Noboru Noma

Astroglia in Medullary Dorsal Horn (Trigeminal Spinal Subnucleus Caudalis) Are Involved in Trigeminal Neuropathic Pain Mechanisms

The aim of this study was to investigate whether astroglia in the medullary dorsal horn (trigeminal spinal subnucleus caudalis; Vc) may be involved in orofacial neuropathic pain following trigeminal nerve injury. The effects of intrathecal administration of the astroglial aconitase inhibitor sodium fluoroacetate (FA) were tested on Vc astroglial hyperactivity [as revealed by glial fibrillary acid protein (GFAP) labeling], nocifensive behavior, Vc extracellular signal-regulated kinase phosphorylation (pERK), and Vc neuronal activity in inferior alveolar nerve-transected (IANX) rats. Compared with sham-control rats, a significant increase occurred in GFAP-positive cells in ipsilateral Vc at postoperative day 7 in IANX rats, which was prevented following FA administration. FA significantly increased the reduced head withdrawal latency to high-intensity heat stimulation of the maxillary whisker pad skin in IANX rats, although it did not significantly affect the reduced escape threshold to low-intensity mechanical stimulation of the whisker skin in IANX rats. FA also significantly reduced the increased number of pERK-like immunoreactive cells in Vc and the enhanced Vc nociceptive neuronal responses following high-intensity skin stimulation that were documented in IANX rats, and glutamine administration restored the enhanced responses. These various findings provide the first documentation that astroglia is involved in the enhanced nociceptive responses of functionally identified Vc nociceptive neurons and in the associated orofacial hyperalgesia following trigeminal nerve injury.

Organization of pERK-immunoreactive cells in trigeminal spinal nucleus caudalis and upper cervical cord following capsaicin injection into oral and craniofacial regions in rats

To define the somatotopic arrangement of neurons in the trigeminal spinal subnucleus caudalis and upper cervical cord activated by acute noxious stimulation of various orofacial sites, pERK expression was analyzed in these neurons. After capsaicin injection into the tongue, lower gum, upper and lower lips, or mental region, pERK‐like immunoreactive (pERK‐LI) cells were distributed mainly in the dorsal half of the trigeminal spinal nucleus interporalis (Vi) and caudalis (Vc) transition zone (Vi/Vc zone), middle Vc, and Vc and upper cervical cord transition zone (Vc/C2 zone). pERK‐LI cells were distributed throughout the dorsal to ventral portion of the Vi/Vc zone, middle Vc, and Vc/C2 zone following capsaicin injection into the anterior hard palate, upper gum, buccal mucosa, or vibrissal pad and in the ventral portion of the Vi/Vc zone, middle Vc, and Vc/C2 zone following snout, ophthalmic, or ocular injection of capsaicin. The rostrocaudal distribution area of pERK‐LI cells was more extensive from the Vi/Vc zone to the Vc/C2 zone after intraoral injection than that after facial injection, and the rostrocaudal distribution of pERK‐LI cells from the Vi/Vc zone to the Vc/C2 zone had a somatotopic arrangement, with the snout being represented most rostrally and ophthalmic, ocular, or mental regions represented most caudally. These findings suggest that the pERK‐LI cells expressed from the Vi/Vc zone to the Vc/C2 zone following injection of capsaicin in facial and intraoral structures may be differentially involved in pain perception in facial and intraoral sites. J. Comp. Neurol. 507:1428–1440, 2008.

Predictability of Painful Stimulation Modulates Subjective and Physiological Responses

UNLABELLED Clinical observations suggest that the perceived intensity of a painful event increases as the unpredictability of its occurrence increases. We examined the effect of varying stimulus predictability on the Somatosensory Evoked Potential (SEP), Pupil Diameter Response (PDR), Pain Report (PR), and Fear Report (FR) in 25 healthy female volunteers experiencing repeated noxious fingertip shocks. Each volunteer underwent high- and low-stimulus intensities in 4 stimulus patterns defined by stimulus sequence (SEQ) and interstimulus interval (ISI) as follows: A) serial stimulus intensity SEQ with fixed ISI; B) serial stimulus intensity SEQ with varied ISI; C) random stimulus intensity SEQ with fixed ISI; and D) random stimulus intensity SEQ with varied ISI. Results revealed that: (1) lower stimulus predictability led to higher PR and FR, greater PDR magnitude, and greater SEP amplitude; and (2) the 4 dependent measures showed the same response pattern across levels of stimulus predictability. These findings support the hypothesis that lower stimulus predictability is associated with higher reported pain and fear as well as greater physiological arousal. PERSPECTIVE Patients undergoing painful procedures experience more distress when the occurrence of a painful event is unpredictable. Poor predictability increases pain, fear, and associated physiological arousal. Maximizing the predictability of painful events may improve the quality of patient care by minimizing associated levels of pain and fear.

Fractalkine Signaling in Microglia Contributes to Ectopic Orofacial Pain following Trapezius Muscle Inflammation

Fractalkine (FKN) signaling is involved in mechanical allodynia in the facial skin following trapezius muscle inflammation. Complete Freunds adjuvant (CFA) injection into the trapezius muscle produced mechanical allodynia in the ipsilateral facial skin that was not associated with facial skin inflammation and resulted in FKN but not FKN receptor (CX3CR1) expression, and microglial activation was enhanced in trigeminal spinal subnucleus caudalis (Vc) and upper cervical spinal cord (C1–C2). Intra-cisterna magna anti-CX3CR1 or anti-interleukin (IL)-1β neutralizing antibody administration decreased the enhanced excitability of Vc and C1–C2 neurons in CFA-injected rats, whereas intra-cisterna magna FKN administration induced microglial activation and mechanical allodynia in the facial skin. IL-1β expression and p38 mitogen-activated protein kinase phosphorylation were enhanced in activated microglia after CFA injection. The excitability of neurons whose receptive fields was located in the facial skin was significantly enhanced in CFA-injected rats, and the number of cells expressing phosphorylated extracellular signal-regulated kinase (pERK) following noxious mechanical stimulation of the facial skin was significantly increased in Vc and C1–C2. We also observed mechanical allodynia of the trapezius muscle as well as microglial activation and increased pERK expression in C2–C6 after noxious stimulation of the trapezius muscle in facial skin-inflamed rats. These findings suggest that FKN expression was enhanced in Vc and C1–C2 or C2–C6 following trapezius muscle or facial skin inflammation, microglia are activated via FKN signaling, IL-1β is released from the activated microglia, and the excitability of neurons in Vc and C1–C2 or C2-C6 is enhanced, resulting in the ectopic mechanical allodynia.

TRPA1 contributes to capsaicin-induced facial cold hyperalgesia in rats.

Orofacial cold hyperalgesia is known to cause severe persistent pain in the face following trigeminal nerve injury or inflammation, and transient receptor potential (TRP) vanilloid 1 (TRPV1) and TRP ankylin 1 (TRPA1) are thought to be involved in cold hyperalgesia. However, how these two receptors are involved in cold hyperalgesia is not fully understood. To clarify the mechanisms underlying facial cold hyperalgesia, nocifensive behaviors to cold stimulation, the expression of TRPV1 and TRPA1 in trigeminal ganglion (TG) neurons, and TG neuronal excitability to cold stimulation following facial capsaicin injection were examined in rats. The head-withdrawal reflex threshold (HWRT) to cold stimulation of the lateral facial skin was significantly decreased following facial capsaicin injection. This reduction of HWRT was significantly recovered following local injection of TRPV1 antagonist as well as TRPA1 antagonist. Approximately 30% of TG neurons innervating the lateral facial skin expressed both TRPV1 and TRPA1, and about 64% of TRPA1-positive neurons also expressed TRPV1. The TG neuronal excitability to noxious cold stimulation was significantly increased following facial capsaicin injection and this increase was recovered by pretreatment with TRPA1 antagonist. These findings suggest that TRPA1 sensitization via TRPV1 signaling in TG neurons is involved in cold hyperalgesia following facial skin capsaicin injection.

Involvement of peripheral ionotropic glutamate receptors in orofacial thermal hyperalgesia in rats

BackgroundThe purpose of the present study was to elucidate the mechanisms that may underlie the sensitization of trigeminal spinal subnucleus caudalis (Vc) and upper cervical spinal cord (C1-C2) neurons to heat or cold stimulation of the orofacial region following glutamate (Glu) injection.ResultsGlu application to the tongue or whisker pad skin caused an enhancement of head-withdrawal reflex and extracellular signal-regulated kinase (ERK) phosphorylation in Vc-C2 neurons. Head-withdrawal reflex and ERK phosphorylation were also enhanced following cold stimulation of the tongue but not whisker pad skin in Glu-injected rats, and the head-withdrawal reflex and ERK phosphorylation were enhanced following heat stimulation of the tongue or whisker pad skin. The enhanced head-withdrawal reflex and ERK phosphorylation after heat stimulation of the tongue or whisker pad skin, and those following cold stimulation of the tongue but not whisker pad skin were suppressed following ionotropic glutamate receptor antagonists administration into the tongue or whisker pad skin. Furthermore, intrathecal administration of MEK1/2 inhibitor PD98059 caused significant suppression of enhanced head-withdrawal reflex in Glu-injected rats, heat head-withdrawal reflex in the rats with Glu injection into the tongue or whisker pad skin and cold head-withdrawal reflex in the rats with Glu injection into the tongue.ConclusionsThe present findings suggest that peripheral Glu receptor mechanisms may contribute to cold hyperalgesia in the tongue but not in the facial skin, and also contribute to heat hyperalgesia in the tongue and facial skin, and that the mitogen-activated protein kinase cascade in Vc-C2 neurons may be involved in these Glu-evoked hyperalgesic effects.

Immune and Endocrine Function in Patients With Burning Mouth Syndrome

Objectives:Research suggests that varied etiologic factors are responsible for burning mouth syndrome (BMS). We examined the role of immune and endocrine function in the pathology of BMS. Methods:We conducted a case-control study to evaluate immune (lymphocyte subpopulations) and endocrine (hypothalamus-pituitary-adrenal axis and sympathetic-adrenomedullary system) function in 47 female BMS patients and 47 age-matched female controls presenting at an university clinic. Psychological state was assessed with the Zung Self-Rating Depression Scale and Taylor Manifest Anxiety Scale. Results:BMS patients were significantly more anxious than controls (P=0.011). Plasma adrenaline level was significantly lower (P=0.020) in BMS patients than in controls, and linear regression analysis of all patients combined revealed that depression level was significantly positively associated with plasma noradrenaline and cortisol levels (P=0.002 and 0.001, respectively). However, as compared with controls, BMS patients had a significantly lower CD8(+) cell count (P<0.001) and a significantly higher CD4/CD8 ratio (P=0.002). Discriminant analysis revealed that CD8(+) cell count and CD4/CD8 ratio were independent variables that distinguished BMS patients from controls. Discussion:The immunoendocrine system is substantially involved, and may have a key role, in the mechanism of chronic pain in BMS patients. Immune function was significantly and specifically suppressed in BMS, although the hypothalamic-pituitary-adrenal axis and sympathetic nervous system were predominantly activated by psychological stress that was not specific to BMS.

Interaction of IL-1β and P2X(3) receptor in pathologic masseter muscle pain.

The exact mechanism underlying chronic masseter muscle pain, a conspicuous symptom in temporomandibular disorder, remains unclear. We investigated whether expression of P2X3 receptor (P2X3R) is involved in mechanical hyperalgesia after contraction of masseter muscle (CMM). As compared with sham rats, the head-withdrawal threshold (HWT) to mechanical pressure stimulation of masseter muscle (MM) (but not after similar stimulation of facial skin) was significantly lower, and IL-1β level was significantly higher, in CMM rats on day 7 after CMM. The mean percentage of FG-labeled P2X3R-positive neurons was significantly increased in TG following successive IL-1β injections into the MM for 7 days. Successive administration of an IL-1β receptor-antagonist into the MM attenuated the increase of P2X3-IR cells in the TG. ATP release from MM after 300-g pressure stimulation of MM was also significantly enhanced after CMM. Administration into MM of the selective P2X3,2/3 receptor antagonist A-317491 attenuated the decrement of HWT in CMM rats. A significant increase in HWT was also observed at 30 min after A-317491 (60 µg) injection in IL-1β-injected rats. These findings suggest that P2X3R expression associated with enhanced IL-1β expression and ATP release in MM has a possible important role in MM mechanical hyperalgesia after excessive muscular contraction.

Trigeminal neuralgia due to vertebrobasilar dolichoectasia: Three case reports

We report here 3 cases of trigeminal neuralgia (TN) due to vertebrobasilar dolichoectasia (VBD) and discuss the clinicians role in such cases. All cases presented at our clinic with paroxysmal, electric shock-like pain over their maxillary or mandibular gingiva. To confirm a diagnosis of TN, magnetic resonance imaging (MRI) and magnetic resonance angiography (MRA) were performed, and contact of the trigeminal nerve with a tortuous vertebrobasilar artery (VBA) was detected. Patients were informed about the therapeutic algorithm of TN before starting treatment. When medication became ineffective, the patients were referred to a neurosurgeon, and microvascular decompression (MVD) was consequently performed in 1 patient and radiofrequency thermocoagulation (RFTC) in the other 2 cases. VBD is associated with the risk of serious complications during follow-up and some limitations regarding second-line treatment. Dentists have a significant role in controlling orofacial pain and must be aware of this specific etiopathology of TN.

Stellate ganglion block as an early intervention in sympathetically maintained headache and orofacial pain Caused by Temporal Arteritis

INTRODUCTION We report a case of temporal arteritis with a sympathetic component in the orofacial region, which responded to stellate ganglion blocks (SGBs). CASE An 81-year-old woman with limited mouth opening and pain upon chewing was referred to the Orofacial Pain Clinic at Nihon University Dental Hospital. The patient also presented with blurred vision and a burning sensation on the right side of her face. On clinical examination, the temporal artery was tender to palpation, and there was increased sensitivity in the temporal region bilaterally. The patient reported jaw pain and limited mouth opening. Laboratory examination showed elevations in erythrocyte sedimentation rate and C-reactive protein. The burning sensation was due to a sympathetic component, and SGBs substantially reduced both the burning sensation and right temporal pain. Blocking the sympathetic chain on the ipsilateral side also improved jaw movement. The patient was referred to a rheumatologist, after which she was admitted to hospital with a tentative diagnosis of temporal arteritis. Treatment with oral prednisone 30 mg daily was initiated, and the dose was tapered as her symptoms resolved. DISCUSSION The reason for the gradual pain relief after SGB is unclear, but we believe it was effective for ischemia in temporal arteritis because it led to dilation of affected arteries or suppression of inflammation/edema of the vascular wall. CONCLUSION This case demonstrates that SGB may relieve pain related to temporal arteritis and sympathetically maintained headache and orofacial pain by reducing noxious stimulation peripherally and decreasing central pain transmission centrally.