Richard Hopper, Daniel Popa, Emanuela Maggioni, Devarsh Patel, Marianna Obrist, Basile Nicolas Landis, Julien Wen Hsieh, Florin Udrea
{"title":"多通道便携式气味传递装置,用于自我管理和快速气味测试。","authors":"Richard Hopper, Daniel Popa, Emanuela Maggioni, Devarsh Patel, Marianna Obrist, Basile Nicolas Landis, Julien Wen Hsieh, Florin Udrea","doi":"10.1038/s44172-024-00286-1","DOIUrl":null,"url":null,"abstract":"To improve our understanding of the perception of odors, researchers are often required to undertake experimental procedures with users exposed to multiple odors in a variety of settings, including to diagnose smell loss in clinics and care homes. Existing smell tests are typically administered using multiple sniffing pens, manually presented to patients by a highly specialized nurse using a time-consuming and complex testing paradigm. Automated odor delivery devices, such as olfactometer systems, exist but are expensive, bulky and typically lab based, making them difficult to use for on the ground odor delivery. Here we have developed a portable, affordable, odor delivery device that can deliver 24 odors through individual channels with high temporal precision and without cross-contamination. The device allows for the rapid, flexible sequencing of odors via digital control using a mobile application and has been experimentally validated in the lab, as well as tested on patients. The design provides several advantages for investigating olfactory perception and offers the possibility that users can one day self-administer smell tests in a range of settings, including at home, allowing smell healthcare services to evolve and become part of a routine practice and self-care culture. Richard Hopper and colleagues design a multi-channel odor delivery system. Their device allows high precision olfactory experiences to be created with a compact desktop unit.","PeriodicalId":72644,"journal":{"name":"Communications engineering","volume":" ","pages":"1-8"},"PeriodicalIF":0.0000,"publicationDate":"2024-10-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.nature.com/articles/s44172-024-00286-1.pdf","citationCount":"0","resultStr":"{\"title\":\"Multi-channel portable odor delivery device for self-administered and rapid smell testing\",\"authors\":\"Richard Hopper, Daniel Popa, Emanuela Maggioni, Devarsh Patel, Marianna Obrist, Basile Nicolas Landis, Julien Wen Hsieh, Florin Udrea\",\"doi\":\"10.1038/s44172-024-00286-1\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"To improve our understanding of the perception of odors, researchers are often required to undertake experimental procedures with users exposed to multiple odors in a variety of settings, including to diagnose smell loss in clinics and care homes. Existing smell tests are typically administered using multiple sniffing pens, manually presented to patients by a highly specialized nurse using a time-consuming and complex testing paradigm. Automated odor delivery devices, such as olfactometer systems, exist but are expensive, bulky and typically lab based, making them difficult to use for on the ground odor delivery. Here we have developed a portable, affordable, odor delivery device that can deliver 24 odors through individual channels with high temporal precision and without cross-contamination. The device allows for the rapid, flexible sequencing of odors via digital control using a mobile application and has been experimentally validated in the lab, as well as tested on patients. The design provides several advantages for investigating olfactory perception and offers the possibility that users can one day self-administer smell tests in a range of settings, including at home, allowing smell healthcare services to evolve and become part of a routine practice and self-care culture. Richard Hopper and colleagues design a multi-channel odor delivery system. 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Multi-channel portable odor delivery device for self-administered and rapid smell testing
To improve our understanding of the perception of odors, researchers are often required to undertake experimental procedures with users exposed to multiple odors in a variety of settings, including to diagnose smell loss in clinics and care homes. Existing smell tests are typically administered using multiple sniffing pens, manually presented to patients by a highly specialized nurse using a time-consuming and complex testing paradigm. Automated odor delivery devices, such as olfactometer systems, exist but are expensive, bulky and typically lab based, making them difficult to use for on the ground odor delivery. Here we have developed a portable, affordable, odor delivery device that can deliver 24 odors through individual channels with high temporal precision and without cross-contamination. The device allows for the rapid, flexible sequencing of odors via digital control using a mobile application and has been experimentally validated in the lab, as well as tested on patients. The design provides several advantages for investigating olfactory perception and offers the possibility that users can one day self-administer smell tests in a range of settings, including at home, allowing smell healthcare services to evolve and become part of a routine practice and self-care culture. Richard Hopper and colleagues design a multi-channel odor delivery system. Their device allows high precision olfactory experiences to be created with a compact desktop unit.