Intranasal odorant concentrations in relation to sniff behavior.

Knowledge on how odorants are transported through the nasal cavity to the olfactory epithelium is limited. One facet of this is how the sniffing behavior affects the abundance of odorants transferred to the olfactory cleft and in turn influences odor perception. A novel system that couples an online mass spectrometer with an odorant pulse delivery olfactometer was employed to characterize intranasal odorant concentrations of butane-2,3-dione (or butanedione, commonly known as diacetyl) at the interior naris and the olfactory cleft. Volunteers (n=12) were asked to perform different modes of sniffing in relation to the sniff intensity that were categorized as 'normal', 'rapid' and 'forced'. The highest concentrations of butanedione at both positions in the nose were observed during normal sniffing, with the lowest concentrations correlating with periods of forced sniffs. This corresponded to the panelists' ratings that normal sniffing elicited the highest odor intensities. These feasibility assessments pave the way for more in-depth analyses with a variety of odorants of different chemical classes at various intranasal positions, to investigate the passage and uptake of odorants within the nasal cavity.

Intrinsic chemosensory signal recorded from the human nasal mucosa in patients with smell loss.

Physiological investigation of olfactory receptor function in hyposmic or anosmic patients is rare. Pioneers examined the electro-olfactogram in patients with olfactory disturbance. Although the electro-olfactogram is an established method to record olfactory responses from human olfactory epithelium, the response is only measured at specific sites of the olfactory mucosa. In contrast to that the response of the olfactory epithelium to chemosensory stimuli can be studied in a specific nasal area by means of intrinsic optical signal recording. Five functionally anosmic patients were included in the present study. In all patients, responses could be obtained following trigeminal stimulation with CO2. In some patients, responses could be obtained after olfactory stimulation with H2S and PEA. The present data show that in the studied patients trigeminal function seems to be preserved, while it appears that in some patients olfactory function is preserved to a certain degree.

Influence of background noise on the performance in the odor sensitivity task: effects of noise type and extraversion.

Recent research demonstrated that background noise relative to silence impaired subjects' performance in a cognitively driven odor discrimination test. The current study aimed to investigate whether the background noise can also modulate performance in an odor sensitivity task that is less cognitively loaded. Previous studies have shown that the effect of background noise on task performance can be different in relation to degree of extraversion and/or type of noise. Accordingly, we wanted to examine whether the influence of background noise on the odor sensitivity task can be altered as a function of the type of background noise (i.e., nonverbal vs. verbal noise) and the degree of extraversion (i.e., introvert vs. extrovert group). Subjects were asked to conduct an odor sensitivity task in the presence of either nonverbal noise (e.g., party sound) or verbal noise (e.g., audio book), or silence. Overall, the subjects' mean performance in the odor sensitivity task was not significantly different across three auditory conditions. However, with regard to the odor sensitivity task, a significant interaction emerged between the type of background noise and the degree of extraversion. Specifically, verbal noise relative to silence significantly impaired or improved the performance of the odor sensitivity task in the introvert or extrovert group, respectively; the differential effect of introversion/extraversion was not observed in the nonverbal noise-induced task performance. In conclusion, our findings provide new empirical evidence that type of background noise and degree of extraversion play an important role in modulating the effect of background noise on subjects' performance in an odor sensitivity task.

Topographical differences in the sensitivity of the human nasal mucosa to olfactory and trigeminal stimuli.

The olfactory and trigeminal systems play a role in the sensation of odors. The intrinsic optical signal (IOS) imaging method allows visualization of the neuronal activity. The IOS was measured after the nasal epithelium had been exposed to olfactory (H(2)S) and trigeminal (CO(2)) stimuli. The IOS was measured in the area of the middle turbinate. The response patterns of H(2)S and CO(2) on the middle turbinate were different, and some overlap between regions of activation was also observed. The response to CO(2) (20%) on the medial side of the middle turbinate was significantly higher than the response on the lateral side. In contrast, the response to H(2)S (5.6 ppm) was greater on the lateral side than on the medial side. There were no significant differences in response between the medial and lateral sides of the middle turbinate to stimuli of lower concentration (H(2)S 2.8 ppm, CO(2) 5% and 10%). These data suggest that the middle turbinate has regions which are sensitive to both olfactory and trigeminal stimuli.

Topographical differences in distribution and responsiveness of trigeminal sensitivity within the human nasal mucosa.

The study was designed to provide a topographical map of the sensitivity of the human nasal respiratory epithelium towards trigeminal chemosensory stimuli. As an electrophysiological measure of intranasal trigeminal activation at the level of the epithelium, we used the so-called negative mucosa potential (NMP), a measure that represents the sum of generator potentials of trigeminal receptor neurons after chemical stimulation. Sixty subjects participated (30 men and 30 women; mean age 23.5 years). Measurements were made in response to stimulation with menthol, CO(2), ethanol, and cinnamaldehyde, which are known to activate trigeminal receptors to various degrees. Recordings of the NMP were made from five intranasal sites: the anterior septum, the posterior septum, the tip of the middle turbinate, the tip of the lower turbinate, and the lateral side wall of the posterior nasal cavity. The recording electrode was positioned under endoscopic control. The largest NMP amplitudes were recorded at the anterior septum in response to stimulation with CO(2). Comparing all recording sites, significant differences were observed between responses at the posterior septum and the lateral side wall of the posterior nasal cavity in response to stimulation by ethanol, menthol, and CO(2). These findings suggest that the presence of topographical and chemosensory differences in the responsiveness of the nasal mucosa to irritants.

Chemosensory interaction: acquired olfactory impairment is associated with decreased taste function.

Olfaction, taste and trigeminal function are three distinct modalities. However, in daily life they are often activated concomitantly. In health and disease, it has been shown that in two of these senses, the trigeminal and olfactory senses, modification of one sense leads to changes in the other sense and vice versa. The objective of the study was to investigate whether and (if so) how, the third modality, taste, is influenced by olfactory impairment. We tested 210 subjects with normal (n = 107) or impaired (n = 103) olfactory function for their taste identification capacities. Validated tests were used for olfactory and gustatory testing (Sniffin' Sticks, Taste Strips). In an additional experiment, healthy volunteers underwent reversible olfactory cleft obstruction to investigate short-time changes of gustatory function after olfactory alteration. Mean gustatory identification (taste strip score) for the subjects with impaired olfaction was 19.4 +/- 0.6 points and 22.9 +/- 0.5 points for those with normal olfactory function (t = 4.6, p < 0.001). The frequencies of both, smell and taste impairments interacted significantly (Chi(2), F = 16.4, p < 0.001), and olfactory and gustatory function correlated (r (210) = 0.30, p < 0.001). Neither age nor olfactory impairment cause effects interfered with this olfactory-gustatory interaction. In contrast, after short-lasting induced olfactory decrease, gustatory function remained unchanged. The present study suggests that longstanding impaired olfactory function is associated with decreased gustatory function. These findings seem to extend previously described mutual chemosensory interactions also to smell and taste. It further raises the question whether chemical senses in general decrease mutually after acquired damage.

Intranasal administration of drugs.

OBJECTIVE: To investigate how nasally applied substances distribute in the nose depending on the form of application. DESIGN: Observer-blinded study. SETTING: University hospital research unit. PARTICIPANTS: Fifteen healthy volunteers aged 22 to 32 years. INTERVENTIONS: Forms of application included (1) nasal drops applied with a pipette, (2) nasal spray, and (3) a system producing squirts. Blue food dye was used to visualize the intranasal distribution of the liquid. The investigation was performed using nasal endoscopy. MAIN OUTCOME MEASURE: Intranasal distribution of the dye was judged by 2 independent observers blinded to the applicator system used. RESULTS: The nasal drops predominantly reached the nasal floor. The nasal spray was widely distributed in the nasal mucosa; however, most of it was intercepted by the middle turbinate and did not reach the olfactory cleft effectively. Using the squirt system, the olfactory cleft was reached in most participants. CONCLUSIONS: Previous failure of therapy with locally applied drugs in the case of sinonasal smell disorders may be partly due to the fact that the drugs did not reach the olfactory cleft when using traditional forms of application (ie, sprays). However, using an applicator producing squirts seems likely to present the drugs more effectively to the olfactory epithelium. Thus, it may be hypothesized that therapy could be more effective using a squirt system.

Responses to trigeminal irritants at different locations of the human nasal mucosa.

BACKGROUND: Previous work suggests differences in the distribution of human intranasal trigeminal receptors. The aim of this study was to investigate these topographic differences for different concentrations of different trigeminal irritants using an electrophysiologic measure of trigeminal activation, the negative mucosa potential (NMP). MATERIALS AND METHODS: A total of 15 healthy volunteers participated. Presented by a computer-controlled olfactometer CO2 (30% and 40% v/v), ethyl acetate (5.5% and 9.3% v/v) and acetic acid (205 and 40% v/v) were used for stimulation. NMP was recorded at the middle septum, the middle turbinate, and the floor of the nasal cavity. RESULTS: Maximum amplitudes of the NMP were found at the middle septum and were lowest at the nasal floor. Response amplitudes were related to stimulus concentrations. There was no significant difference between responses to the three different stimuli in relation to three recording sites. CONCLUSIONS: In agreement with previous work, the present data suggest that there are topographic differences in the responsiveness of the mucosa to chemical irritants.

Recordings of the optical intrinsic signal from the middle turbinate in response to olfactory and trigeminal stimulation: a pilot study.

Responses from the middle turbinate elicited by olfactory and trigeminal stimuli were studied using the intrinsic optical signal (IOS) recording technique. Nasal cavity was illuminated by 617 nm light. Olfactory (H2S) or trigeminal (CO2) stimuli of 5-s duration were presented using a computer-controlled olfactometer; IOS responses were captured by a special camera. Averages across five individual IOS recordings were analyzed. When the nasal cavity was exposed to H2S, a significant change of the IOS was found; responses to CO2 were even more pronounced. The present results argue for the idea that the IOS is an indicator of intranasal chemosensory activation.

Optical recordings from the human nasal mucosa in response to olfactory stimulation.

Using the intrinsic optical signal the present study aimed to investigate changes in blood flow at the nasal epithelium in response to specific olfactory stimulation. Recording equipment included an endoscope, a CCD camera, and a light source of 617 nm. Two concentrations of the specific olfactory stimulant H(2)S (2.8 and 5.6 ppm), generated by a computer-controlled olfactometer, were used for olfactory stimulation. Eight healthy normosmic volunteers participated. Using 5.6 ppm H(2)S stimuli, responses were typically recorded from the olfactory cleft, middle turbinate, and middle meatus while responses were less pronounced for 2.8 ppm H(2)S stimuli. Response areas were significantly larger for the 5.6 ppm H(2)S stimuli. While further experiments are needed, recordings of the intrinsic optical signal may be used to obtain responses from the nasal cavity to specific olfactory stimuli.

Studies on the effects of ice collars on nasal blood volume using optical rhinometry.

BACKGROUND: The possible benefit of ice collars for treatment of nosebleed is controversial. The aim of this study was to investigate changes of nasal blood volume before and after application of ice collars to the neck. Nasal blood volume was investigated using optical rhinometry. METHODS: A total of 15 young, healthy volunteers participated. After ice collars were placed on the neck area of the subjects, changes in the blood volume of the nose were measured by means of optical rhinometry for the whole nose, but also regionally at the nasal septum (Kiesselbach's area). After baseline measurements over 1 minute, the ice collar was applied. Optical rhinometric measurements were performed continuously. RESULTS: Although the ice collar showed no effect on the blood volume of the whole nose, there was a significant decrease in blood volume (p < 0.01) at the septum. CONCLUSION: Application of ice collars to the neck area of the subjects is followed by a decrease in blood volume of Kiesselbach's area, which may provide the basis for the clinical observation that ice collars are helpful in the treatment of nosebleeds.

Topographical differences in the trigeminal sensitivity of the human nasal mucosa.

The aim of the study was to investigate differences in the distribution of intranasal trigeminal receptors in humans using an electrophysiological measure of trigeminally induced activation, the negative mucosa potential. A total of 29 young, healthy volunteers participated, results were on the basis of data from 18 participants. The trigeminal irritant CO2 was presented using a computer-controlled olfactometer. Negative mucosa potential recording sites included the anterior olfactory cleft, the anterior septum, and the lower turbinate. Lowest amplitudes of the negative mucosa potential were found in the olfactory cleft, maximum amplitudes at the septum. Intranasal measurements of CO2 concentrations suggested that these differences were not due to the intranasal distribution of CO2. These results are compatible with the idea that the trigeminal system acts as a sentinel of the human airways.

Different swelling mechanisms in nasal septum (Kiesselbach area) and inferior turbinate responses to histamine: an optical rhinometric study.

OBJECTIVE: To determine whether the inferior turbinate, which contains swelling bodies, and the nasal septum (Kiesselbach area), characterized by a dense arterial mesh, exhibit different swelling mechanisms in allergic nasal reactions. DESIGN: Two optical rhinometers were used to examine 11 patients in the clinic. Optical rhinometry is based on the transillumination of the nasal septum and inferior turbinate or the whole nose with monochromatic light. The instrument's wavelength can be adjusted to the absorption characteristics of reduced hemoglobin, oxygen-saturated hemoglobin, and water. SETTING: Outpatient university otolaryngology clinic. PATIENTS: Eleven young, healthy, nonsmoking, nonpregnant subjects (6 men and 5 women), mean age, 32.4 years (age range, 27-37 years), with no history of exposure to toxic substances, allergies, or other significant diseases. INTERVENTIONS: Optic rhinometry evaluation during the course of nasal histamine administration. MAIN OUTCOME MEASURES: Light extinction at various wavelengths. RESULTS: Following administration of histamine, in the nasal septum, the wavelength of 950 nm (edema) showed the strongest increase of light extinction; in the inferior turbinate, it was the wavelength of 786 nm (oxygenated hemoglobin). In the whole nose, the wavelength of 880 nm (edema plus hemoglobin) exhibited the largest increase of extinction. CONCLUSIONS: Swelling of the nasal septum (Kiesselbach area) in nasal allergic reactions is caused mainly by edema, whereas swelling of the inferior turbinate is due mainly to an increase in volume of blood that is highly saturated with oxygen. Swelling of the whole nose is characterized by the combination of both, edema and increase in blood volume.

Determination of the cholesterol-collagen ratio of arterial atherosclerotic plaques using near infrared spectroscopy as a possible measure of plaque stability.

Particular danger associated with an arteriosclerotic plaque consists in the possible rupture of its cap, dependent on the thickness of the cap covering the lipid core, its composition and different inflammatory changes. The purpose of this study was to compare the total cholesterol and collagen contents of arterial walls, both measured by near infrared spectroscopy (NIRS), and to test whether the ratios of cholesterol to collagen correlate with histochemical parameters possibly being indicators for plaque stability. NIR spectra of 118 sections from 36 human aortas were measured at 1000-2500 nm. Evaluation was performed by the partial least squares method (PLS), the chemical reference analysis by HPLC. Acceptable results were achieved for calibrations. With these calibrations 38 further aortic sections taken at autopsy were NIR-spectroscopically analysed and ordered in relation to histological findings of fatty deposits, cap thickness over the lipid core, and the ratio of fatty deposits to cap thickness. Correlations were found to exist between the spectroscopically determined total cholesterol concentrations and the histologically estimated fatty deposits (r=0.887), between the spectroscopically determined collagen concentrations and the cap thickness over the lipid core (r=0.441), and between the ratios total cholesterol to collagen and the ratios fatty deposits to cap thickness (r=0.575).