Supplementary Media for Self-Supervised Deep Learning Two-Photon Microscopy

Supplementary Media for Self-Supervised Deep Learning Two-Photon Microscopy

Supplementary Media for Self-Supervised Deep Learning Two-Photon Microscopy

Supplemental Document

Supplemental Document

20 reconstructed frames from the single-shot measurement with each one corresponding to the duration of 1 millisecond for the heart motions of zebrafish.

Reconstruction results with 20 frames of zebrafish heart from a snapshot measurement.

Reconstruction results with 20 frames of zebrafish heart from a snapshot measurement.

Four groups of experimental data comparison about the robustness of proposed method.

Quantitative simulation comparison about the robustness of proposed method.

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Additional file 2.

Supplemental material, sj-pptx-2-tag-10.1177_17562848221124029 for ‘FLARE’ of tumor marker in advanced gastric cancer treated with first-line systemic therapy by Fangyuan Zhang, Menglan Zhai, Jinru Yang, Lei Zhao, Zhenyu Lin, Jing Wang, Tao Zhang and Dandan Yu in Therapeutic Advances in Gastroenterology

Video showing overlaid structural-Doppler images obtained from moving magnetic particles with red and green colors indicating different motion directions.

Video showing overlaid structural-Doppler images obtained from moving magnetic particles cultured with C2C12 cells, with red and green colors indicating different motion directions.

Additional file 4. High correlation between the two technical replicates. The scatterplot of two technical replicates treated with 20/80/160 Gy heavy ion irradiation.

Supplemental material, sj-pptx-1-tag-10.1177_17562848221124029 for ‘FLARE’ of tumor marker in advanced gastric cancer treated with first-line systemic therapy by Fangyuan Zhang, Menglan Zhai, Jinru Yang, Lei Zhao, Zhenyu Lin, Jing Wang, Tao Zhang and Dandan Yu in Therapeutic Advances in Gastroenterology

Supplemental material, sj-pptx-2-tag-10.1177_17562848221124029 for ‘FLARE’ of tumor marker in advanced gastric cancer treated with first-line systemic therapy by Fangyuan Zhang, Menglan Zhai, Jinru Yang, Lei Zhao, Zhenyu Lin, Jing Wang, Tao Zhang and Dandan Yu in Therapeutic Advances in Gastroenterology

macroscopic laser pulling of the CLG-SiO2 sample with wavelength of 488 nm and laser power of 85 mW at the air pressure of 5 Pa

macroscopic laser pulling of the CLG-SiO2 sample with wavelength of 360 nm and laser power of 13 mW at the air pressure of 5 Pa

laser irradiation of the CLG-SiO2 sample with wavelength of 532 nm and laser power of 60 mW at normal pressure

macroscopic laser pulling of the CLG-SiO2 sample with wavelength of 488 nm and laser power of 17 mW at the air pressure of 5 Pa

macroscopic laser pulling of the CLG-SiO2 sample with wavelength of 488 nm and laser power of 34 mW at the air pressure of 5 Pa

macroscopic laser pulling of the CLG-SiO2 sample with wavelength of 488 nm and laser power of 51 mW at the air pressure of 5 Pa

Additional file 1: Figure S1. Female RAGE deficiency improved glucose and insulin tolerance in normal diet mice. (A) Glucose tolerance tests (GTT) and Area under the curve (AUC) in each group. n = 6 per group. *p < 0.05 vs. female RAGE−/−-HFD-F mice; #p < 0.05 vs. female RAGE−/−-ND-F mice. (B) Insulin tolerance tests (ITT) and AUC in each group. n = 6 per group. *p < 0.05 vs. female RAGE−/−-HFD-F mice; #p < 0.05...