User:Clarahkim14/Sucrose Gap Project Proposal

• Technique used to study the activities and functions of neurons
• Provides measurement of current changes in cells or axons

• First proposed by R. Stampfli in 1954
• We will discuss other scientists and experiments who have contributed to the development of this technique

• Single sucrose gap apparatus
• Double sucrose gap apparatus
• Can be used with voltage clamp

• Used to study the effects of different drugs on muscle and nerve cell membrane activity in vitro
• Used in pharmacological studies of adult mammalian spinal cords
• Used to improve Compound action potential (CAP) recording by minimizing extracellular shunting

• Used to study cardiac muscle cells with the double sucrose gap voltage clamp technique
• Used to study frog atrial muscle- showed experimental limitations of the technique

• Simpler than other techniques
• Less expensive
• Ability to obtain measurements from very small cells without damaging them

• Does not provide real values of action potential amplitudes; only relative changes
• Cannot be used to record potentials in tissues with low spatial constants
• Possible disruptions of action potentials due to procedure

We will spend our first couple meetings discussing and reviewing all the sources so that we all have a good understanding of our topic as a whole. Then we will assign particular sections for each group member to focus on and research in more detail. We will meet weekly to discuss our assigned sections, resolve any possible problems, and to edit each other's writing. We will schedule meetings and due dates to ensure that we are all equally contributing to this project.

Duval, A, Leoty, C, & Poindessault, J P. (1976). Voltage Clamp with Double Sucrose Gap Technique. External Series Resistance Compensation. Biophysical Journal, 105-120.

Harrington, Lesley, & Johnson, Edward A. (1973). Voltage-Clamp of Cardiac Muscle in a Double Sucrose Gap. Biophysical Journal, 626-647.

Kelly, M. (1988). Use of the sucrose-gap technique for quantitative pharmacological studies on isolated adult spinal cord of small mammals. J Pharmacol Methods, 283-92.

Mert, T. (2007). Sucrose-Gap Technique: Advantages and Limitations. Neurophysiology, 270-274.

Tarr, Merrill, & Trank, John W. (1974). An Assessment of the Double Sucrose-Gap Voltage Clamp Technique as Applied to Frog Atrial Muscle. Biophysical Journal, 627-643.

Velumian A, et. al. (2010). Modular double sucrose gap apparatus for improved recording of compound action potentials from rat and mouse spinal cord white matter preparations. J Neurosci Methods, 33-40.