Task execution diagram from the data acquisition to the results of noncompaction cardiomyopathy patients. by Marcelo Dantas Tavares de Melo (11767071)

ROC curves for prediction model to rigid body rotation pattern in noncompaction cardiomyopathy patients. by Marcelo Dantas Tavares de Melo (11767071)

Echocardiographic parameters evaluated in noncompaction cardiomyopathy with rigid body rotation and included in the prediction model. by Marcelo Dantas Tavares de Melo (11767071)

Pearson’s correlation matrix is ordered from the coefficients between the features and rigid body rotation. by Marcelo Dantas Tavares de Melo (11767071)

Assessment of diagnostic of selected mitochondrial sirtuins and related genes in glioma patients. by Maria Fazal Ul Haq (14659737)

Kaplan meier analysis of selected mitochondrial sirtuins and related genes in glioma patients. by Maria Fazal Ul Haq (14659737)

Energetic energy for Atlantic sea scallops <i>Placopecten magellanicus</i>. by Emilien Pousse (14664318)

Comet analysis of glioma patients and controls. by Maria Fazal Ul Haq (14659737)

More disadvantaged communities have received fewer clean vehicle rebates. by Jaye Mejía-Duwan (15401425)

Rapidly Thermoreversible and Biodegradable Polypeptide Hydrogels with Sol–Gel–Sol Transition Dependent on Subtle Manipulation of Side Groups by Dan Zhao (285025)

“…Intriguingly, the obtained hydrogels can transform from gel to sol within 10–70 s in response to the temperature decrease from 37 to 0 °C. The thermosensitive sol–gel–sol transitions are markedly faster than previously reported thermoreversible PEG-poly­(l-glutamate) derivative hydrogels with subtle differences in the side groups and a widely studied poly­(d,l-lactide-<i>co</i>-glycolide)-<i>b</i>-PEG-<i>b</i>-poly­(d,l-lactide-<i>co</i>-glycolide) (PLGA-PEG-PLGA) hydrogel that required a much longer time of 40∼150 min. …”

Rapidly Thermoreversible and Biodegradable Polypeptide Hydrogels with Sol–Gel–Sol Transition Dependent on Subtle Manipulation of Side Groups by Dan Zhao (285025)

“…Intriguingly, the obtained hydrogels can transform from gel to sol within 10–70 s in response to the temperature decrease from 37 to 0 °C. The thermosensitive sol–gel–sol transitions are markedly faster than previously reported thermoreversible PEG-poly­(l-glutamate) derivative hydrogels with subtle differences in the side groups and a widely studied poly­(d,l-lactide-<i>co</i>-glycolide)-<i>b</i>-PEG-<i>b</i>-poly­(d,l-lactide-<i>co</i>-glycolide) (PLGA-PEG-PLGA) hydrogel that required a much longer time of 40∼150 min. …”

Rapidly Thermoreversible and Biodegradable Polypeptide Hydrogels with Sol–Gel–Sol Transition Dependent on Subtle Manipulation of Side Groups by Dan Zhao (285025)

“…Intriguingly, the obtained hydrogels can transform from gel to sol within 10–70 s in response to the temperature decrease from 37 to 0 °C. The thermosensitive sol–gel–sol transitions are markedly faster than previously reported thermoreversible PEG-poly­(l-glutamate) derivative hydrogels with subtle differences in the side groups and a widely studied poly­(d,l-lactide-<i>co</i>-glycolide)-<i>b</i>-PEG-<i>b</i>-poly­(d,l-lactide-<i>co</i>-glycolide) (PLGA-PEG-PLGA) hydrogel that required a much longer time of 40∼150 min. …”

Rapidly Thermoreversible and Biodegradable Polypeptide Hydrogels with Sol–Gel–Sol Transition Dependent on Subtle Manipulation of Side Groups by Dan Zhao (285025)

“…Intriguingly, the obtained hydrogels can transform from gel to sol within 10–70 s in response to the temperature decrease from 37 to 0 °C. The thermosensitive sol–gel–sol transitions are markedly faster than previously reported thermoreversible PEG-poly­(l-glutamate) derivative hydrogels with subtle differences in the side groups and a widely studied poly­(d,l-lactide-<i>co</i>-glycolide)-<i>b</i>-PEG-<i>b</i>-poly­(d,l-lactide-<i>co</i>-glycolide) (PLGA-PEG-PLGA) hydrogel that required a much longer time of 40∼150 min. …”

Apical rotation and basal rotation curve obtained from NCC patients. by Marcelo Dantas Tavares de Melo (11767071)

Feeding rates for Atlantic sea scallops, Atlantic sea scallops, <i>Placopecten magellanicus</i>. by Emilien Pousse (14664318)

Photomicrographs of CB-immunostained histological sections containing the marmoset dorsal lateral geniculate nucleus (DLG). by Nelyane N. M. Santana (5217074)

image_2.tif by Katrin Zlabinger (4498639)

“…IC delivery led to a significant increase in myocardial MMP-2 64 kD expression (448 ± 88 vs. 315 ± 54 intensity × mm², p = 0.021), and decreased expression of CXCR4 (592 ± 50 vs. 714 ± 54 pg/tissue/ml, p = 0.006), with significant exponential decay between MMP-2 and CXCR4 (r = 0.679, p < 0.001). …”

Secretion of cytokines in alveolar macrophages of MH-S cell line stimulated with SMPs and other glucans. by Alejandra Barrera-Rosales (21656278)

Relative mRNA expression of heparanase. by Lukas Martin (747245)

Biochemical characterization of AGIA tag. by Tomoya Yano (2819689)

“…(D) Specific detection of recombinant AGIA-tagged protein by anti-AGIA antibody. …”