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簡(jiǎn)要描述:BodyCap的e-Celsius體溫測(cè)量膠囊是一款可連續(xù)監(jiān)測(cè)、記錄并無線傳輸核*心體溫信號(hào)的微型膠囊
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BodyCap的e-Celsius體溫測(cè)量膠囊是一款可連續(xù)監(jiān)測(cè)、記錄并無線傳輸核*心體溫信號(hào)的微型膠囊。
體溫膠囊經(jīng)口腔攝入進(jìn)入體內(nèi),通過胃、腸道,由排出。膠囊自身具有記憶功能,測(cè)量對(duì)象無需佩戴任何監(jiān)測(cè)器而進(jìn)行無限制的測(cè)量。使用簡(jiǎn)單方便,用于多個(gè)科研領(lǐng)域。我們還有動(dòng)物的核心體溫膠囊。
外部溫度和環(huán)境濕度會(huì)將與物理力有關(guān)的熱應(yīng)力放大,人體體溫調(diào)節(jié)機(jī)制的飽和系統(tǒng)性地導(dǎo)致性能下降,并可迅速導(dǎo)致體溫過高?;诳蓴z取電子膠囊的e-Celsius Performance®解決方案可實(shí)現(xiàn)對(duì)核心體溫的連續(xù)監(jiān)測(cè)。系統(tǒng)能夠識(shí)別和傳輸溫度,并連續(xù)記錄人體的核*心溫度,在1米范圍之內(nèi)都可以收集到可靠的實(shí)驗(yàn)數(shù)據(jù)。
在運(yùn)行項(xiàng)目的應(yīng)用中:很多項(xiàng)目都具備測(cè)試條件,特別是有氧運(yùn)動(dòng)為主的項(xiàng)目,如自行車,長(zhǎng)跑,鐵人三項(xiàng);也可應(yīng)用于橄欖球和跳水項(xiàng)目。
多種規(guī)格可供選擇,有專門的人體型號(hào),也有多種用于實(shí)驗(yàn)室大鼠、小鼠、比格犬等動(dòng)物的型號(hào)。
體溫膠囊的主要特點(diǎn):
·體積小巧,食用方便,對(duì)機(jī)體無損害;
· 實(shí)時(shí)、連續(xù)、監(jiān)測(cè);
· 無線無導(dǎo)管測(cè)量,測(cè)試對(duì)象亦無需實(shí)時(shí)佩戴監(jiān)測(cè)器,實(shí)現(xiàn)無限制測(cè)量方案;
· 膠囊內(nèi)置存儲(chǔ)記憶功能,可存儲(chǔ)多達(dá)2000組數(shù)據(jù),無需擔(dān)心數(shù)據(jù)丟失;
· 監(jiān)測(cè)器可同時(shí)監(jiān)測(cè)3枚膠囊數(shù)據(jù),且自身可多達(dá)7臺(tái)并聯(lián),實(shí)現(xiàn)高通量測(cè)量;
主要技術(shù)參數(shù):
· 人用體溫膠囊,經(jīng)口服攝入,通過消化道排泄,體內(nèi)時(shí)間1-2天(因人而異)
· 測(cè)量參數(shù):測(cè)量溫度范圍25-45℃,精確度0.02℃,采樣頻率30Hz(可設(shè)定),內(nèi)部可存儲(chǔ)2000組數(shù)據(jù);
· 傳輸參數(shù):傳輸距離1m,傳輸頻率433Hz;
·規(guī)格參數(shù):17.7*8.9mm,重1.7g,可存儲(chǔ)時(shí)間1年,開始使用后20天;
· 可同時(shí)監(jiān)測(cè)并顯示3枚膠囊傳輸數(shù)據(jù),并可通過PC/MAC觀察分析;
· 每臺(tái)監(jiān)測(cè)器可存儲(chǔ)80000組數(shù)據(jù);
主要應(yīng)用領(lǐng)域:
·體溫過低/高溫中暑預(yù)防:體溫測(cè)量降低低溫/高溫惡劣環(huán)境損害,或加強(qiáng)對(duì)發(fā)熱、寒戰(zhàn)等的感知;
·運(yùn)動(dòng)熱身/恢復(fù)監(jiān)測(cè):監(jiān)測(cè)人體鍛煉各階段體溫的變化,有助于判斷機(jī)體運(yùn)動(dòng)技能;
·技能評(píng)估、優(yōu)化:用于評(píng)估機(jī)體體溫調(diào)節(jié)或心臟節(jié)律調(diào)節(jié)功能等;
·量化、預(yù)防、規(guī)避時(shí)差影響:監(jiān)測(cè)體溫晝夜節(jié)律變化,制定合理作息,從而規(guī)避時(shí)差影響等;
· 睡眠、晝夜節(jié)律和運(yùn)動(dòng)表現(xiàn)分析:通過體溫變化反映機(jī)體睡眠、晝夜節(jié)律、運(yùn)動(dòng)等規(guī)律。
參考文獻(xiàn):
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2. Topilko T et al.,(2022) “ Edinger-Westphal peptidergic neurons enable maternal preparatory nesting" Neuron doi:10.1016/j.neuron.2022.01.012
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4. Laperrousaz et al., (2018) “Lipoprotein Lipase Expression in Hypothalamus is involved in the Central Regulation of Thermogenesis and the Response to Cold Exposure" Frontiers in Endocrinology doi: 10.3389/fendo.2018.00103
5. Meyer et al., (2017) “Body Temperature Measurements for Metabolic Phenotyping in Mice" Frontiers in Endocrinology doi: 10.3389/fendo.2018.00103
6. Ru?ange et al., (2020) “Pre-warming before general anesthesia with iso?urane delays the onset of hypothermia in rats" PLoS One doi: 10.1371/journal.pone.0219722
7. Tattersall et al., (2016) “Novel energy-saving strategies to multiple stressors in birds: the ultradian regulation of body temperature" P Roy Soc B-Biol Sci doi: 10.1098/rspb.2022.0526
8. Schulze et al., (2018) “Body temperature of bitches in the ?rst week after parturition measured by ingestible loggers" Reproduction in Domestic Animals doi:10.1111/rda.13330
9. Guisle et al., (2020) “Circadian and sleep/wake-dependent variations in tau phosphorylation are driven by temperature" Sleep doi:10.1093/sleep/zsz266
10. Thi Cuc Mai et al.,(2021) “Low-Level Radiofrequency Exposure Induces Vasoconstriction in Rats." Sci Rep DOI:10.1002/bem.22350
eCelsius
11. Mart Toots et al., (2019) “Characterization of orally efficacious influenza drug with high resistance barrier in ferrets and human airway epithelia Sci Transl Med "doi:10.1016/j.xcrm.2021.100408
12. van Maanen L et al., (2019) “Core body temperature speeds up temporal processing and choice behavior under deadlines" Sci Rep doi:10.1038/s41598-019-46073-3
13. Marine Alhammoud et al.,(2021)“Thermoregulation and shivering responses in elite alpine skiers" Eur J Sport Sci doi:10.1080/17461391.2020.1754470
14. Christopher J. Stevens et al.,(2018) “Effect of two-weeks endurance training wearing additional clothing in a temperate outdoor environment on performance and physiology in the heat " Temperature (Austin) doi:10.1080/23328940.2018.1474672
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