Between-group differences in 95% Area, Y Sway Amplitude and LFS during postural training. by Cristina Dolciotti (16317330)

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Time course of 95% Area, X and Y Amplitude Sway during postural training. by Cristina Dolciotti (16317330)

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Correlations between unipedal and bipedal stance parameters recorded at the beginning of the training and of the control session. by Cristina Dolciotti (16317330)

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Flow diagram. by Cristina Dolciotti (16317330)

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Significantly changed USSs in the sf3b1 mutants. by Bei Zhang (428038)

Interaction of significantly changed genes and their linked pathways. by Mohamad Ammar Ayass (13775290)

Significant and stable AUCs across brain regions for detecting healthy participants from patients in the anomaly detection scenario. by Seyed Mostafa Kia (12078773)

Geniposide(Gen) significantly decreased the levels of TNF-α and MIP-1α in BALF of bleomycin-induced PF mice. by Jian-Bin Yin (19556105)

IRI group exhibited a significantly greater decrease in proportion of gambles accepted compared to the IRI group in the second block. by Yasuhiro Mochizuki (3308349)

Number of patients with a significant increase or significant decrease between the baseline measurement (SCr-BL) and the creatinine measurement at emergency department presentation... by M. S. A. Niemantsverdriet (11886431)

Model outputs used to inform this study. by Joachim Worthington (8394213)

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The level of miRNA 221 in the myocardium of MIRI mice was decreased. by Hongyu Li (1332669)

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …”