Heather L. Rossi scite author profile

Orofacial pain has been well-characterized clinically, but evaluation of orofacial pain in animals has not kept pace. The objective of this study was to describe behavioral responses to facial thermal stimulation and inflammation with/without an analgesic using a novel operant paradigm. Animals were trained to voluntarily place their face against a stimulus thermode (37.7-57.2 degrees C) providing access to positive reinforcement. These contingencies present a conflict between positive reward and tolerance for nociceptive stimulation. Inflammation was induced and morphine was provided as an analgesic in a subset of animals. Six outcome measures were determined: reward intake, reward licking contacts, stimulus facial contacts, facial contact duration, ratio of reward/stimulus contacts, and ratio of facial contact duration/event. Animals displayed aversive behaviors to the higher temperatures, denoted by a significant decrease in reward intake, total facial contact duration, and reward licking events. The number of facial contacts increased with increasing temperature, replacing long drinking bouts with more frequent short drinks, as reflected by a low ratio of facial contact duration/event. The number of reward licking/facial contact events was significantly decreased as the thermal stimulus intensity increased, providing another pain index derived from this operant method. These outcomes were significantly affected in the direction of increased nociception following inflammation, and these indices of hyperalgesia were reversed with morphine administration. These data reflect an orofacial pain behavior profile that was based on an animal's responses in an operant escape paradigm. This technique allows evaluation of nociceptive processing and modulation throughout the neuraxis.

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Characterization of Mouse Orofacial Pain and the Effects of Lesioning TRPV1-Expressing Neurons on Operant Behavior

Neubert

King

Malphurs

et al. 2008

Mol Pain

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Background: Rodent models of orofacial pain typically use methods adapted from manipulations to hind paw; however, limitations of these models include animal restraint and subjective assessments of behavior by the experimenter. In contrast to these methods, assessment of operant responses to painful stimuli has been shown to overcome these limitations and expand the breadth of interpretation of the behavioral responses. In the current study, we used an operant model based on a reward-conflict paradigm to assess nociceptive responses in three strains of mice (SKH1-Hr hr , C57BL/6J, TRPV1 knockout). We previously validated this operant model in rats and hypothesized in this study that wildtype mice would demonstrate a similar thermal stimulus-dependent response and similar operant pain behaviors. Additionally, we evaluated the effects on operant behaviors of mice manipulated genetically (e.g., TRPV1 k.o.) or pharmacologically with resiniferatoxin (RTX), a lesioning agent for TRPV1-expressing neurons. During the rewardconflict task, mice accessed a sweetened milk reward solution by voluntarily position their face against a neutral or heated thermode (37-55°C).

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Characterization of Cold Sensitivity and Thermal Preference Using an Operant Orofacial Assay

et al. 2006

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Background: A hallmark of many orofacial pain disorders is cold sensitivity, but relative to heatrelated pain, mechanisms of cold perception and the development of cold allodynia are not clearly understood. Molecular mediators of cold sensation such as TRPM8 have been recently identified and characterized using in vitro studies. In this study we characterized operant behavior with respect to individually presented cold stimuli (24, 10, 2, and -4°C) and in a thermal preference task where rats chose between -4 and 48°C stimulation. We also evaluated the effects of menthol, a TRPM8 agonist, on operant responses to cold stimulation (24, 10, and -4°C). Male and female rats were trained to drink sweetened milk while pressing their shaved faces against a thermode. This presents a conflict paradigm between milk reward and thermal stimulation.

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Differentiation between capsaicin-induced allodynia and hyperalgesia using a thermal operant assay

Neubert

Rossi

Malphurs

et al. 2006

Behavioural Brain Research

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The effect of glucagon-like peptide 2 on intestinal permeability and bacterial translocation in acute necrotizing pancreatitis

Kouris

Liu

Rossi

et al. 2001

The American Journal of Surgery

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Abnormal trigeminal sensory processing in obese mice

Rossi

Broadhurst

Luu

et al. 2016

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Obesity increases nociceptive activation of the trigeminal system

Rossi

Luu

DeVilbiss

et al. 2012

European Journal of Pain

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Background Obesity is a risk factor associated with several pain syndromes. However, the mechanisms underlying the association between obesity and pain are not known. The aim of this study is to test the hypothesis that obesity enhances neuronal responses to nociceptive stimulation within the trigeminal nucleus caudalis (TNC). Methods Male and female C57BL/6J mice were fed a high fat or regular diet from the time of weaning until 20 weeks of age. We then quantified neuronal activation by measuring Fos immunoreactivity within the TNC in response to a facial injection of a low dose of capsaicin (1 ug/10ul). Results We found that 0.01% capsaicin did not significantly increase Fos immunoreactivity in control mice fed a regular diet. In contrast, this low dose of capsaicin caused a 3.3-fold increase in Fos in the TNC in obese mice (P < 0.001). Conclusions These results support the hypothesis that diet-induced obesity in mice enhances nociceptive processing within the TNC. Diet induced obesity may be a useful model for mechanistic studies. Future studies will improve our understanding of how obesity may contribute to trigeminal pain by sensitizing the trigeminal nociceptive system.

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Characterization of bilateral trigeminal constriction injury using an operant facial pain assay

et al. 2012

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In order to better understand and treat neuropathic pain, scientific study must use methods that can assess pain processing at the cortical level where pain is truly perceived. Operant behavior paradigms can accomplish this. We used an operant task to evaluate changes following chronic constriction injury to the trigeminal nerves. We also relate these behavioral changes to immunohistochemistry of transient receptor potential channels vanilloid 1 and melastatin 8 (TRPV1 and TRPM8) in the trigeminal ganglia. Following nerve injury, successful performance of the operant task was reduced and aversive behaviors were observed with 10 and 37°C stimulation, indicating cold allodynia and mechanical allodynia respectively. In contrast, while aversive behaviors were observed with 48°C stimulation, successful performance of the operant task was not substantially hindered following injury. These behavioral changes were accompanied by an increase in TRPV1 positive cells and an increased intensity of TRPM8 staining at two weeks post-injury, when cold allodynia is maximal. These findings suggest that the incorporation of operant behavioral assessment in the study of pain may provide insight into the relationship among peripheral changes, motivational drive, and pain. Understanding this relationship will allow us to better treat and prevent chronic neuropathic pain.

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Heather L. Rossi

Use of a novel thermal operant behavioral assay for characterization of orofacial pain sensitivity

Characterization of Mouse Orofacial Pain and the Effects of Lesioning TRPV1-Expressing Neurons on Operant Behavior

Characterization of Cold Sensitivity and Thermal Preference Using an Operant Orofacial Assay

Differentiation between capsaicin-induced allodynia and hyperalgesia using a thermal operant assay

The effect of glucagon-like peptide 2 on intestinal permeability and bacterial translocation in acute necrotizing pancreatitis

Abnormal trigeminal sensory processing in obese mice

Obesity increases nociceptive activation of the trigeminal system

Characterization of bilateral trigeminal constriction injury using an operant facial pain assay

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