Kaplan-Meier survival analysis comparing patients admitted before or during the COVID-19 period. by Rajkumar Rajendram (22505442)

The results of curve fitting analysis. by Hai-bo Ai (20790405)

Scheme of the SiTFarm tool–farm to sector level. by Jure Brečko (20314959)

“…At the sector level, the gross margin decreased by 12% in 2020 but increased by 99% in 2022 compared to the reference year 2018, highlighting the incredible price volatility over a short period. …”

S1 File - by Jure Brečko (20314959)

“…At the sector level, the gross margin decreased by 12% in 2020 but increased by 99% in 2022 compared to the reference year 2018, highlighting the incredible price volatility over a short period. …”

GHG emissions in TAHs. by Jure Brečko (20314959)

“…At the sector level, the gross margin decreased by 12% in 2020 but increased by 99% in 2022 compared to the reference year 2018, highlighting the incredible price volatility over a short period. …”

Model vs. WKY group KEGG pathways (Top 15). by Xiao Zhang (152326)

“…Characteristic metabolites in the model group, such as ATP, cAMP, Creatine, Cyanocobalamin, Dopamine, Serotonin, Tryptophan, Uric acid and Vitamin B1 decreased, while GABA, Glucose, Isocitrate and Malate increased.…”

Behavioral data. by Xiao Zhang (152326)

“…Characteristic metabolites in the model group, such as ATP, cAMP, Creatine, Cyanocobalamin, Dopamine, Serotonin, Tryptophan, Uric acid and Vitamin B1 decreased, while GABA, Glucose, Isocitrate and Malate increased.…”

OPLS-DA model parameter. by Xiao Zhang (152326)

“…Characteristic metabolites in the model group, such as ATP, cAMP, Creatine, Cyanocobalamin, Dopamine, Serotonin, Tryptophan, Uric acid and Vitamin B1 decreased, while GABA, Glucose, Isocitrate and Malate increased.…”

Model vs. SHR group KEGG pathways (Top 15). by Xiao Zhang (152326)

“…Characteristic metabolites in the model group, such as ATP, cAMP, Creatine, Cyanocobalamin, Dopamine, Serotonin, Tryptophan, Uric acid and Vitamin B1 decreased, while GABA, Glucose, Isocitrate and Malate increased.…”

In-Hospital Mortality by Admission Day and Serum Sodium Category (Excluding Hypernatremia). by Rajkumar Rajendram (22505442)

Table of Mann-Whitney test results on lectin microarray. by Yiying Zhang (198443)

Thirty-day inpatient survival by admission serum sodium concentration: Kaplan-Meier analysis stratified by pre- and during-COVID-19 pandemic periods. by Rajkumar Rajendram (22505442)

Illustrative examples of our study. by Mustafa Tuşat (21094179)

Advantages of Novel Anti-cancer Selenosemicarbazones: Preferential Reactivity of Their Fe(III), Cu(II), and Zn(II) Complexes with Key Physiological Reductants/Ligands Versus Isoste... by Mahendiran Dharmasivam (14165426)

“…This was ascribed to the decreased potentials of their Fe(III) complexes and steric hindrance effects. …”

Advantages of Novel Anti-cancer Selenosemicarbazones: Preferential Reactivity of Their Fe(III), Cu(II), and Zn(II) Complexes with Key Physiological Reductants/Ligands Versus Isoste... by Mahendiran Dharmasivam (14165426)

“…This was ascribed to the decreased potentials of their Fe(III) complexes and steric hindrance effects. …”

Data used to generate Fig 1. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Table 6. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Table 2. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 3. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 5. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”