Why Labor Epidural Causes Fever and Why Lidocaine Burns on Injection? Role of Trpv1 Receptor in Hyperthermia: Possible Explanation of Mechanism of Hyperthermia during Labor Epidural and Burning Sensation on Injection of Local Anesthetics

The mechanisms of epidural-associated fever remain incompletely understood [1-3]. We propose that action of local anesthetic on TPRV1. The transient receptor potential cation channel subfamily V member 1 (TRPV1), also known as the capsaicin receptor and the vanilloid receptor can explain this effect and explain mechanism of burning sensation on local anesthetic injected subcutaneously or intramuscular. Role of TRPV1 receptor was not discussed previously in Ob-stetric Anesthesia literature. Based on available data, we propose that Local Anesthetics work as agonist/antagonist on TPRV1 receptors. Antagonist action may cause hyperthermia through modifying thermoregulation [4], agonist action may cause hyperthermia thru release of IL-6 and other mediators of inflammation [5-10]. Agonist action may explain burning sensation on injection of Local Anesthetics. Burning sensation can be diminished by increasing pH of Local Anesthetic solution, because vanillin receptors are stimulated by acidification through lower pH [11,12].


Introduction 1.Background
We found that to the best of our knowledge role of TRPV1 receptor was not addressed in obstetric anesthesia or obstetric reviews dedicated to the explanation of hyperthermia caused by labor epidural.We put together this review of literature to bring to attention of our colleagues, obstetric anesthesiologists and obstetricians, role of TRPV1 receptor in genesis of hyperthermia caused by labor epidural.

Methods
Articles in areas close to obstetric anesthesia, including pharmacology and physiology were reviewed, using Pub-Med service online.

Results
We found that acknowledging role of TRPV1 receptor offers explanation to mechanism of hyperthermia caused by labor epidural.

Mechanisms Proposed in Literature
Significant research advances were made in the last 18 months around the topic of epidural-related fever, but major gaps in knowledge persist especially with understanding the precise mechanism.The most pressing area of research is the development of well tolerated and effective prophylactic interventions to prevent maternal and fetal exposure to hyperthermia and inflammation.
Overall, 18.5% of women had a temperature more than 100.4˚Fdevelop during labor.However, only 4.5% of women in this low-risk population had microbiologicproven chorioamnionitis.Whereas women with epidural were far more likely to have intrapartum fever develop, 22.7% with epidural compared with 6.0% no epidural, the use of epidural analgesia was not associated with infection [13].
Elevation in maternal body temperature can be seen in a subset of laboring women in as little as 1 hour after administration of epidural analgesia.However, it is esti- Recent research has focused on the inflammation and oxidative stress seen in women who develop intrapartum fever.Earlier work revealed that levels of interleukin-6 (IL-6), a proinflammatory cytokine, are elevated in women who receive epidural analgesia and become febrile.A longer duration of epidural infusion is associated with higher levels of IL-6, whereas this elevation is not seen with longer duration of labor without epidural.This suggests that the epidural itself induces an inflammatory response; the response is not a physiologic process of labor.Similar findings with additional proinflammatory mediators and reactive oxygen species seem to support this theory.
Epidural analgesia also appears to affect the body's thermoregulatory mechanisms.That epidurals cause an increase in shivering has been well-documented, but epidural analgesia also seems to be associated with a decrease in heat dissipation via sweating and hyperventilation, most likely due to a blockade of sympathetic stimulation.However, because epidurals have been reliably shown to diminish thermoregulatory capacity, it is probable that these factors contribute to the development of the associated fever.
Finally, there remains the possibility that a subclinical chorioamnionitis might underlie a subset of maternal intrapartum fevers.Women may be more likely to request an epidural if they are experiencing symptoms of subclinical chorioamnionitis, such as uterine tenderness.
Role of TRPV1 receptor was not mentioned in Obstetric Anesthesia literature known to us.

Action of Local Anesthetics on TRPV1 Receptor
C fibers are found in the nerves of the somatic sensory system [1].They are afferent fibers, conveying input signals from the periphery to the central nervous system [2].C fibres are unmyelinated unlike most other fibers in the nervous system.
C fibers are considered polymodal because they can respond to thermal, mechanical, and chemical stimuli [1].C fibers respond to all kinds of physiological changes in the body.For example, they can respond to hypoxia, hy-poglycemia, hypo-osmolarity, the presence of muscle metabolic products, and even light or sensitive touch [5].C fiber receptors include:  C fiber nociceptors, responsible for the second, burning pain. C fiber warming specific receptors, responsible for warmth.

Methods
Articles found on PubMed on topics dedicated to hyperthermia caused by labor epidural and TRPV1 were reviewed and quoted.

Conclusions
The vanilloid receptor (VR-1, TRPV1) is a receptor that is found on the free nerve endings of both C and Aδ fibers that responds to elevated levels of heat (>43˚C) and the chemical capsaicin [14].Capsaicin activates C fibers by opening a ligand-gated ion channel and causing an action potential to occur [14].Because this receptor responds to both capsaicin and heat, chili peppers are sensed as hot [14].VR-1 is also able to respond to extracellular acidification and can integrate simultaneous exposure to all three sensory stimuli [14].VR-1 is essential for the inflammatory sensitization to noxious thermal stimuli.The transient receptor potential (TRP) family comprises a diverse group of cation channels that regulate a variety of intracellular signaling pathways.The TRPV1 (vanilloid 1) channel is best known for its role in nociception and sensory transmission.First studied in the dorsal root ganglia as the receptor for capsaicin, TRPV1 is now recognized to have a broader distribution and function within the central nervous system (CNS) [15].TRPV1 regulates vasomotor tone and metabolic heat production [4].Blocking this receptor elicits marked hyperthermia in humans [4].
Local anesthetics (LAs) block the generation and propagation of action potentials by interacting with specific sites of voltage-gated Na(+) channels.LAs can also excite sensory neurons and be neurotoxic through mechanisms that are as yet undefined.Nonspecific cation channels of the transient receptor potential (TRP) channel family that are predominantly expressed by nociceptive sensory neurons render these neurons sensitive to a variety of insults.It was demonstrated that the LA lidocaine activated TRP channel family receptors TRPV1 [16].Lidocaine also induced a TRPV1-dependent release of calcitonin gene-related peptide (CGRP) from isolated skin and peripheral nerve.These data identify TRPV1 as putative key elements of LA-induced nociceptor excitation.This effect is sufficient to release CGRP, a key component of neurogenic inflammation, and warrants investigation into the role of TRPV1 in LA-induced neurotoxicity [16].Stimulation of TRPV1 stimulates microglial production of IL-6, other cytokines, IL-8, Kinin B1 [4,[14][15][16][17] involved in inflammation process.Lidocaine produces a short-lasting nonselective sensory and motor block in keeping with its nonselective sodium channel blocker action.However, lidocaine also acts as an agonist for the TRPV1 receptor [17].RPV1 is also expressed at high levels in the central nervous system and has been proposed as a target for treatment not only of pain but also for other conditions such as anxiety [18].Furthermore TRPV1 appears to mediate long term depression (LTD) in the hippocampus [19].LTD has been linked to a decrease in the ability to make new memories, unlike its opposite long term potentiation (LTP), which aids in memory formation.A dynamic pattern of LTD and LTP occurring at many synapses provides a code for memory formation.Longterm depression and subsequent pruning of synapses with reduced activity is an important aspect of memory formation.In rat brain slices, activation of TRPV1 with heat or capsaicin induced LTD while capsazepine blocked capsaicin's ability to induce LTD [19].In the brain stem (solitary tract nucleus), TRPV1 controls the asynchronous and spontaneous release of glutamate from unmyelinated cranial visceral afferents-release processes that are active at normal temperatures and hence quite distinct from TRPV1 responses in painful heat [20].Hence there may be therapeutic potential in modulating TRPV1 in the central nervous system, perhaps as a treatment for epilepsy (TRPV1 is already a target in the peripheral nervous system for pain relief).

Discussion
Based on available literature, we propose that Local Anesthetics work as agonist/antagonist on TPRV1 receptors.Antagonist action may cause hyperthermia through modifying thermoregulation [4], agonist action may cause hyperthermia thru release of IL-6 and other mediators of inflammation [5,7,9,10,15,16,21].Agonist action may explain burning sensation on injection of Local Anesthetics.Burning sensation can be diminished by increasing pH of Local Anesthetic solution, because vanillin receptors are stimulated by acidification through lower pH [11,12].We hope that this review will bring more attention of our colleagues in Obstetric anesthesia and in Ob/Gyn to role of TRPV1 receptor, missing link between labor epidural and hyperthermia.The most interesting fact in Binshtock [17] is that TRPV1 receptor is located on sensory neurons only, not on motor neurons.It opens future possibilities to create only sensory block and avoid motor block.Another issue is confusion in defining this phenomenon of increased temperature.Should it be labeled "hyperthermia" or "fever"?Difference is important.Hyperthermia differs from fever in the mechanism that causes the elevated body temperatures: fever is caused by a change in the body's temperature set-point in hypothalamus.More studies are needed in that direction and for constructing reasonable concept of mechanism of this phenomenon.
OJAnes Why Labor Epidural Causes Fever and Why Lidocaine Burns on Injection?Role of TRPV1 Receptor in Hyperthermia: Possible Explanation of Mechanism of Hyperthermia during Labor Epidural and 136 Burning Sensation on Injection of Local Anesthetics Copyright © 2012 SciRes.