Image 4_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 5_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 11_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 12_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 10_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 7_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 6_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 1_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 13_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Data Sheet 1_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.pdf by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 8_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 2_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 3_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Image 9_Inflammation mediated brain damage and cytokine expression in a maternally derived murine model for preterm hypoxic-ischemic encephalopathy.tiff by Tyler C. Hillman (13030476)

“…MAP2 expression was significantly decreased (p < 0.05) between 1.5–6.0 mm of the brain compared to Saline-Hypoxia and Naïve animals. …”

Engineering and Functional Expression of the Type III Secretion System in <i>Xenorhabdus</i>: Enhancing Insecticidal Efficacy and Expanding T3SE Libraries by Xiyin Huang (11528200)

“…Heterologous T3SS expression significantly enhanced HN_xs01 adhesion and invasion capabilities in CF-203 cells. …”

Engineering and Functional Expression of the Type III Secretion System in <i>Xenorhabdus</i>: Enhancing Insecticidal Efficacy and Expanding T3SE Libraries by Xiyin Huang (11528200)

“…Heterologous T3SS expression significantly enhanced HN_xs01 adhesion and invasion capabilities in CF-203 cells. …”

Engineering and Functional Expression of the Type III Secretion System in <i>Xenorhabdus</i>: Enhancing Insecticidal Efficacy and Expanding T3SE Libraries by Xiyin Huang (11528200)

“…Heterologous T3SS expression significantly enhanced HN_xs01 adhesion and invasion capabilities in CF-203 cells. …”

Engineering and Functional Expression of the Type III Secretion System in <i>Xenorhabdus</i>: Enhancing Insecticidal Efficacy and Expanding T3SE Libraries by Xiyin Huang (11528200)

“…Heterologous T3SS expression significantly enhanced HN_xs01 adhesion and invasion capabilities in CF-203 cells. …”

Engineering and Functional Expression of the Type III Secretion System in <i>Xenorhabdus</i>: Enhancing Insecticidal Efficacy and Expanding T3SE Libraries by Xiyin Huang (11528200)

“…Heterologous T3SS expression significantly enhanced HN_xs01 adhesion and invasion capabilities in CF-203 cells. …”

ABR wave I and IV parameters in response to clicks. by Carolin Jüchter (17384611)

“…The P1-N1 amplitude at 90 dB SPL (<b>A</b>) was significantly reduced two days post-trauma compared to pre-trauma and stayed decreased three weeks post-trauma. …”