Data Sheet 1_Preclinical evidence and potential mechanisms of tanshinone ⅡA on cognitive function in animal models of Alzheimer’s disease: a systematic review and meta-analysis.doc... by Yuanhang Rong (19207540)

“…Background<p>Tanshinone ⅡA (Tan ⅡA) is a monomer extracted from Salvia miltiorrhiza Bunge. …”

3D model of the swimmer with a traditional streamlined posture. by Tianzeng Li (3709963)

Multivariate Analysis of Factors Associated with a DTN ≤60 Minutes. by Chih-Hao Chen (290117)

Bi-plot (A. Scores and B. Loadings) for the PCA model. by Olga García-Martínez (2548000)

Turing mechanism underlying a branching model for lung morphogenesis by Hui Xu (9203)

“…In our previous study, a biological mechanism was presented for lung branching pattern formation through a branching model. …”

Clinical characteristics and demographics of study participants with complete data from pre- and post-intervention. by Sanna Nybacka (11547232)

Subjects:

Serum and urine metabolites responsible for class discrimination between baseline and endpoint samples, and between responders and non-responders in the low FODMAP diet. by Sanna Nybacka (11547232)

Subjects:

CONSORT flow diagram of study participants and sample collection. by Sanna Nybacka (11547232)

Subjects:

Resident case volumes before and during the pandemic. by Emile B. Gordon (17027639)

Subjects:

Food intake in groups A, B and C. by Sohail Afzal (10850709)

“…Statistically, there was a significant decrease in EPG values from days 0–14. …”

Multivariate regression analysis. by Emile B. Gordon (17027639)

Subjects:

Excitation wave in a one-dimensional chain. by Hesam Setareh (5487965)

“…<b>G</b>) Decreasing the amplitude of the dynamic threshold <i>γ</i>₁(<i>t</i>) together with a readjustment of the parameter <i>U</i> of short-term plasticity influences the difference of activation times (horizontal axis). …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Negative thermotactic behavior is also reproduced by a variety of neuroanatomical models. by Muneki Ikeda (5166362)