PURPOSE: Long-term vibrations are known to cause neurovascular diseases, which are common in workers who operate handheld power tools or motor vehicles. Understanding the neuropathology of vibration-induced nerve injury is critical to its prevention and treatment. This study aims to evaluate whether light microscopy of longitudinal nerve sections can be used as a simple yet effective method for quantifying nerve injury. METHODS: The rats were split into two groups that were subjected to vibration (4 h/day) for 7 or 14 days. They were then allowed to rest for varying periods of time. Longitudinal sections of the tail nerves were examined under light microscopy. Injuries to the nerves were classified into three types, counted, tallied, and then divided by the length of the nerve being studied. RESULTS: Both 7 and 14 days of vibration showed significant damage when no recovery time was given. After 1 month of rest, the 7-day group began to show signs of recovery, but the 14-day group did not. After 2 months of rest, the 7-day vibration group showed almost complete recovery, while the 14-day vibration group still showed significant damage when compared to the sham control groups. CONCLUSION: The amount of damage to the myelin sheath directly correlated with vibration duration. When vibrated for longer than 7 days, nerve recovery was limited. This study also demonstrated that light microscopy of longitudinal slices is a simple yet effective method of quantifying the nerve damage.
PURPOSE: Long-term vibrations are known to cause neurovascular diseases, which are common in workers who operate handheld power tools or motor vehicles. Understanding the neuropathology of vibration-induced nerve injury is critical to its prevention and treatment. This study aims to evaluate whether light microscopy of longitudinal nerve sections can be used as a simple yet effective method for quantifying nerve injury. METHODS: The rats were split into two groups that were subjected to vibration (4 h/day) for 7 or 14 days. They were then allowed to rest for varying periods of time. Longitudinal sections of the tail nerves were examined under light microscopy. Injuries to the nerves were classified into three types, counted, tallied, and then divided by the length of the nerve being studied. RESULTS: Both 7 and 14 days of vibration showed significant damage when no recovery time was given. After 1 month of rest, the 7-day group began to show signs of recovery, but the 14-day group did not. After 2 months of rest, the 7-day vibration group showed almost complete recovery, while the 14-day vibration group still showed significant damage when compared to the sham control groups. CONCLUSION: The amount of damage to the myelin sheath directly correlated with vibration duration. When vibrated for longer than 7 days, nerve recovery was limited. This study also demonstrated that light microscopy of longitudinal slices is a simple yet effective method of quantifying the nerve damage.
Authors: M Cherniack; A J Brammer; T Nilsson; R Lundstrom; J D Meyer; T Morse; G Neely; D Peterson; E Toppila; N Warren; M Atwood-Sanders; C Michalak-Turcotte; U Abbas; H Bruneau; M Croteau; R W Fu Journal: Am J Ind Med Date: 2006-05 Impact factor: 2.214
Authors: Brian D Curry; James L W Bain; Ji-Geng Yan; Lin Ling Zhang; Mark Yamaguchi; Hani S Matloub; Danny A Riley Journal: Muscle Nerve Date: 2002-04 Impact factor: 3.217
Authors: Riitta Sauni; Pauliina Virtema; Rauno Pääkkönen; Esko Toppila; Ilmari Pyykkö; Jukka Uitti Journal: Int Arch Occup Environ Health Date: 2009-07-11 Impact factor: 3.015
Authors: Michael A Loffredo; Ji-Geng Yan; Dennis Kao; Lin Ling Zhang; Hani S Matloub; Danny A Riley Journal: Muscle Nerve Date: 2009-06 Impact factor: 3.217