Moths use a sophisticated olfactory navigation strategy for resource localization. Here we investigate the neuronal circuits involved in sensory processing to generate locomotor commands for pheromone-source orientation in the moth. We identify a candidate pathway for pheromone processing in the protocerebrum using a mass-staining technique. Our intracellular recordings of pheromone responsiveness detect four major circuits, including a newly identified unstructured neuropil, the superior medial protocerebrum, which supplies output to the lateral accessory lobe (LAL), the premotor centre for walking commands. Interneurons innervating the lower division of the LAL elicited longer responses than those innervating the upper division. Descending interneurons innervating the lower division of the LAL showed a state-dependent flip-flop response. In contrast, input from other visual areas in the protocerebrum mostly converge onto the upper division of the LAL. These results reveal the basic organization of the LAL: the upper division is identified as a protocerebral hub that receives inputs from various areas, while the lower division generates long-lasting activity for locomotor command.
Pheromone-source orientation behavior can be modified by coexisting plant volatiles. Some host plant volatiles enhance the pheromonal responses of olfactory receptor neurons and increase the sensitivity of orientation behavior in the Lepidoptera species. Although many electrophysiological studies have focused on the pheromonal response of olfactory interneurons, the response to the mixture of pheromone and plant odor is not yet known. Using the silkmoth, Bombyx mori, we investigated the physiology of interneurons in the antennal lobe (AL), the primary olfactory center in the insect brain, in response to a mixture of the primary pheromone component bombykol and cis-3-hexen-1-ol, a mulberry leaf volatile. Application of the mixture enhanced the pheromonal responses of projection neurons innervating the macroglomerular complex in the AL. In contrast, the mixture of pheromone and cis-3-hexen-1-ol had little influence on the responses of projection neurons innervating the ordinary glomeruli whereas other plant odors dynamically modified the response. Together this suggests moths can process plant odor information under conditions of simultaneous exposure to sex pheromone.
These results suggest that T cells activated by MRSA-derived staphylococcal enterotoxins and subsequent production of cytokines may play an important role in the pathogenesis of MRSA-associated GN.
We report seven patients with scalp arteriovenous malformations, including two patients with lesions > 10 cm in diameter, who were successfully treated. The principal complaint of each patient was a deforming mass. Each of four patients had a history of blunt traumatic injury. The lesions, each consisting of the nidus, feeders, and draining veins, evolved in all patients. The nidus consisted of fistulae, which exhibited various angioarchitectures as revealed by angiography. A hemangiomatous component was histologically recognized in one patient. In five patients, in whom the lesions were relatively small and whose nidi included only large fistulae, the malformations were remedied by surgical intervention alone or were cured with embolization alone using liquid adhesives. In the two patients with lesions > 10 cm, the nidi consisted of numerous large fistulae and plexiform fistulae in one patient and plexiform fistulae and a hemangiomatous component in the other patient. These patients were treated with a combination of transarterial embolization and surgical intervention. Preoperative embolization greatly reduced blood loss during resection. Total excision and scalp reconstruction using a soft tissue expander were performed in both patients. The cosmetic results were excellent in all of the patients, and no recurrence has been recognized during the follow-up period, which ranges from 31 to 99 months. The treatment of scalp arteriovenous malformations should strive to improve deforming features and to attain a permanent cure. Because each nidus includes a variety of anomalous angioarchitectural features, there should be different means and a combination of treatments for each patient. Embolization alone could be adequate treatment in relatively small lesions, the nidi of which consist only of several large fistulae. For malformations with more extensive, large fistulae or with anomalous components other than large fistulae, a combined endovascular and surgical approach and scalp reconstruction seems to be the best treatment.
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