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Tranexamic acid evokes pain by modulating neuronal excitability in the spinal dorsal horn
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AbstractTranexamic acid (TXA) is an antifibrinolytic agent widely used to reduce blood loss during surgery. However, a serious adverse effect of TXA is seizure due to inhibition of γ-aminobutyric acid (GABA) and glycine receptors in cortical neurons. These receptors are also present in the spinal cord and antagonism of these receptors in spinal dorsal horn neurons produces pain-related phenomena, such as allodynia and hyperalgesia, in experimental animals. Moreover, some patients who are injected intrathecally with TXA develop severe back pain. However, the effect of TXA on spinal dorsal horn neurons remain poorly understood. Here, we investigated the effects of TXA by using behavioral measures in rats and found that TXA produces behaviors indicative of spontaneous pain and mechanical allodynia. We then performed whole-cell patch-clamp experiments that showed that TXA inhibits GABAAand glycine receptors in spinal dorsal horn neurons. Finally, we also showed that TXA facilitates activation of the extracellular signal-regulated kinase in the spinal cord. These results indicated that TXA produces pain by inhibiting GABAAand glycine receptors in the spinal dorsal horn.
Springer Science and Business Media LLC
Title: Tranexamic acid evokes pain by modulating neuronal excitability in the spinal dorsal horn
Description:
AbstractTranexamic acid (TXA) is an antifibrinolytic agent widely used to reduce blood loss during surgery.
However, a serious adverse effect of TXA is seizure due to inhibition of γ-aminobutyric acid (GABA) and glycine receptors in cortical neurons.
These receptors are also present in the spinal cord and antagonism of these receptors in spinal dorsal horn neurons produces pain-related phenomena, such as allodynia and hyperalgesia, in experimental animals.
Moreover, some patients who are injected intrathecally with TXA develop severe back pain.
However, the effect of TXA on spinal dorsal horn neurons remain poorly understood.
Here, we investigated the effects of TXA by using behavioral measures in rats and found that TXA produces behaviors indicative of spontaneous pain and mechanical allodynia.
We then performed whole-cell patch-clamp experiments that showed that TXA inhibits GABAAand glycine receptors in spinal dorsal horn neurons.
Finally, we also showed that TXA facilitates activation of the extracellular signal-regulated kinase in the spinal cord.
These results indicated that TXA produces pain by inhibiting GABAAand glycine receptors in the spinal dorsal horn.
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