Patients' experience of partial tooth loss and expectations to treatment: a qualitative study in Danish and Swedish patients.

Knowledge of impairments, wishes and expectations is essential to make correct decisions regarding oral rehabilitation. The purpose of this study was to investigate discomforts, wishes and expectations in patients' with partial edentulism before entering oral rehabilitation. In Copenhagen, Denmark, and Malmö, Sweden, respectively, 20 patients with partial edentulism seeking rehabilitation were interviewed in a semistructured qualitative manner. The interviews were transcribed and analysed yielding overall domains. Six themes appeared as overall domains: (i) experienced impairments, (ii) experienced social awareness, (iii) expectation to treatment, (iv) expectation to durability/survival, (v) coping strategies dealing with the tooth loss including explanations of the tooth loss and (vi) modifications to experienced impairment. The impairments were mostly experienced as problems in social settings. Most participants expressed a simple wish to function normally; a fixed solution was preferred. Many Danish participants accepted a removable solution whereas only few Swedish participants did so. The domains 'coping strategies' and 'modifications' were not part of the chosen topics of interest, indicating a high wish of the participants to explain their tooth loss and how they coped with it. In conclusion, a large degree of social impairment was found in the patient group along with several coping strategies. The impairments were modified by a number of factors indicating that highly individualised care and treatment is needed. A state of normality was described as the primary treatment wish with a higher acceptance of removable solutions in Denmark than in Sweden. For final decision-making, surrounding factors seemed to influence the patients' choices.

Analysis of the perceived oral treatment need using Andersen's behavioural model.

OBJECTIVES: The aim of this study was to investigate the influence of specific components of Andersen's behavioural model on adult individuals' perceived oral treatment need. METHODS: A questionnaire was sent to a randomly selected sample of 9,690 individuals, 20 to 89 years old, living in Skåne, Sweden. The 58 questions, some with follow-up questions, were answered by 6,123 individuals; a 63% response rate. Selected for inclusion in the multivariate logistic regression analysis were those questions relating to Andersen's behavioural model, phase five. Responses to "How do you rate your oral treatment need today?" were used as a dependent variable. The 62 questions chosen as independent variables represented the components: individual characteristics, health behaviour and outcomes in the model. RESULTS: Of the independent variables, 24 were significant at the p< or =0.05 level. Low educational level, previously unmet perceived oral TREATMENT need, frequent visiting pattern, perception of worse oral health than one's peers, an external locus of control, and to have received information from one's dental caregiver about a need for oral treatment were all highly significant (p<0.001) variables correlating with high self-perceived oral treatment need. CONCLUSION: The Andersen behavioural model can be a useful theoretical tool for the study of perceived oral treatment need.

Mechanisms of amyloid-ß34 generation indicate a pivotal role for BACE1 in amyloid homeostasis.

The beta­site amyloid precursor protein (APP) cleaving enzyme (BACE1) was discovered due to its "amyloidogenic" activity which contributes to the production of amyloid-beta (Aß) peptides. However, BACE1 also possesses an "amyloidolytic" activity, whereby it degrades longer Aß peptides into a non­toxic Aß34 intermediate. Here, we examine conditions that shift the equilibrium between BACE1 amyloidogenic and amyloidolytic activities by altering BACE1/APP ratios. In Alzheimer disease brain tissue, we found an association between elevated levels of BACE1 and Aß34. In mice, the deletion of one BACE1 gene copy reduced BACE1 amyloidolytic activity by ~ 50%. In cells, a stepwise increase of BACE1 but not APP expression promoted amyloidolytic cleavage resulting in dose-dependently increased Aß34 levels. At the cellular level, a mislocalization of surplus BACE1 caused a reduction in Aß34 levels. To align the role of γ-secretase in this pathway, we silenced Presenilin (PS) expression and identified PS2-γ-secretase as the main γ-secretase that generates Aß40 and Aß42 peptides serving as substrates for BACE1's amyloidolytic cleavage to generate Aß34.

An automatic algorithm for the segmentation and morphological analysis of microvessels in immunostained histological tumour sections.

A fully automatic segmentation and morphological analysis algorithm for the analysis of microvessels from CD31 immunostained histological tumour sections is presented. Development of the algorithm exploited the distinctive hues of stained vascular endothelial cells, cell nuclei and background, to provide the seeds for a 'region-growing' method for object segmentation in the 3D hue, saturation, value (HSV) colour model. The segmented objects, identified as microvessels by CD31 immunostaining, were post-processed with three morphological tasks: joining separate objects that were likely to belong to a single vessel, closing objects that had a narrow gap around their periphery, and splitting objects with multiple lumina into individual vessels. The automatic segmentation was validated against a hand-segmented set of 44 images from three different SW1222 human colorectal carcinomas xenografted into mice. 96.3 ± 0.9% of pixels were found to be correctly classified. Automated segmentation was carried out on a further 53 images from three histologically distinct mouse fibrosarcomas (MFs) for morphological comparison with the SW1222 tumours. Four morphometric measurements were calculated for each segmented vessel: vascular area (VA), ratio of lumen area to vascular area (lu/VA), eccentricity (e), and roundness (ro). In addition, the total vascular area relative to tumour tissue area (rVA) was calculated. lu/VA, e and ro were found to be significantly smaller in MF tumours than in SW1222 tumours (p < 0.05; unpaired t-test). The algorithm is available through the website http://www.caiman.org.uk where images can be uploaded, processed and sent back to users. The output from CAIMAN consists of the original image with boundaries of segmented vessels overlaid, the calculated parameters and a Matlab file, which contains the segmentation that the user can use to derive further results.

Cortical spreading depression-associated cerebral blood flow changes induced by mechanical stimulation are modulated by AMPA and GABA receptors.

Migraine is one of the most prevalent neurological disorders with some 30% of patients additionally suffering from focal neurological disturbances: the aura. The underlying mechanism behind the aura is generally considered to be a form of cortical spreading depression (CSD). We used mechanical stimulation to induce hyperaemia associated with CSD in cats and rats, and studied the effect of a glutamate, alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA) receptor, antagonist, and gamma-aminobutyric acid (GABA)(A) and GABA(B) receptor agonists, to understand better the pharmacology of CSD. All three were able to inhibit CSD-associated cerebral blood flow changes in the rat and in a proportion of cats studied; non-responders showed altered speed of propagation and time to induction. The data suggest AMPA and GABA receptors may be targets of migraine therapy in inhibiting CSD and thus may alter the frequency of migraine aura.

Suitability of Smopex-102 cation-exchange fiber for analytical purposes and drug monitoring.

The present study aimed to evaluate the suitability of Smopex-102 cation-exchange fiber for the separation of acidic and basic model drugs from biological fluids (e.g. serum) prior to chromatographic analysis. In addition, the interactions of the drugs with the fiber were studied. The study found that basic antidepressant model drugs bound to a considerably greater extent than acidic drugs to poly(acrylic acid) (PAA) grafted Smopex-102 cation-exchange fiber from 25 mM HEPES buffer (pH 7.0) and spiked serum. Drug binding from serum decreased except for acidic drugs due to drug distribution between serum proteins and cation-exchange fiber. Electrostatic interactions were possibly the most important factors affecting drug binding to the fiber. Basic drugs were released most effectively from the fiber by using acetic acid (mean released amount 123.7 +/- 36.3% and mean absolute recovery 95.4 +/- 23.8%). Results demonstrated that the cation-exchange fiber evaluated might be a potential material for separating basic drugs from protein-free and proteinaceous (e.g. serum) liquid solutions for subsequent monitoring and evaluation. However, the drug release solution and release time must be optimized more precisely in order to validate described sample preparation method for each basic drug.

Neurodegenerative Disease-Related Proteins within the Epidermal Layer of the Human Skin.

There is increasing evidence suggesting that amyloidogenic proteins might form deposits in non-neuronal tissues in neurodegenerative disorders such as Alzheimer's or Parkinson's diseases. However, the detection of these aggregation-prone proteins within the human skin has been controversial. Using immunohistochemistry (IHC) and mass spectrometry tissue imaging (MALDI-MSI), fresh frozen human skin samples were analyzed for the expression and localization of neurodegenerative disease-related proteins. While α-synuclein was detected throughout the epidermal layer of the auricular samples (IHC and MALDI-MSI), tau and Aß34 were also localized to the epidermal layer (IHC). In addition to Aß peptides of varying length (e.g., Aß40, Aß42, Aß34), we also were able to detect inflammatory markers within the same sample sets (e.g., thymosin ß-4, psoriasin). While previous literature has described α-synuclein in the nucleus of neurons (e.g., Parkinson's disease), our current detection of α-synuclein in the nucleus of skin cells is novel. Imaging of α-synuclein or tau revealed that their presence was similar between the young and old samples in our present study. Future work may reveal differences relevant for diagnosis between these proteins at the molecular level (e.g., age-dependent post-translational modifications). Our novel detection of Aß34 in human skin suggests that, just like in the brain, it may represent a stable intermediate of the Aß40 and Aß42 degradation pathway.

Occipital afferent activation of second order neurons in the trigeminocervical complex in rat.

Stimulation of the greater occipital nerve produces excitation of second order neurons in the trigeminocervical complex. Given that neck pain is very common in primary headache disorders, this convergent excitation may play a role in pain referral from cervical structures. While previous studies have demonstrated a physiological model for this convergence, this study sought an anatomical approach to examine the distribution of second order neurons in the trigeminocervical complex receiving greater occipital nerve input. In addition, the role of glutamatergic NMDA receptor activation within the trigeminocervical complex in response to cervical afferents was studied. Noxious stimulation of the occipital muscle in rat using mustard oil and mineral oil produced significantly altered Fos expression in the trigeminocervical complex compared with the surgical control (H(4)=31.3, P<0.001, Kruskal-Wallis). Baseline expression was 11 (median, range 4, 17) fos positive cells in the trigeminocervical complex, occipital muscle treated with mustard oil produced 23 (17, 33) and mineral oil a smaller effect of 19 (15, 25) fos positive cells, respectively (P=0.046). The effects of both mustard and mineral oil were reversed by the NMDA-receptor antagonist MK801. This study introduces a model for examining trigeminocervical complex activity after occipital afferent stimulation in the rat that has good anatomical resolution and demonstrates involvement of glutamatergic NMDA receptors at this important synapse.

Calcium channels modulate nociceptive transmission in the trigeminal nucleus of the cat.

Clinical observations and genetic studies have suggested a role for high-threshold voltage-dependent calcium channels (VDCCs) in the pathogenesis of migraine. This study investigated the role of P/Q-, L- and N-type VDCCs in post-synaptic action potential generation in trigeminovascular nociceptive afferents in the trigeminocervical complex (TCC) of the cat in vivo. Trigeminovascular nociceptive afferents were identified in the TCC by electrical stimulation of the superior sagittal sinus. Forty-six cell bodies were identified by their response to microiontophoresis of l-glutamate and their bipolar action potential shape. Blockade of VDCCs was accomplished by microiontophoresis of omega-agatoxin IVa/TK (P/Q-), omega-conotoxin GVIa (N-) and calciseptine (L-type). Non-selective antagonism was studied using cadmium ions. Non-selective blockade of high threshold VDCC with cadmium resulted in a reduction in l-glutamate-evoked neuronal activity (P=0.01). Blockade of P/Q: TK- (P<0.001), IVA- (P=0.007), L- (P<0.001) and N-type (P<0.001) VDCCs resulted in significant reductions in post-synaptic action potential generation in response to l-glutamate. High threshold VDCCs, including P/Q-, L- and N-type VDCCs, can therefore modulate nociceptive transmission in the trigeminocervical complex in vivo. We discuss the evidence to suggest a role for VDCCs in the pathophysiology of primary headache disorders, and how abnormalities of function may contribute to their pathogenesis.

Therapy of refractory/relapsed acute leukemia with cytosine arabinoside plus tetrahydrouridine (an inhibitor of cytidine deaminase)--a pilot study.

Thirty two patients with refractory or recurrent acute leukemia or blast crisis of chronic myelocytic leukemia were treated with 1-beta-D-arabinofuranosylcytosine (Ara-C), 100 mg/m2 [group I (n = 15)] or 200 mg/m2 [group II (n = 18)], and tetrahydrouridine (THU) 350 mg/m2, given concurrently as a 3 h continuous intravenous infusion at 12 h interval for eight doses. Two of 13 (15.3%) evaluable patients in group I achieved a complete response, both of whom had acute myelocytic leukemia. In group II, seven of 14 evaluable patients (50%) obtained objective responses--six with complete responses (42.8%) and one with partial response (7%). Myelosuppression was seen in all patients with a median duration of 32.5 days (group I) and 36.3 days (group II), respectively. Non-hematologic toxicity consisted of nausea, vomiting, diarrhea, conjunctivitis, skin rash, hepatocellular toxicity, hemorrhage, and renal toxicity. Pharmacokinetic studies revealed, for group I, mean peak plasma Ara-C levels at 3 h (Cp3h) of 1254 ng/ml, area under the curve (AUC) 4651 ng x h/ml, total body clearance (TBC) 32.65 l/h/m2, renal clearance (RC) 7.04 l/h/m2 with a mean of 12.36% of the injected amount of Ara-C excreted unchanged in urine over the first 24 h. The corresponding mean values for group II are Cp3h 3305 ng/ml, AUC 15080 ng x h/ml, TBC 20.48 l/h/m2, RC 7.02 l/h/m2 and 26.23%. Ara-C 200 mg/m2 combined with THU gave serum Ara-C levels and response rates comparable to those achieved with high dose Ara-C (HiDAC) (greater than or equal to 1 g/m2). Central nervous system toxicity associated with HiDAC was not seen. Pharmacokinetics for uracil arabinoside (Ara-U) in patients treated with Ara-C 200 mg/m2 plus THU, were comparable to values seen with Ara-C for Cp3h, AUC and 24 h urine, amounting to 3160 ng/ml, 21717 ng x h/ml and 23.62% whereas TBC was significantly lower (p less than 0.001) for Ara-U than for Ara-C (3.02 versus 20.48 l/h/m2).

Fura-2 imaging of thyrotropin-releasing hormone and dopamine effects on calcium homeostasis of bovine lactotrophs.

Dual wavelength digital imaging microscopy to detect fura-2 has been employed to characterize in normal bovine PRL-secreting cells the effects of TRH and dopamine on the intracellular ionized calcium concentration [( Ca2+]i). Concentrations of TRH greater than 10 nM caused a rapid but transient increase in [Ca2+]i, arising mainly from intracellular calcium stores, since it was unaffected by lowering extracellular calcium with EGTA or blocking calcium channels with Co2+. The threshold for TRH action was close to 0.1 nM. TRH action was dose dependent, with lower concentrations (less than 1-10 nM) slowing the time to peak [Ca2+]i response. The TRH-induced [Ca2+]i rise had a Q10 of about 2. TRH caused multiple transient increases in [Ca2+]i, but a recovery time of 10-15 min was required for full restoration of the TRH-induced response. In some cells the [Ca2+]i response to TRH was polarized to one region of the cell, suggesting the following possibilities, none of them exclusive: 1) Ca2+ release sites may be localized within the cell; or 2) an efficient local mechanism exists for lowering Ca2+ once it is liberated inside the cells; or 3) barriers may exist to diffusion of Ca2+ released within the cell. Extracellular application of Co2+, Mn2+, and EGTA under basal conditions resulted in lowering of [Ca2+]i within seconds, consistent with tonic Ca2+ influx under resting conditions which could contribute to the basal release of hormone. Dopamine, a PRL release-inhibiting factor, also lowered [Ca2+]i under basal conditions. However, the [Ca2+]i response of lactotrophs to TRH was unaffected by dopamine. This suggests that dopamine and TRH act via separate intracellular pathways to modulate hormone secretion. Applications of forskolin preceding the TRH-induced transient rise in [Ca2+]i resulted in a prolonged plateau rise in [Ca2+]i. This was mainly due to increased influx of Ca2+ since addition of Co2+ or EGTA-containing or Ca(2+)-free medium during this phase of response lowered the plateau concentration of [Ca2+]i.

The ORL-1 (NOP1) receptor ligand nociceptin/orphanin FQ (N/OFQ) inhibits neurogenic dural vasodilatation in the rat.

The effects of the ORL-1 (NOP(1)) receptor ligand nociceptin (N/OFQ) and the nociceptin antagonists [Nphe(1)]N/OFQ-(1-13)-NH(2) (Nphe) and nocistatin (NST) on neurogenic dural vasodilatation (NDV) in the rat dura mater evoked by electrical stimulation of a closed cranial window were studied. The middle meningeal artery was visualised using intravital microscopy, and the vessel diameter analysed using a video dimension analyser. N/OFQ (1, 10, 100 nmol kg(-1); i.v., n=10) significantly and dose-dependently suppressed NDV maximally by 65% (P<0.01). Neither Nphe (100 nmol kg(-1); n=5) nor NST (100 nmol kg(-1); n=4) alone had an effect on NDV (P>0.05). Baseline vessel diameter was not significantly affected by application of N/OFQ, NST or Nphe. Application of the selective N/OFQ antagonist Nphe (10, 100 nmol kg(-1) i.v., n=8) dose-dependently and significantly (P<0.01) reversed the inhibition of NDV induced by application of N/OFQ (10 nmol kg(-1)). NST (10, 100 nmol kg(-1); n=7) failed to reverse the effects elicited by N/OFQ. Application of N/OFQ elicited a dose-dependent transient decrease in arterial blood pressure (P<0.01). Nphe dose-dependently reversed the cardiovascular effects induced by application of N/OFQ (10 nmol kg(-1)) (P<0.01),while NST did not alter the blood pressure reaction elicited by N/OFQ. The results show that N/OFQ inhibits NDV, an effect which is antagonised by Nphe, but not by NST. ORL-1 (NOP(1)) receptors located on trigeminal sensory fibres may be involved in the regulation of dural vessel diameter and hence may play a role in migraine pathophysiology.

4991W93, a potent blocker of neurogenic plasma protein extravasation, inhibits trigeminal neurons at 5-hydroxytryptamine (5-HT1B/1D) agonist doses.

Triptans share the pharmacological profile of being 5-hydroxytryptamine (5-HT1B/1D) agonists and having potent anti-migraine activity. The conformationally restricted zolmitriptan analogue 4991W93 was developed as a potent, and at low doses, specific, non-vasconstrictor inhibitor of neurogenic dural plasma protein extravasation. Here, we sought to study the effect of 4991W93 at plasma protein extravasation blocking and at 5-HT(1B/1D) agonist doses. Nociceptive cells with firing latencies consistent with Adelta fibres were recorded in the dorsal horn region of the trigeminal nucleus caudalis after electrical stimulation of the sagittal sinus. Both evoked (13 units) and free running (6 units) activity in cells linked to sagittal sinus stimulation were inhibited by 4991W93 delivered microiontophoretically or by intravenous administration at 10 microg/kg or 100 microg/kg, but not 0.1 microg/kg. When applied iontophoretically, 4991W93 did not appear to have an additive effect over a 5-HT(1B/1D) agonist effective concentration of zolmitriptan. These data suggest that 4991W93 is only effective at modulating the trigeminocervical complex at 5-HT(1B/1D) agonist doses. To account for neurogenic dural plasma protein extravasation blockade in animal studies, 4991W93 might have non-5-HT(1B/1D)-based pharmacological targets that are yet to be described.

Characterization of opioid receptors that modulate nociceptive neurotransmission in the trigeminocervical complex.

1. Opioid agonists have been used for many years to treat all forms of headache, including migraine. We sought to characterize opioid receptors involved in craniovascular nociceptive pathways by in vivo microiontophoresis of micro -receptor agonists and antagonists onto neurons in the trigeminocervical complex of the cat. 2. Cats were anaesthetized with alpha-chloralose 60 mg kg(-1), i.p. and 20 mg kg(-1), i.v. supplements after induction and surgical preparation using halothane. Units were identified in the trigeminocervical complex responding to supramaximal electrical stimulation of the superior sagittal sinus, and extracellular recordings of activity made. 3. Seven- or nine-barrelled glass micropipettes incorporating tungsten recording electrodes in their centre barrels were used for microiontophoresis of test substances onto cell bodies. 4. Superior sagittal sinus (SSS)-linked cells whose firing was evoked by microiontophoretic application of L-glutamate (n=8 cells) were reversibly inhibited by microiontophoresis of H(2)N-Tyr-D-Ala-Gly-N-Me-Phe-Gly-ol (DAMGO) (n=12), a selective micro -receptor agonist, in a dose dependent manner, but not by control ejection of sodium or chloride ions from a barrel containing saline. 5. The inhibition by DAMGO of SSS-linked neurons activated with L-glutamate could be antagonized by microiontophoresis of selective micro -receptor antagonists D-Phe-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH(2) (CTOP) or D-Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH(2) (CTAP), or both, in all cells tested (n=4 and 6, respectively). 6. Local iontophoresis of DAMGO during stimulation of the superior sagittal sinus resulted in a reduction in SSS-evoked activity. This effect was substantially reversed 10 min after cessation of iontophoresis. The effect of DAMGO was markedly inhibited by co-iontophoresis of CTAP. 7. Thus, we found that micro -receptors modulate nociceptive input to the trigeminocervical complex. Characterizing the sub-types of opioid receptors that influence trigeminovascular nociceptive transmission is an important component to understanding the pharmacology of this synapse, which is pivotal in primary neurovascular headache.

Anandamide acts as a vasodilator of dural blood vessels in vivo by activating TRPV1 receptors.

Migraine pathophysiology is believed to involve the release of neuropeptides via the activation of trigeminal afferents that innervate the cranial vasculature. Anandamide, the endogenous ligand to the cannabinoid receptor, is able to inhibit neurogenic dural vasodilatation, calcitonin gene-related peptide (CGRP)-induced and nitric oxide-induced dural vessel dilation in the intravital microscopy model. In an in vitro setting anandamide is also able to activate the vanilloid type 1 (TRPV1) receptor and cause vasodilation, via the release of CGRP. In this study we used intravital microscopy to study whether anandamide behaves as a TRPV1 receptor agonist in the trigeminovascular system. We examined if anandamide-induced dural vasodilation involves CGRP release that can be reversed by the CGRP receptor antagonist, CGRP(8-37), and whether like capsaicin the anandamide effect could be reversed by the TRPV1 receptor antagonist, capsazepine. Anandamide 1 (19+/-9%, n=12), 3 (29+/-5%, n=37), 5 (74+/-7%, n=13) and 10 mg kg(-1) (89+/-18%, n=6) was able to cause a dose-dependent increase in dural vessel diameter. Capsazepine (3 mg kg(-1), t(5)=6.2, P<0.05) and CGRP(8-37) (300 micrograms kg(-1), t(6)=11.1, P<0.05) attenuated the anandamide-induced dural vessel dilation when compared to control (Student's paired t-test). AM251 (3 mg kg(-1)), a cannabinoid type 1 (CB(1)) receptor antagonist, was unable to reverse this anandamide-induced dilation. The study demonstrates that anandamide acts as a TRPV1 receptor agonist in the trigeminovascular system, activating TRPV1 receptors that promote CGRP release and cause vasodilation independent of any action at the CB(1) receptor. Anandamide has been shown previously to inhibit trigeminovascular neurons and prevent vasodilation, through an action at CB(1) receptors.

Vanilloid type 1 receptors (VR1) on trigeminal sensory nerve fibres play a minor role in neurogenic dural vasodilatation, and are involved in capsaicin-induced dural dilation.

Capsaicin, the active substance in chilli peppers, activates the vanilloid type 1 receptor (VR1) rather than the vanilloid-like receptor (VRL1) in the trigeminal ganglion and nucleus of small and medium C- and Adelta-fibres. Capsaicin induces calcitonin gene-related peptide (CGRP) release when VR1 receptors are activated, and this can be reversed by both the VR1 receptor antagonist capsazepine and the CGRP blocker alphaCGRP8-37 in vitro. In this study we used intravital microscopy to look at the possible role of the VR1 receptor in the trigeminovascular system in producing dilation of dural blood vessels. Capsazepine (3 mg kg-1) was given to study the effect of the VR1 receptor in dural vessel dilation produced by either electrical stimulation, CGRP (1 microg x kg-1) or capsaicin (7 microg x kg-1) bolus injection. We also looked at the effect of the CGRP blocker alphaCGRP8-37 (300 microg x kg-1) on capsaicin-induced dilation so that we could see if the results found in vitro could also be found in vivo. Electrical stimulation of the dura mater produced a robust vasodilator response between 130 and 137% of baseline diameter that was no different across four repeat stimuli (F3,18=0.6, P=0.61). CGRP similarly produced a dilatation of 99-111% that was no different across four baseline infusions (F3,15=2.4, P=0.113). Capsaicin also produced a consistent dilation of between 112 and 120% of baseline across three injections (F2,10=0.6, P=0.567). Capsazepine did not inhibit the dilation brought about by either electrical stimulation or CGRP injection, while it was able to inhibit the dilation brought about by capsaicin (t5=3.4, P<0.05). AlphaCGRP8-37 also inhibited the capsaicin-induced dilation (t5=7.4, P<0.05) probably inhibiting the action of released CGRP at the CGRP receptor. The study demonstrates that capsaicin can repeatedly induce dural vessel dilation in vivo, presumably through inducing CGRP release from trigeminal sensory nerve fibres, while C-fibres may have been desensitised. The data imply that the VR1 receptor plays only a minor role in trigeminovascular-induced dural vessel dilation.

Voltage-dependent calcium channels are involved in neurogenic dural vasodilatation via a presynaptic transmitter release mechanism.

Amissense mutation of the CACNA1A gene that encodes the alpha1A subunit of the voltage-dependent P/Q-type calcium channel has been discovered in patients suffering from familial hemiplegic migraine. This suggested that calcium channelopathies may be involved in migraine more broadly, and established the importance of genetic mechanisms in migraine. Channelopathies share many clinical characteristics with migraine, and thus exploring calcium channel functions in the trigeminovascular system may give insights into migraine pathophysiology. It is also known that drugs blocking the P/Q- and N-type calcium channels have been successful in other animal models of trigeminovascular activation and head pain. In the present study, we used intravital microscopy to examine the effects of specific calcium channel blockers on neurogenic dural vasodilatation and calcitonin gene-related peptide (CGRP)-induced dilation. The L-type voltage-dependent calcium channel blocker calciseptine significantly attenuated (20 microg kg(-1), n=7) the dilation brought about by electrical stimulation, but did not effect CGRP-induced dural dilation. The P/Q-type voltage-dependent calcium channel blocker omega-agatoxin-IVA (20 microg kg-1, n=7) significantly attenuated the dilation brought about by electrical stimulation, but did not effect CGRP-induced dural dilation. The N-type voltage-dependent calcium channel blocker omega-conotoxin-GVIA (20 microg kg(-1), n=8 and 40 microg kg(-1), n=7) significantly attenuated the dilation brought about by electrical stimulation, but did not effect CGRP-induced dural dilation. It is thought that the P/Q-, N- and L-type calcium channels all exist presynaptically on trigeminovascular neurons, and blockade of these channels prevents CGRP release, and, therefore, dural blood vessel dilation. These data suggest that the P/Q-, N- and L-type calcium channels may be involved in trigeminovascular nociception.

GABA receptors modulate trigeminovascular nociceptive neurotransmission in the trigeminocervical complex.

1. GABA (gamma-aminobutyric acid) receptors involved in craniovascular nociceptive pathways were characterised by in vivo microiontophoresis of GABA receptor agonists and antagonists onto neurones in the trigeminocervical complex of the cat. 2. Extracellular recordings were made from neurones in the trigeminocervical complex activated by supramaximal electrical stimulation of superior sagittal sinus, which were subsequently stimulated with L-glutamate. 3. Cell firing evoked by microiontophoretic application of L-glutamate (n=30) was reversibly inhibited by GABA in every cell tested (n=19), the GABA(A) agonist muscimol (n=10) in all cells tested, or both where tested, but not by iontophoresis of either sodium or chloride ions at comparable ejection currents. Inhibited cells received wide dynamic range (WDR) or nociceptive specific input from cutaneous receptive fields on the face or forepaws. 4. The inhibition of trigeminal neurones by GABA or muscimol could be antagonized by the GABA(A) antagonist N-methylbicuculline, 1(S),9(R) in all but two cells tested (n=16), but not by the GABA(B) antagonist 2-hydroxysaclofen (n=11). 5. R(-)-baclofen, a GABA(B) agonist, inhibited the firing of three out of seven cells activated by L-glutamate. Where tested, this inhibition could be antagonized by 2-hydroxysaclofen. These baclofen-inhibited cells were characterized as having low threshold mechanoreceptor/WDR input. 6. GABA thus appears to modulate nociceptive input to the trigeminocervical complex mainly through GABA(A) receptors. GABA(A) receptors may therefore provide a target for the development of new therapeutic agents for primary headache disorders.

Nitric oxide synthase inhibitors can antagonize neurogenic and calcitonin gene-related peptide induced dilation of dural meningeal vessels.

1. The detailed pathophysiology of migraine is beginning to be understood and is likely to involve activation of trigeminovascular afferents. 2. Clinically effective anti-migraine compounds are believed to have actions that include peripheral inhibition of calcitonin gene-related peptide (CGRP) release from trigeminal neurones, or preventing dural vessel dilation, or both. CGRP antagonists can block both neurogenic and CGRP-induced dural vessel dilation. 3. Nitric oxide (NO) can induce headache in migraine patients and often triggers a delayed migraine. The initial headache is thought to be caused via a direct action of the NO-cGMP pathway that causes vasodilation by vascular smooth muscle relaxation, while the delayed headache is likely to be a result of triggering trigeminovascular activation. Nitric oxide synthase (NOS) inhibitors are effective in the treatment of acute migraine. 4. The present studies used intravital microscopy to examine the effects of specific NOS inhibitors on neurogenic dural vasodilation (NDV) and CGRP-induced dilation. 5. The non-specific and neuronal NOS (nNOS) inhibitors were able to partially inhibit NDV, while the non-specific and endothelial NOS (eNOS) inhibitors were able to partially inhibit the CGRP induced dilation. 6. There was no effect of the inducible NOS (iNOS) inhibitor. 7. The data suggest that the delayed headache response triggered by NO donors in humans may be due, in part, to increased nNOS activity in the trigeminal system that causes CGRP release and dural vessel dilation. 8. Further, eNOS activity in the endothelium causes NO production and smooth muscle relaxation by direct activation of the NO-cGMP pathway, and may be involved in the initial headache response.