Cinacalcet administered early in the inactive phase markedly decrease parathyroid Ki-67 index. by Søren Egstrand (10906087)

Expression of lipid biosynthetic genes is decreased with polyamine depletion. by Yazmin E. Cruz-Pulido (20285238)

Map of Pakistan with marked Punjab province. by Sumaira Sumaira (21453523)

Sodium levels (mg/100 g) in matched restaurant menu items in 2016 and 2020 by UK NSRI food categories with ≥ 10 items. by Caroline G. Middleton (22041479)

Sodium levels in Canadian restaurant menu items compared to UK National Salt Reduction Initiative (NSRI) targets by UK NSRI food category. by Caroline G. Middleton (22041479)

<b>Supporting data for manuscript</b> "<b>Voluntary locomotion induces an early and remote hemodynamic decrease in the large cerebral veins</b>" by Kira Shaw (18796168)

“…<p dir="ltr">The CSV file 'Eyreetal_DrainingVein_SourceData' contains the averaged time series traces and extracted metrics from individual experiments used across Figures 1-5 in the manuscript "Voluntary locomotion induces an early and remote hemodynamic decrease in the large cerebral veins". …”

Conservation of XBP1 in parasitic flatworms. by Inés Guarnaschelli (18102211)

Subjects:

Group-level narrow- and broad-band spectral changes after hemispherotomy reveal a marked EEG slowing of the isolated cortex, robust across patients. by Michele Angelo Colombo (22446342)

Dataset used in this study. by Yulian Ding (5984591)

nsP4-C483Y or Q192L mutations decrease sensitivity to 4′-FlU. by Peiqi Yin (6533747)

Narrow- and broad-band spectral changes after hemispherotomy in an awake representative patient, displaying marked electroencephalography (EEG) slowing of the isolated cortex. by Michele Angelo Colombo (22446342)

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”