AIMS: To investigate whether local administration of nerve growth factor (NGF) decreases the mechanical threshold (MT) of putative nociceptive masseter afferent fibers as part of its mechanism of mechanical sensitization. METHODS: Electrophysiologic recordings were made from masseter afferents and a randomized, blinded approach was used to test the effects of intramuscular injection of NGF (2.5 or 25 microg/mL) into the rat masseter muscle on the MT of masseter afferents (n=65) and plasma protein extravasation. RESULTS: The plasma protein extravasation data and electrophysiological recordings indicated that rat NGF injection was not inflammatory and did not evoke afferent discharge or induce mechanical sensitization (as reflected in a decreased MT) in masseter afferents in either male or female rats. To investigate whether the lack of effect of NGF injection might be due to differences between human and rat NGF, additional experiments with human NGF injection (25 microg/mL) were undertaken. Intramuscular injection of human NGF into the rat masseter muscle also failed to evoke afferent discharges; however, it did decrease the MT of masseter afferent fibers. CONCLUSION: The finding that neither rat nor human NGF excited putative nociceptive masseter afferent fibers is consistent with a previous report that intramuscular NGF injections are not acutely painful in human subjects. The ability of human NGF injection into the rat masseter muscle to induce afferent mechanical sensitization suggests that this experimental approach may be useful for the study of peripheral mechanisms of myofascial pain and tenderness associated with temporomandibular disorders.
AIMS: To investigate whether local administration of nerve growth factor (NGF) decreases the mechanical threshold (MT) of putative nociceptive masseter afferent fibers as part of its mechanism of mechanical sensitization. METHODS: Electrophysiologic recordings were made from masseter afferents and a randomized, blinded approach was used to test the effects of intramuscular injection of NGF (2.5 or 25 microg/mL) into the rat masseter muscle on the MT of masseter afferents (n=65) and plasma protein extravasation. RESULTS: The plasma protein extravasation data and electrophysiological recordings indicated that ratNGF injection was not inflammatory and did not evoke afferent discharge or induce mechanical sensitization (as reflected in a decreased MT) in masseter afferents in either male or female rats. To investigate whether the lack of effect of NGF injection might be due to differences between human and ratNGF, additional experiments with humanNGF injection (25 microg/mL) were undertaken. Intramuscular injection of humanNGF into the rat masseter muscle also failed to evoke afferent discharges; however, it did decrease the MT of masseter afferent fibers. CONCLUSION: The finding that neither rat nor humanNGF excited putative nociceptive masseter afferent fibers is consistent with a previous report that intramuscular NGF injections are not acutely painful in human subjects. The ability of humanNGF injection into the rat masseter muscle to induce afferent mechanical sensitization suggests that this experimental approach may be useful for the study of peripheral mechanisms of myofascial pain and tenderness associated with temporomandibular disorders.
Authors: Brian E Cairns; Xudong Dong; Mandeep K Mann; Peter Svensson; Barry J Sessle; Lars Arendt-Nielsen; Keith M McErlane Journal: Pain Date: 2007-03-01 Impact factor: 6.961
Authors: William R Reed; Joshua W Little; Carla R Lima; Robert E Sorge; Ceren Yarar-Fisher; Mualla Eraslan; Christopher P Hurt; Timothy J Ness; Jianguo G Gu; Daniel F Martins; Peng Li Journal: Front Neurosci Date: 2020-04-30 Impact factor: 4.677
Authors: David A Seminowicz; Katarzyna Bilska; Nahian S Chowdhury; Patrick Skippen; Samantha K Millard; Alan K I Chiang; Shuo Chen; Andrew J Furman; Siobhan M Schabrun Journal: Pain Rep Date: 2020-07-27