Electrophysiology Measurements for Studying Neural Interfaces helps readers to choose a proper cell line and set-up for studying different bio-electronic interfaces before delving into the electrophysiology techniques available. Therefore, this book details the materials and devices needed for different types of neural stimulation such as photoelectrical and photothermal stimulations. Also, modern techniques like optical electrophysiology and calcium imaging in this book provides readers with more available approaches to monitor neural activities in addition to whole-cell patch-clamp technology. - Details steps of an electrophysiology project from start to finish for graduate students employing the technique in their research - Includes sample electrophysiological studies with multiple cell lines (PC12, N2a, NG108, SHSY, and embryonic stem cell lines) to facilitate research - Features data analysis of electrophysiology results from various relevant experiments and cell culture tips

Mohammad Mohammadi Aria MSc, graduated in the field of Micro-Nano Electronics from Electrical department of Sharif University Of Technology. He is currently a research assistant at Koç University in Istanbul, Turkey, focusing on electrical and electronic manufacturing and its applications in biomedical engineering.

Electrophysiology Measurements for Studying Neural Interfaces helps readers to choose a proper cell line and set-up for studying different bio-electronic interfaces before delving into the electrophysiology techniques available. Therefore, this book details the materials and devices needed for different types of neural stimulation such as photoelectrical and photothermal stimulations. Also, modern techniques like optical electrophysiology and calcium imaging in this book provides readers with more available approaches to monitor neural activities in addition to whole-cell patch-clamp technology.

• Details steps of an electrophysiology project from start to finish for graduate students employing the technique in their research
• Includes sample electrophysiological studies with multiple cell lines (PC12, N2a, NG108, SHSY, and embryonic stem cell lines) to facilitate research
• Features data analysis of electrophysiology results from various relevant experiments and cell culture tips

1. Bioelectricity and excitable membranes
2. Principle of whole-cell patch-clamp and its applications in Neural interface studies
3. Electrophysiological characteristics of neuron-like cancer cells and their applications for studying neural interfaces
4. In vivo electrophysiology
5. Calcium imaging and optical electrophysiology
6. Electronic circuits in patch-clamp system