نتایج جستجو برای: bulb production

تعداد نتایج: 616500  

Journal: :Neuron 1995
Qizhi Gong Michael T Shipley

Early olfactory axons follow a specific pathway to reach the developing telencephalon. We observed that a subpopulation of these axons, the pioneer olfactory axons, penetrate into the ventricular zone of a highly restricted region of the telencephalon at E13 and E14. At E15, this same telencephalic region evaginates to form the olfactory bulb. To investigate the possibility that the pioneer olf...

Journal: :Otology & neurotology : official publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology 2015
Christopher D Brook Karen Buch Dominick Gadaleta Scharukh Jalisi Gregory Grillone Osamu Sakai Avner Aliphas

OBJECTIVE To determine whether sacrifice of the internal jugular vein (IJV) causes subsequent changes in the jugular bulb. STUDY DESIGN Retrospective chart review. SETTING Tertiary referral center. PATIENTS Patients were selected by CPT code for neck dissection and were included in the study if they had undergone unilateral neck dissection and had preoperative and postoperative computed t...

Journal: :The Journal of neuroscience : the official journal of the Society for Neuroscience 1999
P E Castillo A Carleton J D Vincent P M Lledo

The main olfactory bulb is a critical relay step between the olfactory epithelium and the olfactory cortex. A marked feature of the bulb is its massive innervation by cholinergic inputs from the basal forebrain. In this study, we addressed the functional interaction between cholinergic inputs and intrinsic bulbar circuitry. Determining the roles of acetylcholine (ACh) requires the characterizat...

Journal: :Neuron 2015
Gonzalo H. Otazu Honggoo Chae Martin B. Davis Dinu F. Albeanu

The olfactory bulb receives rich glutamatergic projections from the piriform cortex. However, the dynamics and importance of these feedback signals remain unknown. Here, we use multiphoton calcium imaging to monitor cortical feedback in the olfactory bulb of awake mice and further probe its impact on the bulb output. Responses of feedback boutons were sparse, odor specific, and often outlasted ...

Journal: :Ear, Nose & Throat Journal 2007

Journal: :Journal of Industrial & Engineering Chemistry 1911

2016
Benjamin Roland Rebecca Jordan Dara L Sosulski Assunta Diodato Izumi Fukunaga Ian Wickersham Kevin M Franks Andreas T Schaefer Alexander Fleischmann

Perturbations in neural circuits can provide mechanistic understanding of the neural correlates of behavior. In M71 transgenic mice with a "monoclonal nose", glomerular input patterns in the olfactory bulb are massively perturbed and olfactory behaviors are altered. To gain insights into how olfactory circuits can process such degraded inputs we characterized odor-evoked responses of olfactory ...

Journal: :Frontiers in neuroscience 2015
Sei-ichi Yoshihara Hiroo Takahashi Akio Tsuboi

Inhibitory interneurons in the olfactory bulb are generated continuously throughout life in the subventricular zone and differentiate into periglomerular and granule cells. Neural circuits that undergo reorganization by newborn olfactory bulb interneurons are necessary for odor detection, odor discrimination, olfactory memory, and innate olfactory responses. Although sensory experience has been...

Journal: :Neuron 2012
Olaf Bergmann Jakob Liebl Samuel Bernard Kanar Alkass Maggie S.Y. Yeung Peter Steier Walter Kutschera Lars Johnson Mikael Landén Henrik Druid Kirsty L. Spalding Jonas Frisén

Continuous turnover of neurons in the olfactory bulb is implicated in several key aspects of olfaction. There is a dramatic decline postnatally in the number of migratory neuroblasts en route to the olfactory bulb in humans, and it has been unclear to what extent the small number of neuroblasts at later stages contributes new neurons to the olfactory bulb. We have assessed the age of olfactory ...

2004
Natacha Gueorguieva Georgi Georgiev Iren Valova

This work presents a spiking neuron model of the olfactory bulb. The main purpose is to simulate certain dynamics within the olfactory bulb. It is shown how certain parameters of the spiking neuron model can be used to model these dynamics. The model is based on the two main cell types in the olfactory bulb, the mitral and granule cells. The dynamics that have been simulated include the recipro...

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