2000
DOI: 10.1111/j.1529-8027.2000.00025.x
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Stretch of mammalian nerve in vitro: Effect on compound action potentials

Abstract: Stretch of nerve has been reported to decrease the amplitude of the compound action potential (CAP) with a complete block appearing in approximately 30 minutes. But for the most part, those experiments were carried out in vivo , and it is generally accepted that the failure of responses was due to a closure of vessels supplying the nerve with a resulting ischemia and anoxia. These studies were undertaken to determine if stretch of nerve has effects that are independent of interference with its vascular supply.… Show more

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Cited by 13 publications
(7 citation statements)
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“…Mechanical tension is an important issue for reconstructive surgery and nerve repair and consequently a number of studies have investigated changes in tension in human cadaveric nerves during limb movement (Kleinrensink et al 1995; Wright et al 2001; Hicks & Toby, 2002; Byl et al 2002). Previous investigators have sought to place values on the degree to which nerves can be stretched before they become compromised through changes in conduction, blood flow, or integrity of intraneural structures (Lundborg & Rydevik, 1973; Rydevik et al 1990; Wall et al 1992; Kwan et al 1992; Millesi et al 1995; Ochs et al 2000). These studies have failed to agree on an absolute strain‐limit value, chiefly due to (i) difficulties in determining original length and disagreement on what constitutes nerve resting tension and (ii) differences in post mortem treatments (fixation, ligation, incubation, etc.).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Mechanical tension is an important issue for reconstructive surgery and nerve repair and consequently a number of studies have investigated changes in tension in human cadaveric nerves during limb movement (Kleinrensink et al 1995; Wright et al 2001; Hicks & Toby, 2002; Byl et al 2002). Previous investigators have sought to place values on the degree to which nerves can be stretched before they become compromised through changes in conduction, blood flow, or integrity of intraneural structures (Lundborg & Rydevik, 1973; Rydevik et al 1990; Wall et al 1992; Kwan et al 1992; Millesi et al 1995; Ochs et al 2000). These studies have failed to agree on an absolute strain‐limit value, chiefly due to (i) difficulties in determining original length and disagreement on what constitutes nerve resting tension and (ii) differences in post mortem treatments (fixation, ligation, incubation, etc.).…”
Section: Discussionmentioning
confidence: 99%
“…Numerous studies have been undertaken to define the limits to which nerves can be stretched before their function is compromised. It is known that straining nerves beyond the physiological tension range can alter their conduction properties (Wall et al 1992; Ochs et al 2000) and intraneural blood flow (Lundborg & Rydevik, 1973) and can result in permanent loss of function believed to be related to a breakdown in integrity of the perineurium (Rydevik et al 1990; Kwan et al 1992).…”
mentioning
confidence: 99%
“…Rapid conduction loss has been observed at only 6.2% nerve strain (13). (40) argued that the decrease in action potential amplitude could be a side effect of stretching by reducing the supply of the axons leading to ischemia and anoxia after a long stretch. This might be true for some experiments, but is unlikely for experiments during which the onset of the decrease in excitability is fast and reversible.…”
Section: Discussionmentioning
confidence: 99%
“…will be reduced, resulting in the reduction of the action potential conduction velocity In this connection, it is pointed out that Wall et al [36] noticed a reversible reduction in the compound action potential (CAP) amplitude for a 6 % elongation of rabbit tibial nerves in stretching experiments in vivo, which is under the ischemia limit and without structural changes of the nerves. Similarly, Ochs et al [37] performed in vitro stretching experiments on canine peroneal nerves and rat sciatic nerves. After the possibility of nerve ischemia and hypoxia was excluded, a reversible (for a small deformation) reduction in the CAP amplitude and beading appearance of axons were observed.…”
Section: Changes In the Conduction Velocitymentioning
confidence: 99%