Table_2_The Contribution of Decreased Muscle Size to Muscle Weakness in Children With Spastic Cerebral Palsy.docx by Britta Hanssen (4898155)

“…Selective motor control (SMC) was assessed on a 5-point scale for the children with SCP. First, the anthropometrics, strength, and muscle size parameters were compared between the cohorts. …”

Table_3_The Contribution of Decreased Muscle Size to Muscle Weakness in Children With Spastic Cerebral Palsy.docx by Britta Hanssen (4898155)

“…Selective motor control (SMC) was assessed on a 5-point scale for the children with SCP. First, the anthropometrics, strength, and muscle size parameters were compared between the cohorts. …”

Table_1_The Contribution of Decreased Muscle Size to Muscle Weakness in Children With Spastic Cerebral Palsy.docx by Britta Hanssen (4898155)

“…Selective motor control (SMC) was assessed on a 5-point scale for the children with SCP. First, the anthropometrics, strength, and muscle size parameters were compared between the cohorts. …”

Table_1_Decrease in Admissions and Change in the Diagnostic Landscape in a Newborn Care Unit in Northern Ghana During the COVID-19 Pandemic.DOC by Alhassan Abdul-Mumin (5986151)

“…</p><p>Conclusion: We observed a marked decrease in admissions and change in the diagnosis landscape and related mortality during the pandemic. …”

Decreased risk of Parkinson’s disease in diabetic patients with thiazolidinediones therapy: An exploratory meta-analysis - Fig 2 by Yueli Zhu (7526219)

Pep4 overexpression decreased APCs in Vps21- and ESCRT-mutant cells after nitrogen starvation. by Zulin Wu (4451572)

“…<p><b>A.</b> The accumulation of GFP-Atg8-labeled APCs in mutant cells (<i>vps21Δ</i>, <i>snf7Δ</i>, and <i>vps4Δ</i>) slightly decreased with Pep4 overexpression. …”

GRIP1^-/- platelets do not have decreased velocity in ionophore-stimulated blood vessels. by Kristina L. Modjeski (3123072)

“…Blood was then pumped over a mouse vWF-coated MatTek chamber. Platelet adhesion was determined at multiple time points (N = 4–6 per time point, P < 0.1 at 15 sec).…”

DPPIV inhibitor MK626 decreases T1D incidence and reduces the insulitis score in NOD mice. by Núria Alonso (824191)

Decrease in vRNA in brain during antiretroviral therapy. by Sonny R. Elizaldi (9684796)

In the absence of chloride, two-fold decrease in [Na⁺]_e shifted GLT-1a E_rev by −28 mV at both low and high glutamate concentrations. by Anatoli Y. Kabakov (729047)

“…<b>(B)</b> Representative data show total membrane current, the time courses of [Na⁺]_e, [Glu^-]_e, and [DHK]_e at the top, and HP voltage ramps (–100 to +20 mV) at the bottom. Arrow head points to simultaneous decrease in [Glu^-]_e and [Na⁺]_e, which affects the current. …”

SEM image of (a) Lanthanum strontium cobalt oxide (b) Ba₇Nb₄MoO₂₀ electrolyte and (c) Gadolinium-doped ceria. by Nacer Badi (14046883)

FTIR spectra of (a) Ba₇Nb₄MoO₂₀ electrolyte (b) Gadolinium-doped ceria and (c) Lanthanum strontium cobalt oxide. by Nacer Badi (14046883)

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”