Shelley L. Davies scite author profile

We have previously carried out detailed characterization and identification of Fos expression within the trigeminal nucleus after tooth pulp stimulation in ferrets. The aim of this study was to determine the effect of pulpal inflammation on the excitability of central trigeminal neurons following tooth pulp stimulation. Adult ferrets were prepared under anesthesia to allow tooth pulp stimulation, recording from the digastric muscle, and intravenous injections at a subsequent experiment. In some animals, pulpal inflammation was induced by introducing human caries into a deep buccal cavity. After 5 d, animals were re-anaethetized, and the teeth were stimulated at 10 times the threshold of the jaw-opening reflex. Stimulation of all tooth pulps induced ipsilateral Fos in the trigeminal subnuclei caudalis and oralis. All non-stimulated animals showed negligible Fos labeling, with no differences recorded between inflamed and non-inflamed groups. Following tooth pulp stimulation, Fos expression was greater in animals with inflamed teeth than in animals with non-inflamed teeth, with the greatest effect seen in the subnucleus caudalis. These results suggest that inflammation increases the number of trigeminal brainstem neurons activated by tooth pulp stimulation; this may be mediated by peripheral or central mechanisms.

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Characterization of a model of cutaneous inflammatory pain produced by an ultraviolet irradiation-evoked sterile injury in the rat

Davies

Siau

Bennett

2005

Journal of Neuroscience Methods

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Defning a holistic pain-relieving approach to wound care via a drug free polymeric membrane dressing

Davies

White

2011

J Wound Care

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Wound care practice continuously demonstrates that healing cannot be adequately controlled if a patient's experience of pain is not managed effectively. Current pain management guidelines do not account for the holistic treatment of pain emanating from a wound-an environment of uncontrolled or rogue inflammation, neuropathy and neuroischaemia. This article investigates how polymeric membrane dressings can interact with the pathology of wounds to correct abnormalities in pain pathways of the nervous system and dampen problematic ongoing pain to enhance the clinical picture of wound healing.

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Shelley L. Davies

Drug discovery targets: 5-HT6 receptor

Changes in sodium channel expression following trigeminal nerve injury

The effect of inflammation on Fos expression in the ferret trigeminal nucleus

Characterization of a model of cutaneous inflammatory pain produced by an ultraviolet irradiation-evoked sterile injury in the rat

Defning a holistic pain-relieving approach to wound care via a drug free polymeric membrane dressing

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