Image_1_Pharmacokinetic Behavior of Vincristine and Safety Following Intravenous Administration of Vincristine Sulfate Liposome Injection in Chinese Patients With Malignant Lymphom... by Fen Yang (287005)

“…</p><p>Results: In this phase Ia study, a total of eight subjects participated. VCR elimination from the circulation after injection of VSLI was characterized by a significantly increased maximum concentration (C_max, 86.6 ng/mL) and plasma area under the plasma concentration-time curve from zero to infinity (AUC_0-Inf, 222.1 ng/mL h), markedly decreased distribution volume (V_z, 224.1 L) and plasma clearance (CL, 8.9 L/h) compared to lower C_max (26.6 ng/mL) and AUC_0-Inf (95.1 ng/mL h), larger V_z (688.8 L) and CL (22.1 L/h) for VSI. …”

Image_6_Pharmacokinetic Behavior of Vincristine and Safety Following Intravenous Administration of Vincristine Sulfate Liposome Injection in Chinese Patients With Malignant Lymphom... by Fen Yang (287005)

“…</p><p>Results: In this phase Ia study, a total of eight subjects participated. VCR elimination from the circulation after injection of VSLI was characterized by a significantly increased maximum concentration (C_max, 86.6 ng/mL) and plasma area under the plasma concentration-time curve from zero to infinity (AUC_0-Inf, 222.1 ng/mL h), markedly decreased distribution volume (V_z, 224.1 L) and plasma clearance (CL, 8.9 L/h) compared to lower C_max (26.6 ng/mL) and AUC_0-Inf (95.1 ng/mL h), larger V_z (688.8 L) and CL (22.1 L/h) for VSI. …”

Image_7_Pharmacokinetic Behavior of Vincristine and Safety Following Intravenous Administration of Vincristine Sulfate Liposome Injection in Chinese Patients With Malignant Lymphom... by Fen Yang (287005)

“…</p><p>Results: In this phase Ia study, a total of eight subjects participated. VCR elimination from the circulation after injection of VSLI was characterized by a significantly increased maximum concentration (C_max, 86.6 ng/mL) and plasma area under the plasma concentration-time curve from zero to infinity (AUC_0-Inf, 222.1 ng/mL h), markedly decreased distribution volume (V_z, 224.1 L) and plasma clearance (CL, 8.9 L/h) compared to lower C_max (26.6 ng/mL) and AUC_0-Inf (95.1 ng/mL h), larger V_z (688.8 L) and CL (22.1 L/h) for VSI. …”

Image_3_Pharmacokinetic Behavior of Vincristine and Safety Following Intravenous Administration of Vincristine Sulfate Liposome Injection in Chinese Patients With Malignant Lymphom... by Fen Yang (287005)

“…</p><p>Results: In this phase Ia study, a total of eight subjects participated. VCR elimination from the circulation after injection of VSLI was characterized by a significantly increased maximum concentration (C_max, 86.6 ng/mL) and plasma area under the plasma concentration-time curve from zero to infinity (AUC_0-Inf, 222.1 ng/mL h), markedly decreased distribution volume (V_z, 224.1 L) and plasma clearance (CL, 8.9 L/h) compared to lower C_max (26.6 ng/mL) and AUC_0-Inf (95.1 ng/mL h), larger V_z (688.8 L) and CL (22.1 L/h) for VSI. …”

Image_2_Pharmacokinetic Behavior of Vincristine and Safety Following Intravenous Administration of Vincristine Sulfate Liposome Injection in Chinese Patients With Malignant Lymphom... by Fen Yang (287005)

“…</p><p>Results: In this phase Ia study, a total of eight subjects participated. VCR elimination from the circulation after injection of VSLI was characterized by a significantly increased maximum concentration (C_max, 86.6 ng/mL) and plasma area under the plasma concentration-time curve from zero to infinity (AUC_0-Inf, 222.1 ng/mL h), markedly decreased distribution volume (V_z, 224.1 L) and plasma clearance (CL, 8.9 L/h) compared to lower C_max (26.6 ng/mL) and AUC_0-Inf (95.1 ng/mL h), larger V_z (688.8 L) and CL (22.1 L/h) for VSI. …”

Image_4_Pharmacokinetic Behavior of Vincristine and Safety Following Intravenous Administration of Vincristine Sulfate Liposome Injection in Chinese Patients With Malignant Lymphom... by Fen Yang (287005)

“…</p><p>Results: In this phase Ia study, a total of eight subjects participated. VCR elimination from the circulation after injection of VSLI was characterized by a significantly increased maximum concentration (C_max, 86.6 ng/mL) and plasma area under the plasma concentration-time curve from zero to infinity (AUC_0-Inf, 222.1 ng/mL h), markedly decreased distribution volume (V_z, 224.1 L) and plasma clearance (CL, 8.9 L/h) compared to lower C_max (26.6 ng/mL) and AUC_0-Inf (95.1 ng/mL h), larger V_z (688.8 L) and CL (22.1 L/h) for VSI. …”

Effects of low-dose rate γ-irradiation combined with simulated microgravity on markers of oxidative stress, DNA methylation potential, and remodeling in the mouse heart by John W. Seawright (4225723)

“…However, further research is needed with larger numbers of animals for a more robust statistical power to fully characterize the early and late effects of simulated microgravity combined with exposure to low-dose rate ionizing radiation on the heart.…”

Equilibrium model predictions for the pattern formation time and readout error. by Huy Tran (441825)

“…<p>(A) The early nuclear cycles have a short interphase <i>T</i>_full and even shorter steady state periods <i>T</i> when the average transcription rate is neither increasing after, nor decreasing before, transcription shut-off during mitosis. …”

Data_Sheet_1_PET image enhancement using artificial intelligence for better characterization of epilepsy lesions.docx by Anthime Flaus (10153055)

“…We trained a ResNet on 80% of this dataset (10% used for validation) to learn the mapping between S-SQ and GT-HQ PET, outputting a predicted HQ (P-HQ) PET. …”

Table_2_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.DOCX by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Image_4_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Image_7_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Table_3_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.DOCX by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Image_1_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Image_5_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Table_1_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.DOCX by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Table_4_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.DOCX by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Image_6_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Image_2_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”

Image_8_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…</p><p>Objective: To establish the replicative frequency and transcriptional identity of CPHN cells, extending our observation on CPHN cell frequency to a larger cohort of fetal and infant pancreas.</p><p>Design, Setting, and Participants: 8 fetal, 19 infant autopsy pancreata were evaluated for CPHN cell frequency; 12 fetal, 24 infant/child pancreata were evaluated for CPHN replication and identity.…”