Cerebral chemosensory evoked potentials elicited by chemical stimulation of the human olfactory and respiratory nasal mucosa

A stimulation method was employed by which chemosensory evoked potentials were recorded without tactile somatosensory contamination. The purpose of the study was to determine whether potential components evoked by stimulation of the chemoreceptors of the trigeminal nerve can be distinguished from those of the olfactory nerve. The stimulants (vanillin, phenylethyl alcohol, limonene, menthol, anethol, benzaldehyde, carbon dioxide and a mixture of vanilin and carbon dioxide) were presented in a randomized order to 13 volunteers. Chemosensory evoked potentials to substances which anosmics are unable to perceive (vanillin, phenylethyl alcohol) were termed olfactory evoked potentials; potentials to CO₂, which effected no olfactory sensations were termed chemo-somatosensory potentials. Analysis of variance revealed that the different substances resulted in statistically significant changes in the amplitudes and latencies of the evoked potentials, and also in the subjective estimates of intensity. An increased excitation of the somatosensory system resulted in reduced latencies and enhanced amplitudes of the evoked potentials. Responses to the mixture of carbon dioxide and vanillin appeared significantly earlier (50–150 msec) than responses to either substance alone.     

Odorant stimulation of secretory and neural processes in the salamander olfactory mucosa

Topical application of the odorants guaiacol (10(-3) mol/l, 1-30 min) and 2-isobutyl-3-methoxypyrazine (IBMP, 10(-5)-10(-3) mol/l, 15 min) caused time- and concentration-dependent reductions in the secretory granule content of acinar cells of the superficial Bowman's glands (sBG) and moderate to extensive vacuolation in acinar cells of sBG and deep olfactory glands (dG). Topical application of 9.8 mg/ml scopolamine 10 min before 10(-4) mol/l IBMP significantly reduced the amount of secretory granule depletion from sBG compared to that seen with IBMP alone and resulted in less extensive vacuolation in sBG and dG acinar cells. The i.p. injection of 42 mg/kg propranolol 10 min before topical application of 10(-4) mol/l IBMP had no effect on the action of IBMP. Guaiacol and IBMP also had time- and concentration-dependent effects on the secretory activity of sustentacular cells in the olfactory epithelium. The protrusion of secretory material into the mucociliary matrix that covers the epithelial surface and vacuolation within the secretory material resulted from odorant application. Scopolamine and propranolol had no effects on the action of IBMP on sustentacular cell secretory activity. When applied in the vapor phase, guaiacol elicited action potentials recorded from individual olfactory receptor neurons; the impulse frequency was concentration-dependent and showed tonic and phasic components when the duration of stimulation was varied. Low to moderate concentrations of IBMP delivered in the vapor phase evoked monophasic negative slow voltage transients recorded from the surface of the olfactory mucosa. The amplitudes of these transients increased with increasing stimulus concentrations. Higher concentrations or longer stimulus durations evoked longer-latency positive-voltage generating processes and negative afterpotentials. The properties of the electrophysiological responses to both odorants were characteristic of responses evoked by a wide variety of 'typical' odorants.     

Cell dynamics in the olfactory mucosa

By means of ultrastructural and autoradiographic observations from the olfactory mucosa of frog, it has been shown that olfactory receptor neurons as well as supporting cells are continuously replaced during the adult life of the animal. The severing of the olfactory nerve in adult frogs results in rapid degeneration of all mature olfactory neurons. An increased mitotic activity of the basal cells accompanies the degeneration of the mature neurons and precedes the regeneration of new neurons. The capability of these newly formed neurons to re-establish their connections in the olfactory bulb has been ascertained and the modalities of the process will be dealt with in a further report.     

Receptor cells of the catfish olfactory mucosa

In the present study, it has been demonstrated that catfisholfactory cells, having knobs characterized by a crown of longmicrovilli, are bipolar neurons. These cells, found almost exclusivelyon the dorso-medial half of the sensory area of the olfactorylamellae, most probably function as olfactory receptor cells.They appear to be different from microvillous tufted cells describedin several other fishes as well as in the catfish.     

Biomechanics of human quadriceps muscles during electrical stimulation

The quadriceps muscles of neurologically intact and spinal cord injured (SCI) human subjects were stimulated with constant current pulses. Up to three, separately adjustable stimulating electrodes over the motor points for vastus medialis (VM), vastus lateralis (VL) and rectus femoris (RF) muscles were used to maximize torque generation while minimizing discomfort. The torque generated by stimulation increased as the knee was slowly flexed to about 1 rad (50-60 degrees) and decreased beyond that point (a 'negative slope' on a torque-angle curve). Despite this region of negative slope the force generated by small oscillations remained positively correlated to the angle changes. When the knee was slowly extended again from a flexed position, the torque continued to decline and therefore showed a large degree of 'hysteresis'. Of the three heads studied, only stimulation of RF muscle generally produced this behavior. VL and VM had torques that increased monotonically with knee flexion over the range studied. The torques generated with electrical stimulation of normal subjects represented up to about 30% of maximum voluntary contraction. When subjects generated similar torques voluntarily, the negative slope region and substantial hysteresis were not observed. Thus, SCI subjects may be adversely affected by hysteresis during electrically-induced transitions from sitting to standing and vice versa, while normal subjects are not.     

Ultracytochemical localization of particulate guanylate cyclase after stimulation with natriuretic peptides in lamb olfactory mucosa

Summary The ultracytochemical localization of particulate guanylate cyclase has been studied in lamb olfactory mucosa after activation with rat atrial natriuretic factor (rANF), porcine brain natriuretic peptide (pBNP), porcine C-type natriuretic peptide (pCNP) or rat brain natriuretic peptide (rBNP). Particulate guanylate cyclase is the receptor for these peptides and recently two subtypes of the cyclase have been identified. These isoforms are stimulated differently by ANF, BNP and CNP. Under our experimental conditions, rANF, pCNP and pBNP were strong activators of particulate guanylate cyclase in lamb olfactory mucosa, as demonstrated by the presence of reaction product. Samples incubated in basal conditions without rANF, pCNP or pBNP, or samples incubated in presence of rBNP did not reveal any cyclase activity. The rANF-stimulated cyclase activity was localized in the apical portion of olfactory epithelium. pCNP-stimulated guanylate cyclase was detected to the lamina propria in association with secretory cells of Bowman's glands and with cells in close relation with Bowman's glands (elongated cells and myoepithelial cells). The cyclase activity stimulated by pBNP was limited to cells of Bowman's glands. The present data indicate that ANF and CNP are recognized by different receptors and that BNP and CNP bind to the same receptor.     

Regulatory factors in the vertebrate olfactory mucosa

Access to and clearance of ligands from binding sites on olfactorycilia are regulated by a complex interplay of molecular, physicaland cellular factors. Nasal/olfactory glands secrete mucus thatcontains many proteins, among them odorant-binding proteins(OBP) that may solubilize lipophilic odorants in the aqueousmucous phase and subsequently transport them to receptor sites.The rate of transport of the ligand–OBP complex or unboundodorant is a function of the diffusion coefficient that, underphysiological conditions, is determined largely by the molecularsize of the complex or unbound odorant, the viscosity of mucusand the tortuosity factor. The binding constants must favorassociation of the ligand with the binding protein, dissociationof the complex and possible reassociation of the ligand withthe odorant receptor. Neural regulation of secretion determinesthe properties of the olfactory mucus that affect ligand accessand clearance, including viscosity, water content and depth.Extrinsic autonomic (adrenergic, cholinergic) and peptidergic(substance P/CGRP, VIP) neurons innervate olfactory glands andregulate both secretory granule release and electrolyte/waterbalance. Extrinsic peptidergic (substance (P/CGRP, VIP) neuronsterminate near the epithelial surface in close apposition tosustentacular cells and olfactory receptor neurons. The substanceP/CGRP fibers, in addition to functioning as sensory fibers,appear to regulate secretion from sustentacular cells througha secretomotor reflex and to neuromodulate the sensitivity ofolfactory receptor neurons to odorant stimulation. The actionof regulatory factors in the olfactory mucosa is an emergingtopic of research focused on molecular, physical and cellularfactors that affect sensory transduction.     

Effects of electrical muscle stimulation on oxygen consumption

Electrical muscle stimulation (EMS) devices are being marketed as weight/ fat loss devices throughout the world. Commercially available stimulators have the ability to evoke muscle contractions that may affect caloric expenditure while the device is being used. The aim of this study was to test the effects of two different EMS devices (Abtronic and Feminique) on oxygen consumption at rest. Subjects arrived for testing after an overnight fast, had the devices fitted, and then positioned supine with expired air measured to determine oxygen consumption. After a 10-minute acclimation period, oxygen consumption was measured for 20 minutes with the device switched off (resting) then 20 minutes with the device switched on (stimulated). There were no significant differences (p > 0.05) in oxygen consumption between the resting and stimulated periods with either the Abtronic (mean +/- SD; resting, 3.40 +/- 0.44; stimulated, 3.45 +/- 0.53 ml of O(2).kg(-1).min(-1)) or the Feminique (resting, 3.73 +/- 0.45; stimulated, 3.75 +/- 0.46 ml of O(2).kg(-1).min(-1)). In summary, the EMS devices tested had no effect on oxygen consumption during muscle stimulation.     

Effects of Ca2+ on electro-olfactogram in the isolated olfactory mucosa of the frog

Reports are conflicting as to whether the presence of Ca²⁺ onthe ciliated surface of the olfactory mucosa suppresses or potentiatesthe response of receptor cells to odorants. To resolve thisissue, electro-olfactograms (EOGs) were recorded from the isolatedolfactory mucosae of the frog while its ciliated surface wasperfused with saline solutions containing differing concentrationsof Ca²⁺. A decrease in Ca²⁺ concentration augmented the EOGamplitude, and the magnitude of the augmentation increased asthe Ca²⁺ concentration decreased progressively. The slow forskolin-inducedchange in potential likewise increased in amplitude with theremoval of Ca²⁺ from the perfusate. Desensitization of EOG duringthe prolonged administration of odorants developed similarly,irrespective of the concentration of Ca²⁺ on the ciliated surface.These observations are consistent with findings of patch-clampand biochemical experiments. The augmentation of EOG at lowCa²⁺ concentrations appeared to result from either an increasein activity of adenylate cyclase or an increase in responsivenessof the channels activated by adenosine 3',5'-cyclic monophosphate,but not from an increased sensitivity of the receptor molecules.     

Effects of anticancer drug docetaxel on the structure and function of the rabbit olfactory mucosa

Docetaxel (DCT) is an anticancer drug which acts by disrupting microtubule dynamics in the highly mitotic cancer cells. Thus, this drug has a potential to affect function and organization of tissues exhibiting high cellular turnover. We investigated, in the rabbit, the effects of a single human equivalent dose (6.26 mg/kg, i.v.) of DCT on the olfactory mucosa (OM) through light and electron microscopy, morphometry, Ki-67 immunostaining, TUNEL assay and the buried food test for olfactory sensitivity. On post-exposure days (PED) 5 and 10, there was disarrangement of the normal cell layering in the olfactory epithelium (OE), apoptotic death of cells of the OE, Bowman's glands and axon bundles, and the presence (including on PED 3) of blood vessels in the bundle cores. A decrease in bundle diameters, olfactory cell densities and cilia numbers, which was most significant on PED 10 (49.3%, 63.4% and 50%, respectively), was also evident. Surprisingly by PED 15, the OM regained normal morphology. Furthermore, olfactory sensitivity decreased progressively until PED 10 when olfaction was markedly impaired, and with recovery from the impairment by PED 15. These observations show that DCT transiently alters the structure and function of the OM suggesting a high regenerative potential for this tissue.     

Drug-induced protoporphyria in the olfactory mucosa of the hamster

Administration of 3,5-diethoxycarbonyl-4-ethyl-1,4-dihydro-2,6-dimethylpyridine (4-ethyl-DDC) to hamsters resulted in a marked loss of cytochrome P-450-dependent reactions (peroxidase, 7-ethoxycoumarin O-deethylase, and 7-ethoxyresorufin O-deethylase) in both liver and olfactory epithelium within 2 hr. This inactivation of cytochrome P-450 was accompanied by inhibition of ferrochelatase (FK), stimulation of 5-aminolevulinate synthase (ALA-S), and accumulation of protoporphyrin both in the liver and to a lesser degree, in the olfactory epithelium. These results suggest that the mechanism of induction of protoporphyria in nasal tissues is similar to that occurring in the liver, namely, suicidal metabolism of 4-ethyl DDC by cytochrome P-450 resulting in formation of N-ethylprotoporphyrin, a potent inhibitor of FK. The consequent depletion of heme leads to stimulation of ALA-S and, thus, porphyrin accumulation. Investigation of the dose-response to 4-ethyl DDC demonstrated that, in liver, maximal inhibition of FK and accumulation of protoporphyrin occurred at a dose of 50 mg/kg while ALA-S activity continued to increase up to a dose of 100 mg/kg. This is compatible with an additional effect of the drug on ALA-S involving induction of cytochrome P-450 and, thus, further depletion of heme. In the olfactory epithelium, stimulation of ALA-S was significantly less marked, suggesting that this secondary effect does not operate in nasal tissue. This is consistent with reports that olfactory cytochrome P-450s are noninducible.