Age-standardized prevalence rates of gynecological diseases across 21 GBD regions, by SDI, from 1990 to 2021. by Xiaofeng He (2618752)

Age-standardized prevalence rates of gynecological diseases across 204 countries and territories in 2021. by Xiaofeng He (2618752)

Estimated annual percentage change in age-standardized prevalence rates of gynecological diseases across 204 countries and territories in 2021. by Xiaofeng He (2618752)

Estimated annual percentage changes in the prevalence rate of specific gynecological diseases from 1990 to 2021, categorized by age group and SDI. by Xiaofeng He (2618752)

Prevalence and trends of gynecological diseases (GDs) among women of childbearing age, by age group and SDI. by Xiaofeng He (2618752)

Prevalence of gynecological diseases (GDs) among women of childbearing age in 2021, along with their changes from 1990 to 2021, and the contribution of each GD to the overall preva... by Xiaofeng He (2618752)

A) Expression of known ‘tendon’ transcription factors, B) TGFβ and C) ECM genes measured with RNA-seq. by Heather L. Dingwall (14573796)

“…Expression of ECM related genes are significantly differentially expressed in unique directions during postnatal stages with <i>Dcn</i> and <i>Fmod</i> increasing gradually over time, <i>Col2a1</i>, <i>Col14a1</i>, <i>Col3a1</i>, and <i>Tnmd</i> decreasing over time, <i>Col1a1</i> and <i>Col1a2</i> peak in expression at P14, and <i>Bgn</i> is expressed at higher levels from P0-P14 after which its levels decrease (C). …”

Neonatal deletion of Yap in Scx-lineage cells disrupts collagen production in the tendon during postnatal development. by Heather L. Dingwall (14573796)

“…<b>E)</b> RT-qPCR shows decreased expression of Col1a2, Ki67, and Yap in and Yap-cKO tendon at P14 compared to controls. …”

PPI network analysis. by Du Leng (20421711)

ELISA of the key proteins. by Du Leng (20421711)

“…KEGG pathway analysis showed a significant enrichment of DEPs in PI3K-Akt pathway and focal adhesion. …”

The error between test and simulation results. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”

Relevant parameters of cutting head and pick. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”

The stress variation of Node 33. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”

Deformation trend of the gyration platform. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”

Force transformation of cutting head. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”

3D model of cutting head. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”

Rigid-flexible coupling mode. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”

The flow of cutting performance calculation. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”

Results of different optimization schemes. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”

Modal shape of the gyration platform. by Shan Gao (46743)

“…The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. To ensure the reliability of the gyration platform, it is crucial to judiciously select the swing speed based on the hardness of the rock, especially when cutting in different swing directions. …”