Saiki Yu
10 Papers
Saiki Yu is an academic researcher. The author has contributed to research in topics: Medicine & Biology. The author has an hindex of 2, co-authored 6 publications.
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Papers
Integrated microfluidic-SERS for exosome biomarker profiling and osteosarcoma diagnosis.
Zhenzhen Han,Xinyan Peng,Yi Yang,Jia Yi,Dan Zhao,Qiyuan Bao,Shuping Long,Saiki Yu,Xinxiang Xu,Baohong Liu,Yan-Jun Liu,Yuhui Shen,Liang Qiao +12 more
TL;DR: Wang et al. as discussed by the authors developed a method integrating microfluidics and surface-enhanced Raman spectroscopy (SERS) to isolate plasma-derived exosomes and profile multiple exosomal biomarkers for the diagnosis of osteosarcoma.
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Revolutionizing wound healing: Ultrashort pulse electric fields in seconds for highly aligned extracellular matrix and efficient cell migration
Xiao-Wei Xiang,Hao Liu,Wei Liu,Ze Yan,Yu Zeng,Ya Jun Wang,Jing Liu,Yu-Chen Chen,Saiki Yu,Cai-Hui Zhu,Xiaoqing Tao,Chen Wang,Jin Wu,Yang Du,Xinxiang Xu,Hai Gao,Yaming Jiu,Jian Qiu,Lingqian Chang,Guangyin Jing,Kefu Liu,Yan-Jun Liu +21 more
TL;DR: In this paper , a microsecond pulse electric field (μsPEF) was proposed and realized to promote wound healing under a much short time (seconds) for the total treatment.
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Cervix chip mimicking cervical microenvironment for quantifying sperm locomotion.
Saiki Yu,Yanan Liu,Yi Wu,Hao Luo,Rufei Huang,Ya Jun Wang,Xuemei Wang,Hai Gao,Huijuan Shi,Guangyin Jing,Yan-Jun Liu +10 more
TL;DR: Wang et al. as discussed by the authors used hyaluronic acid (HA), a substitute of cervical mucus to mimic the cervical microenvironment and designed a cervix chip to study sperm selection and behavior.
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On-chip modeling of physiological and pathological blood-brain barrier microenvironment for studying glial responses to neuroinflammation
Yu-Lian Zeng,Yang Du,Xinxiang Xu,Ya Jun Wang,Saiki Yu,Ting Liu,Shiyuan Luo,Xiao-Wei Xiang,Wei Li,Yu-Chen Chen,Hongjun Huang,Hai Gao,Yuhui Shen,Yan Luo,Chengrong Bao,Yan-Jun Liu +15 more
TL;DR: Researchers developed a microfluidic BBB chip model to study glial responses to neuroinflammation, recapitulating physiological and pathological states, and demonstrated its potential for elucidating brain neurodegenerative disease progression and preclinical drug efficacy evaluation.
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Glioblastoma Behavior Study under Different Frequency Electromagnetic Field
Xiao-Wei Xiang,Hao-Tian Liu,Xiaoqing Tao,Yu-Lian Zeng,Jing Liu,Chen Wang,Saiki Yu,Hui Zhao,Yan-Jun Liu,Ke-Fu Liu +9 more
TL;DR: This work provides unique insights into the selection of frequencies in the anti-proliferative effect of TTFields on tumors, which could improve the application of TTFields.
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