All Relations between nasal and olfactory

Publication Sentence Publish Date Extraction Date Species
P Larsson, H Pettersson, H Tjälv. Metabolism of aflatoxin B1 in the bovine olfactory mucosa. Carcinogenesis. vol 10. issue 6. 1989-07-12. PMID:2498000. in addition, the cytochrome b5: cytochrome p-450 ratio was higher in the nasal olfactory mucosa than in the liver. 1989-07-12 2023-08-11 cattle
P Larsson, H Pettersson, H Tjälv. Metabolism of aflatoxin B1 in the bovine olfactory mucosa. Carcinogenesis. vol 10. issue 6. 1989-07-12. PMID:2498000. the higher metabolism of afb1 in the nasal olfactory mucosa than in the liver may be related to differences in the cytochrome p-450 isoenzyme profile. 1989-07-12 2023-08-11 cattle
P Larsson, H Pettersson, H Tjälv. Metabolism of aflatoxin B1 in the bovine olfactory mucosa. Carcinogenesis. vol 10. issue 6. 1989-07-12. PMID:2498000. in addition, the microsomal electron transport to cytochrome p-450 may be facilitated by the high reductase: cytochrome p-450 ratio and the high cytochrome b5: cytochrome p-450 ratio in the nasal olfactory mucosa. 1989-07-12 2023-08-11 cattle
E B Brittebo, B Kowalski, H Ghantous, I Brand. Epithelial binding of 1,2-dichloroethane in mice. Toxicology. vol 56. issue 1. 1989-06-26. PMID:2728005. injected mice, a selective localization of non-volatile and bound dce-metabolites occurred in the nasal olfactory mucosa and the tracheo-bronchial epithelium. 1989-06-26 2023-08-11 mouse
E B Brittebo, B Kowalski, H Ghantous, I Brand. Epithelial binding of 1,2-dichloroethane in mice. Toxicology. vol 56. issue 1. 1989-06-26. PMID:2728005. it is proposed that the nasal olfactory mucosa is a target tissue for toxicity of dce. 1989-06-26 2023-08-11 mouse
P Woodhead, G A Lloy. Olfactory neuroblastoma: imaging by magnetic resonance, CT and conventional techniques. Clinical otolaryngology and allied sciences. vol 13. issue 5. 1989-06-02. PMID:3243016. however, a tumour in the ethmoids and upper part of the nasal cavity, which expands into the orbit and erodes the roof of the fronto-ethmoid complex or cribriform plate unilaterally in a young patient, is highly suggestive of olfactory neuroblastoma, particularly if this is combined with the magnetic resonance signal characteristics of a vascular tumour. 1989-06-02 2023-08-11 Not clear
E Meisam. A proposed relationship between increases in the number of olfactory receptor neurons, convergence ratio and sensitivity in the developing rat. Brain research. Developmental brain research. vol 46. issue 1. 1989-05-26. PMID:2706774. to find a neural explanation for this phenomenon at the level of peripheral olfactory system, we present quantitative light microscopic data which reveal that during the suckling period of postnatal development the surface area of the olfactory receptor sheet and the total number of olfactory receptor neurons increase by about 8- and 12-fold respectively, being about 15 mm2 and 1.0 million on each nasal half of the newborn. 1989-05-26 2023-08-11 rat
A Savo. [Diseases of the nose and paranasal sinuses in workers of the woodworking industry]. Problemi na khigienata. vol 13. 1989-05-12. PMID:3241798. in 43.5% of the cases with nasal diseases are established changes in the olfactory function (hyposmia i and ii rate) of respiratory type. 1989-05-12 2023-08-11 human
J D Silverman, L Kruge. Calcitonin-gene-related-peptide-immunoreactive innervation of the rat head with emphasis on specialized sensory structures. The Journal of comparative neurology. vol 280. issue 2. 1989-04-24. PMID:2784449. the extensive innervation of chemosensory nasal and oral epithelia may contribute to specific chemical sensitivities (e.g., relating to olfactory and gustatory senses) as well as evoking "nociceptive" responses to chemical irritants as part of a "common chemical sense." 1989-04-24 2023-08-11 rat
R A Woutersen, A van Garderen-Hoetmer, J P Bruijntjes, A Zwart, V J Fero. Nasal tumours in rats after severe injury to the nasal mucosa and prolonged exposure to 10 ppm formaldehyde. Journal of applied toxicology : JAT. vol 9. issue 1. 1989-04-24. PMID:2926095. compound-related degenerative, inflammatory and hyperplastic changes of the nasal respiratory and olfactory mucosa were invariably observed when rats with intact nose were exposed to 10 ppm but not when exposed to 1.0 or 0.1 ppm formaldehyde. 1989-04-24 2023-08-11 rat
G J Schieferstein, W G Sheldon, S A Cantrell, G Redd. Subchronic toxicity study of 1,4-dithiane in the rat. Fundamental and applied toxicology : official journal of the Society of Toxicology. vol 11. issue 4. 1989-04-17. PMID:2465932. anisotrophic crystals of undetermined chemical composition were deposited in the olfactory nasal mucosa of both sexes. 1989-04-17 2023-08-11 rat
M Schwanzel-Fukuda, D W Pfaf. Origin of luteinizing hormone-releasing hormone neurons. Nature. vol 338. issue 6211. 1989-04-05. PMID:2645530. using a combination of lhrh immunocytochemistry and tritiated thymidine autoradiography in fetal mice, we show that lhrh neurons originate in the medial olfactory placode of the developing nose, migrate across the nasal septum and enter the forebrain with the nervus terminalis, arching into the septal-preoptic area and hypothalamus. 1989-04-05 2023-08-11 mouse
A R Dah. The cyanide-metabolizing enzyme rhodanese in rat nasal respiratory and olfactory mucosa. Toxicology letters. vol 45. issue 2-3. 1989-03-30. PMID:2919401. the cyanide-metabolizing enzyme rhodanese in rat nasal respiratory and olfactory mucosa. 1989-03-30 2023-08-11 rat
A R Dah. The cyanide-metabolizing enzyme rhodanese in rat nasal respiratory and olfactory mucosa. Toxicology letters. vol 45. issue 2-3. 1989-03-30. PMID:2919401. experiments with rat nasal tissues showed that the cyanide-metabolizing enzyme, rhodanese, is present in high concentrations, particularly in the olfactory region. 1989-03-30 2023-08-11 rat
M Benjami. Hyaline-cell cartilage (chondroid) in the heads of teleosts. Anatomy and embryology. vol 179. issue 3. 1989-03-23. PMID:2916751. hcc occurs in lips and rostral folds, in pre-palatine and submaxillary menisci, in ligaments, at the anterior end of the basihyal, in the pectoral girdle, in adhesive discs, in gill arches, beneath the basioccipital chewing pad, in barbels, next to the facial nerve, around the olfactory region and in the core of the nasal skin flaps. 1989-03-23 2023-08-11 Not clear
W Müller, H J Altermatt, W Arnol. [Immunoreactive somatostatin in the peripheral olfactory system and nasal mucosa of the human]. Laryngo- rhino- otologie. vol 68. issue 1. 1989-03-14. PMID:2563565. [immunoreactive somatostatin in the peripheral olfactory system and nasal mucosa of the human]. 1989-03-14 2023-08-11 human
W Müller, H J Altermatt, W Arnol. [Immunoreactive somatostatin in the peripheral olfactory system and nasal mucosa of the human]. Laryngo- rhino- otologie. vol 68. issue 1. 1989-03-14. PMID:2563565. we assume that somatostatin has a paracrine transmitter function in the peripheral olfactory system and a regulative function on the blood flow of the superior nasal mucosa. 1989-03-14 2023-08-11 human
G E Lucier, R Egizi. Characterization of cat nasal afferents and brain stem neurones receiving ethmoidal input. Experimental neurology. vol 103. issue 1. 1989-03-02. PMID:2536331. very little is known about the receptors in the nasal cavity responsible for initiating these reflexes, which are thought to be mediated by trigeminal rather than olfactory pathways. 1989-03-02 2023-08-11 cat
E L Coates, G O Balla. Breathing and upper airway CO2 in reptiles: role of the nasal and vomeronasal systems. The American journal of physiology. vol 256. issue 1 Pt 2. 1989-02-23. PMID:2536251. these results indicate that co2-sensitive receptors are located in the nasal epithelium and that the olfactory nerves must be intact for the ua co2 f response to be observed. 1989-02-23 2023-08-11 Not clear
G Grever. [Do arteriovenous anastomoses of the olfactory mucosa exist? A light and transmission electron microscopy study in the rabbit]. Laryngologie, Rhinologie, Otologie. vol 67. issue 8. 1989-02-16. PMID:3210873. no evidence for the existence of arteriovenous anastomoses could be found in the respiratory part of the nasal mucosa whereas in the deeper layers of the olfactory mucosa several vascular structures could be encountered that were similar to the glomerula digitalia of fingertips. 1989-02-16 2023-08-11 rabbit