GLASS MICROCAPILLARY ELECTRODES 



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528 

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ganglion J. Physiol. 130 (1955) 572 

 ^^ Frank, K. and Fuortes, M. G. F. Potentials recorded from the spinal cord 



with microelectrodes /. Physiol. 130 (1955) 625 

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intracellular electrode J. Physiol. 115 (1951) 320 

 ^^ Marmont, G. Studies on the axon membrane /. Cell. Camp. Physiol. 34 



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 2^ Janz, J. G. and Taniguchi, H. "Silver-silver halide electrodes Chem. Revs. 



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 ^* Castillo, del J. and Katz, B. Local activity at a depolarized nerve muscle 



junction J. Physiol. 128 (1955) 396 

 ^^ Nastuk, W. L. The electrical activity of the muscle cell membrane at the 



neuromuscular junction /. Cell. Comp. Physiol. Al (1953) 249 

 ^® Adrian, R. H, The effect of internal and external potassium concentration on 



the membrane potential of frog muscle /. Physiol. 133 (1956) 631 

 ^' Tasaki, I. Properties of myelinated fibres in frog sciatic nerve and in spinal cord 



as examined with microelectrodes Jap. J. Physiol. 3 (1953) 73 

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microelectrodes Fed. Proc. 12(1953) 159 

 29 WooDBURYi J. W. /. Cell. Comp. Physiol. 39 (1952) 323 

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fidehty pre-amplifier for use on the recording of bioelectric potentials with intra- 

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 ^^ McNiCHOL, E. F. and Wagner, H. G. A high impedance input circuit suitable 



for electrophysiological recording from micropipette electrodes Nov. Med. Res. 



Inst. 12 (1954) 97 

 ^^ Haapanen, L. and Ottoson, D. A frequency compensated input unit for 



recording with microelectrodes Acta Physiol, scand. 1)1 (1954) 271 

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 3^ Lucas, K. On a mechanical method of correcting photographic records obtained 



from the capillary electrometer /. Physiol. 44 (1912) 225 

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 3^ LoRENTE de No, R. A study of nerve physiology Stud. Rockefeller Inst. med. 



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 3^ ToBL\s, J. M. and Bryant, S. H. An isolated giant axon preparation from the 



lobster nerve cord /. Cell. Comp. Physiol. 46 (1955) 163 

 3^ HoDGKiN, A. L. and Katz, B. The effect of sodium ions on the electrical 



activity of the giant axon of the squid /. Physiol. 108 (1949) 37 

 39 Tomita T. and Funaishi, A, Studies on intraretinal action potential with low 



resistance microelectrode /. Neurophysiol. 15 (1952) 75 

 ^° SvAETiCHiN, G. Low resistance microelectrodes Acta Physiol, scand. 24 (1951) 



Suppl. 86.5 

 ^^ RoTHCHiLD, W, L. The polarisation of a calomel electrode Proc. Roy. Soc. B 



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