Inferior alveolar nerve (IAN) injury induces persistent ectopic pain which spreads to a wide area in the orofacial region. Its exact mechanism remains unclear. We investigated the involvement of nitric oxide (NO) in relation to ectopic orofacial pain caused by IAN transection (IANX). We assessed the changes in mechanical sensitivity of the whisker pad skin following IANX, neuronal nitric oxide synthase (nNOS) expression in the trigeminal ganglion (TG), and the functional significance of NO in relation to the mechanical allodynia following intra-TG administration of a chemical precursor to NO and selective nNOS inhibitors. IANX induced mechanical allodynia, which was diminished by intra-TG administration of selective nNOS inhibitors. NO metabolites and nNOS immunoreactive neurons innervating the lower lip were also increased in the TG. Intra-TG administration of nNOS substrate induced the mechanical allodynia. The present findings suggest that NO released from TG neurons regulates the excitability of TG neurons innervating the whisker pad skin, and the enhancement of TG neuronal excitability may underlie ectopic mechanical allodynia.
A study was conducted to evaluate the mechanisms underlying ectopic orofacial pain associated with tooth pulp inflammation in rats. We observed a significant decrease in the head withdrawal threshold (HWT) response to mechanical and heat stimuli applied to the ipsilateral facial skin upon application of complete Freund's adjuvant (CFA) to the upper first molar (M1TP) in comparison to application of vehicle. A large number of trigeminal ganglion (TG) neurons showed transient receptor potential vanilloid 1 (TRPV1) immunoreactivity (IR), and some of them were retrogradely labeled with fluorogold injected into the facial skin. A large number of cells showing IR for glial fibrillary acidic protein (GFAP) were observed in the 2nd compared to the 1st or 3rd branch regions of the TG, and TG cells innervating the facial skin were also surrounded by GFAP-IR cells. After administration of TRPV1 antagonist into the facial skin of M1TP CFA-treated rats, the decrease of HWTs in response to mechanical and heat stimulation of the facial skin was significantly reversed. The present findings suggest that the excitability of TG neurons is enhanced upon tooth pulp inflammation, leading to overexpression of TRPV1 in TG neurons innervating the facial skin, and that satellite glial cells are also activated, resulting in the development of ectopic orofacial pain.
A rat model of pulpitis/periapical periodontitis was used to study mechanisms underlying extraterritorial enhancement of masseter response associated with tooth inflammation. Periapical bone loss gradually increased and peaked at 6 weeks after complete Freund’s adjuvant (CFA) application to the upper molar tooth pulp (M1). On day 3, the number of Fos-immunoreactive (IR) cells was significantly larger in M1 CFA rats compared with M1 vehicle (veh) rats in the trigeminal subnucleus interpolaris/caudalis transition zone (Vi/Vc). The number of Fos-IR cells was significantly larger in M1 CFA and masseter (Mass) capsaicin applied (M1 CFA/Mass cap) rats compared with M1 veh/Mass veh rats in the contralateral Vc and Vi/Vc. The number of phosphorylated extracellular signal-regulated kinase (pERK)-IR cells was significantly larger in M1 CFA/Mass cap and M1 veh/Mass cap rats compared to Mass-vehicle applied rats with M1 vehicle or CFA in the Vi/Vc. Pulpal CFA application caused significant increase in the number of Fos-IR cells in the Vi/Vc but not Vc on week 6. The number of pERK-IR cells was significantly lager in the rats with capsaicin application to the Mass compared to Mass-vehicle treated rats after pulpal CFA- or vehicle-application. However, capsaicin application to the Mass did not further affect the number of Fos-IR cells in the Vi/Vc in pulpal CFA-applied rats. The digastric electromyographic (d-EMG) activity after Mass-capsaicin application was significantly increased on day 3 and lasted longer at 6 weeks after pulpal CFA application, and these increase and duration were significantly attenuated by i.t. PD98059, a MEK1 inhibitor. These findings suggest that Vi/Vc and Vc neuronal excitation is involved in the facilitation of extraterritorial hyperalgesia for Mass primed with periapical periodontitis or acute pulpal-inflammation. Furthermore, phosphorylation of ERK in the Vi/Vc and Vc play pivotal roles in masseter hyperalgesia after pulpitis or periapical periodontitis.
BackgroundThe mechanisms underlying tooth pulp hypersensitivity associated with masseter muscle hyperalgesia remain largely underinvestigated. In the present study, we aimed to determine whether masseter muscle contraction induced by daily electrical stimulation influences the mechanical head-withdrawal threshold and genioglossus electromyography activity caused by the application of capsaicin to the upper first molar tooth pulp. We further investigated whether astroglial glutamine synthesis is involved in first molar tooth pulp hypersensitivity associated with masseter muscle contraction.MethodsThe first molar tooth pulp was treated with capsaicin or vehicle in masseter muscle contraction or sham rats, following which the astroglial glutamine synthetase inhibitor methionine sulfoximine or Phosphate buffered saline (PBS) was applied. Astroglial activation was assessed via immunohistochemistry.ResultsThe mechanical head-withdrawal threshold of the ipsilateral masseter muscle was significantly decreased in masseter muscle contraction rats than in sham rats. Genioglossus electromyography activity was significantly higher in masseter muscle contraction rats than sham rats. Glial fibrillary acidic protein-immunoreactive cell density was significantly higher in masseter muscle contraction rats than in sham rats. Administration of methionine sulfoximine induced no significant changes in the density of glial fibrillary acidic protein-immunoreactive cells relative to PBS treatment. However, mechanical head-withdrawal threshold was significantly higher in masseter muscle contraction rats than PBS-treated rats after methionine sulfoximine administration. Genioglossus electromyography activity following first molar tooth pulp capsaicin treatment was significantly lower in methionine sulfoximine-treated rats than in PBS-treated rats. In the ipsilateral region, the total number of phosphorylated extracellular signal-regulated protein kinase immunoreactive cells in the medullary dorsal horn was significantly smaller upon first molar tooth pulp capsaicin application in methionine sulfoximine-treated rats than in PBS-treated rats.ConclusionsOur results suggest that masseter muscle contraction induces astroglial activation, and that this activation spreads from caudal to the obex in the medullary dorsal horn, resulting in enhanced neuronal excitability associated with astroglial glutamine synthesis in medullary dorsal horn neurons receiving inputs from the tooth pulp. These findings provide significant insight into the mechanisms underlying tooth pulp hypersensitivity associated with masseter muscle contraction.
BACKGROUND In Japan, individuals with a mild COVID-19 illness were supposed to be monitored in designated areas and were hospitalized only if their condition worsened to moderate illness I or worse. Daily monitoring using a pulse oximeter was a crucial indicator for hospitalization. However, a drastic increase in the number of patients resulted in a shortage of pulse oximeters for monitoring. Therefore, an alternative and cost-effective method for monitoring mild-illness patients was required. As voice biomarkers for Parkinson's disease or Alzheimer's disease are known to be significant for classifying or monitoring symptoms, they may be adaptable for classifying the severity of COVID-19 because it is a respiratory disease, and it has been reported that acoustic changes in the voice occur with this disease. In this study, voices are considered via their wave-like features using two-dimensional parameters, and we attempt to classify them in terms of their similarity between the waveforms of voices of mild-illness and moderate-illness I patients using a dynamic time warping (DTW) algorithm. OBJECTIVE This feasibility study aimed to test whether DTW-based voice biomarkers can be used to obtain a binary classification of mild illness and moderate illness I for COVID-19 at a significant level. METHODS Participants who agreed to participate in this study (n = 295) were infected by COVID-19 between July 2021 and June 2022 and were aged 20 years or older under recuperation in the Kanagawa Prefecture. In total, 110 participants were finally selected according to their age, sex, and time of occurrence of the variant and severity of their conditions as mild illness (61) or moderate illness I (49). Three kinds of long vowels were obtained from the patients, and as a preprocessing step, each voice was cut into a 10-cycle waveform and then standardized to the power (amplitude) and time axes. The DTW distances obtained for a given waveform (x) in combination with the remaining 109 waveforms (110-x) were divided into two groups according to the severity labels of the 109 waveforms. The average and variance of the two groups were then calculated as four indices associated with a single waveform of x. Among the 12 indices (four indices per vowel multiplied by three vowels), the significant indices for classification were determined using the Mann-Whitney U-test, linear discrimination analysis (LDA), and confusion matrix. Those indices were used as predictors for a generalized logistic model (GLM) as a classification model using a five-fold cross-validation method. Predictive validation of the model was confirmed using the confusion matrix and the receiver operating characteristic curve /the area under the curve (ROC/AUC). RESULTS The proposed DTW-distance-based GLM achieved a high balance accuracy of the confusion matrix for three vowels, ranging from 80.2% to 88.0%, and AUC ranged from 86.5% to 96.5%. CONCLUSIONS The proposed model may be a useful tool for monitoring the progress of COVID-19 patients in care.
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