OLFATO: forma más antigua de comunicación y sentido preciso que el otorrinolaringólogo debe conocer a profundidad / SMELL: oldest form of communication and precise sense that the otolaryngologist must know in depth

Introducción: el papel clave del olfato, antiguo sistema sensorial, es proporcionar información sobre las sustancias químicas en el medio ambiente. El olfato desempeña un papel en la detección de compuestos peligrosos, el mantenimiento de la nutrición, el comportamiento interpersonal, la salud neurológica y la sensación de placer, entre otras funciones. En consecuencia, la disfunción olfativa puede conducir a un riesgo de lesiones, desnutrición, aislamiento social y una mala calidad de vida. Materiales y métodos: se realizó una exploración bibliográfica y se identificaron artículos de acuerdo con los criterios de inclusión y exclusión definidos y se tomaron aquellos con calidad en la evidencia. Discusión: el sistema olfativo humano tiene diferencias anatómicas, fisiológicas y genéticas considerables con respecto al de otros mamíferos. Conclusiones: las destrezas olfativas varían con factores como la edad, el sexo, la etapa de desarrollo, ciertas enfermedades otorrinolaringológicas y enfermedades generales.

Introduction: The key role of the ancient olfactory sensory system is to provide information about chemicals in the environment. Smell plays a role in the detection of dangerous compounds, the maintenance of nutrition, interpersonal behavior, neurological health, and the sensation of pleasure, among other functions. Consequently, olfactory dysfunction can lead to a risk of injury, malnutrition, social isolation, and a poor quality of life. Materials and methods: A bibliographical exploration was carried out and articles were identified according to the inclusion and exclusion criteria defined and those with quality evidence were taken. Discussion: The human olfactory system has considerable anatomical, physiological, and genetic differences from that of other mammals. Conclusions: Olfactory skills vary with factors such as age, sex, stage of development, certain ear, nose and throat diseases and general diseases.

A conditional Orco requirement in the somatic cyst cells for maintaining spermatids in a tight bundle in Drosophila testis.

Odorant receptors (OR) heterodimerizes with the OR co-receptor (Orco), forming specific odorant-gated cation channels, which are key to odor reception at the olfactory sensory neurons (OSN). Mammalian ORs are expressed in many other tissues, including testis. However, their biological implications are yet to be fully ascertained. In the mosquito, Orco is localized along the sperm tail and is indicated to maintain fidelity. Here, we show that orco expresses in Drosophila testis. The levels are higher in the somatic cyst cells. The orco-null mutants are perfectly fertile at 25°C. At 28°C, the coiled spermatid bundles are severely disrupted. The loss of Orco also disrupts the actin cap, which forms inside the head cyst cell at the rostral ends of the spermatid nuclei after coiling, and plays a key role in preventing the abnormal release of spermatids from the cyst enclosure. Both the defects are rescued by the somatic cyst cell-specific expression of the UAS-orco transgene. These results highlight a novel role of Orco in the somatic tissue during sperm release.

Modulation of cerebral haemodynamic response to olfactory stimuli by emotional valence detected by functional magnetic resonance imaging / Modulação da resposta hemodinâmica cerebral pela valência emocional de estímulos olfativos detectada pela por ressonância magnética funcional

ABSTRACT. Olfactory perception, although restricted to just a few contexts in everyday life, is key in medicine. Several dementia conditions have been associated with early loss of olfactory discrimination. Despite the fact that several brain areas have been associated with olfaction in functional magnetic resonance imaging (fMRI), the mechanisms by which emotional valence is conveyed to the brain are not fully understood. Methods. In this study, we compared cerebral activations by olfactory stimuli using different emotional valence stimuli on event-related fMRI. We used three standard olfactory odorants with different valence (positive, neutral and negative). Forty-three healthy subjects (22 males) were scanned on a 3.0T MR system. Olfactory stimulation was attained through a delivery system synchronized with image acquisition and subjects´ breathing instructions. fMRI data analysis was performed by the FSL package (Oxford University) including head movement correction, GLM modeling of the neurovascular (BOLD) response and group activation maps produced at p<0.05 and corrected for multiple comparison. Results. Increased cerebral responses within the anterior cingulate, amygdaloid nuclei, as well as the dorsolateral prefrontal, occipital and orbitofrontal cortices were observed in positive and negative valence conditions, while response to neutral valence arousal was less intense and not observed in the amygdaloid complex. The most significant statistical response aroused from the stimuli clusters was observed in the negative condition. Conclusion. The results of the present study support the hypothesis that neutral stimuli may be more sensitive to early losses in pathological conditions, particularly dementia.

RESUMO. Apesar de praticamente restrita a alguns contextos na rotina diária, a percepção de estímulos olfativos é bastante relevante em medicina. Várias condições patológicas, e em particular as demências, estão associadas à perda precoce da capacidade de discriminação e percepção olfativa. Apesar de estudos de ressonância magnética funcional (RMf), terem identificado várias áreas cerebrais relacionadas à percepção olfativa, ainda não sabemos quais destas são moduladas pela valência emocional do estímulo olfativo. Neste estudo investigamos o padrão de resposta cerebral à odorantes com diferentes valências emocionais em indivíduos saudáveis estudados por RMf relacionada à eventos. Métodos. Comparamos a resposta cerebral em um desenho de RMf relacionado à eventos e com uso de três estímulos olfatórios padronizados e com diferentes valências emocionais (positiva, neutra e negativa). Quarenta e três indivíduos normais (22 homens) foram estudados por RMf relacionada à eventos em aparelho de 3T. A estimulação olfativa foi realizada por meio de sistema sincronizado à aquisição das imagens e às instruções dadas aos sujeitos. A análise dos dados foi feita por meio do software FSL (Universidade de Oxford) e incluiu correções de movimento, modelagem de sinal com técnica GLM e mapas de grupo com nível de significância < 0,5. Resultados. As respostas cerebrais no cíngulo anterior, bem como no córtex dorsolateral pré-frontal, occipital e órbitofrontal foram observadas nas condições de valência positiva e negativa, porém a resposta ao estímulo neutro foi menos intensa e não foi observada em complexos amigdaloides. A resposta estatística mais significante foi observada no cluster de estímulos com valência negativa. Conclusão. Estes dados representam evidências para a hipótese de que possivelmente a perda da percepção discriminativa de estímulos com valência emocional neutra pode ser mais sensível em relação às manifestações iniciais de condições patológicas, inclusive demências.

Understanding the Human Sensory Conduction of Smell / 한양의대학술지

The olfactory epithelium is the main end organ for the sense of smell in humans and vertebrates. Specially differenciated neuronal cells called olfactory receptor neurons (ORNs) play a key role in the olfactory epithelium by expressing the olfactory receptors (ORs) on their apical surface membrane. The ORs are G-protein coupled receptors that transmit signals from odorants to ORNs by molecular cascades using cyclic adenosine monophosphate, calcium ions and other molecules, which result in the depolarization of ORN. Unlike other mammalian animals, only about 30% of OR genes in the human genome are expressed. The Nobel Prize was awarded to the scientists who cloned these ORs for the first time. Each ORN expresses only a single type of OR, and ORNs which express the same type of OR converge together into the same glomeruli in the olfactory bulb. A single OR recognizes multiple odorants, and a single odorant is recognized by multiple ORs with varying affinities. At the higher neurons beyond the bulb, neuronal connections are divergent. The combinatorial model of odor identification and discrimination is well established at the convergence level, but little is known about the action mechanisms of neuronal divergence for odor identification and discrimination and further study is required.

Molecular analysis of an odorant-binding protein gene in two sympatric species of Lutzomyia longipalpis s.l.

Lutzomyia longipalpis s.l. is the main vector of American visceral leishmaniasis (AVL) and occurs as a species complex. DNA samples from two Brazilian sympatric species that differ in pheromone and courtship song production were used to analyse molecular polymorphisms in an odorant-binding protein ( obp29 ) gene. OBPs are proteins related to olfaction and are involved in activities fundamental to survival, such as foraging, mating and choice of oviposition site. In this study, the marker obp29 was found to be highly polymorphic in Lu. longipalpis s.l. , with no fixed differences observed between the two species. A pairwise fixation index test indicated a moderate level of genetic differentiation between the samples analysed.

Odor-Dependent Hemodynamic Responses Measured with NIRS in the Main Olfactory Bulb of Anesthetized Rats

In this study, we characterize the hemodynamic changes in the main olfactory bulb of anesthetized Sprague-Dawley (SD) rats with near-infrared spectroscopy (NIRS, ISS Imagent) during presentation of two different odorants. Odorants were presented for 10 seconds with clean air via an automatic odor stimulator. Odorants are: (i) plain air as a reference (Blank), (ii) 2-Heptanone (HEP), (iii) Isopropylbenzene (IB). Our results indicated that a plain air did not cause any change in the concentrations of oxygenated (Delta[HbO2]) and deoxygenated hemoglobin (Delta[Hbr]), but HEP and IB induced strong changes. Furthermore, these odor-specific changes had regional differences within the MOB. Our results suggest that NIRS technology might be a useful tool to identify of various odorants in a non-invasive manner using animals which has a superb olfactory system.

The Odorant Signaling Pathway

Through the sense of smell mammals can obtain information about food, danger, sexual partners and predators. Two main different types of signals can be recognized by the olfactory system: volatile odorants, which are detected by the olfactory sensory neurons of the nose; and pheromones, which are detected by the vomeronasal neurons of the accessory olfactory system, or vomeronasal organ. These sensory neurons express respectively hundreds of odorant and pheromone receptors, which belong to the superfamily of G protein-coupled receptors. We review the general organization of the main and accessory olfactory systems, the structures of the receptor families in each of these organs and their signaling pathways.