alleviated brain damage of hyperglycemic MCAO/R rats. by Jing Yang (13969)

Statins resulted in smaller neuronal soma size. by Shuk C. Tsoi (21192243)

Accuracy increases with stimulus strength in both single and double-pulse trials for visual and auditory tasks. by Masoumeh Golmohamadian (20558569)

Occurrence of subcortical immature neurons (scINs) in the amygdala of mouse and primates: relationship with evolution of subnuclei scaling and cortical connectomics. by Marco Ghibaudi (16701750)

“…While CM and Co nuclei do not change substantially in their relative volume among animal species, the BLc is markedly larger in primates (up to 60%–70%) with respect to rodents (around 30%; here not entirely visible since not in scale and because the expansion is linked to the entire anterior-to-posterior volume of the region). …”

Analysis of DCX⁺ cells showing migratory morphology (cells with small, oval/fusiform cell soma – less than 9 µm – and an unbranched leading process) in the amygdala of a... by Marco Ghibaudi (16701750)

Loss of Mod causes cell cycle defects. by Amalia S. Parra (4173004)

Mod localizes both within and outside the nucleolus in NBs. by Amalia S. Parra (4173004)