Investigation of the inverse piezoelectric effect of synchrotron light source imaging of electrical stimulation on the fate of nano stem cells and its role and application in regenerative medicine and cancer treatment

Alireza Heidari, Zahra Torfeh, Sophia Iorgulescu, Olivia Robinson, Lin Hu, Charlotte Vauclin, Ntalie Schiltz, Scarlett Sondermann, Lucy MacLennan, Julia Smith, Lydia Williamson
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Abstract

The presence of electrical activity in body organs such as the nervous system, heart and bones has caused one of the most widely used treatment methods called electrotherapy to be widely used, especially in the relief of underlying pain. On the other hand, the progress of medical science in the field of nano stem cells and regenerative medicine has created many promises in treatment. Also, recently, treatments based on electric field have been widely used in cancer treatment. The main issues in regenerative medicine are the proliferation of nano stem cells to the required extent and directing them towards the differentiation of the target tissue. Electric field (EF) stimulation can play an important role in creating appropriate nano stem cell responses and directing nano stem cell differentiation towards osteogenesis/neuronogenesis/cardiomyogenesis. The electric field with nanosecond pulse as well as the electric field for tumor therapy have attracted a lot of attention for the treatment of cancer. Major signaling pathways and cellular responses elicited by electrical stimulation include reactive oxygen species and heat shock proteins, fluctuations in intracellular calcium ion concentration, ATP production, clustering or reaggregation of cell surface receptors., reconstruction of the cytoskeleton that affect the fate of the nano stem cell. Also, the lack of pain, ease and reasonable price have made cancer treatment with electric field more and more popular. In this research, an attempt has been made to briefly review the effects of electrical signals on the behavior of nano stem cells, as well as examples of their therapeutic effects in the treatment of tissue lesions and cancer. Schematic of the inverse piezoelectric effect of synchrotron light source imaging of electrical stimulation on the fate of nano stem cells and its role and application in regenerative medicine and cancer treatment.
同步光源成像电刺激对纳米干细胞命运的逆压电效应及其在再生医学和癌症治疗中的作用和应用研究
神经系统、心脏和骨骼等身体器官中电活动的存在,使一种被称为电疗的最广泛使用的治疗方法得到广泛应用,特别是在缓解潜在疼痛方面。另一方面,医学科学在纳米干细胞和再生医学领域的进步为治疗创造了许多希望。此外,最近基于电场的治疗在癌症治疗中得到了广泛的应用。再生医学的主要问题是纳米干细胞增殖到所需的程度并引导它们向目标组织分化。电场(EF)刺激在产生适当的纳米干细胞反应和引导纳米干细胞向成骨/神经生成/心肌生成方向分化方面发挥重要作用。纳秒脉冲电场以及用于肿瘤治疗的电场在治疗癌症方面引起了人们的广泛关注。电刺激引起的主要信号通路和细胞反应包括活性氧和热休克蛋白、细胞内钙离子浓度的波动、ATP的产生、细胞表面受体的聚集或再聚集。影响纳米干细胞命运的细胞骨架的重建。此外,无痛苦、轻松和合理的价格使得电场治疗癌症越来越受欢迎。在这项研究中,我们试图简要回顾电信号对纳米干细胞行为的影响,以及它们在治疗组织病变和癌症方面的治疗效果的例子。同步加速器光源成像电刺激对纳米干细胞命运的逆压电效应示意图及其在再生医学和癌症治疗中的作用和应用。
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