Abstract
The formalin test is increasingly applied as a model of inflammatory pain using high formalin concentrations (5–15%). However, little is known about the effects of low formalin concentrations on related behavioural responses. To examine this, rat pups were subjected to various concentrations of formalin at four developmental stages: 7, 13, 22, and 82 days of age. At postnatal day (PND) 7, sex differences in flinching but not licking responses were observed with 0.5% formalin evoking higher flinching in males than in females. A dose response was evident in that 0.5% formalin also produced higher licking responses compared to 0.3% or 0.4% formalin. At PND 13, a concentration of 0.8% formalin evoked a biphasic response. At PND 22, a concentration of 1.1% evoked higher flinching and licking responses during the late phase (10–30 min) in both males and females. During the early phase (0–5 min), 1.1% evoked higher licking responses compared to 0.9% or 1% formalin. 1.1% formalin produced a biphasic response that was not evident with 0.9 or 1%. At PND 82, rats displayed a biphasic pattern in response to three formalin concentrations (1.25%, 1.75% and 2.25%) with the presence of an interphase for both 1.75% and 2.25% but not for 1.25%. These data suggest that low formalin concentrations induce fine-tuned responses that are not apparent with the high formalin concentration commonly used in the formalin test. These data also show that the developing nociceptive system is very sensitive to subtle changes in formalin concentrations.
Highlights
Animal models of pain are crucial for understanding the mechanisms that underlie the maturation of the nociceptive system
The early phase is traditionally considered to be the result of direct activation of C fibers by the formalin whereas the late phase is due to the release of inflammatory molecules and increased discharge of dorsal horn neurons [9,10]
The present study demonstrates that the behavioural responses to formalin vary depending on formalin concentration as well as age and sex
Summary
Animal models of pain are crucial for understanding the mechanisms that underlie the maturation of the nociceptive system. The formalin test is a model of acute and persistent pain and involves an inflammatory response with release of neurogenic molecules such as substance P, glutamate and TNFa in the spinal cord [1,2]. The early phase is traditionally considered to be the result of direct activation of C fibers by the formalin whereas the late phase is due to the release of inflammatory molecules and increased discharge of dorsal horn neurons [9,10] This characteristic biphasic response is seen in Ad and C fibers as they both exhibited increased firing activity in response to formalin injection during the early and late phases but not interphase [11,12]
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