Chen, Y., Sun, Y., Luo, Z., Lin, J., Qi, B., Kang, X., . . . Chen, S. (2022, May). Potential Mechanism Underlying Exercise Upregulated Circulating Blood Exosome miR-215-5p to Prevent Necroptosis of Neuronal Cells and a Model for Early Diagnosis of Alzheimer’s Disease. Frontiers in Aging Neuroscience.
توثيق أسلوب شيكاغو (الطبعة السابعة عشر)Chen, Yisheng, et al. "Potential Mechanism Underlying Exercise Upregulated Circulating Blood Exosome MiR-215-5p to Prevent Necroptosis of Neuronal Cells and a Model for Early Diagnosis of Alzheimer’s Disease." Frontiers in Aging Neuroscience May. 2022.
توثيق جمعية اللغة المعاصرة MLA (الإصدار التاسع)Chen, Yisheng, et al. "Potential Mechanism Underlying Exercise Upregulated Circulating Blood Exosome MiR-215-5p to Prevent Necroptosis of Neuronal Cells and a Model for Early Diagnosis of Alzheimer’s Disease." Frontiers in Aging Neuroscience, May. 2022.