嚼口香糖的最大害處:攝入微塑料
Beth Greenfield
2025-04-01
微塑料是指需要數(shù)百年才能分解的微小塑料顆粒,,從自來水到茶包,,微塑料在我們的生活中無處不在,甚至我們的血液和肺部也能找到它們的存在,。最新研究顯示,,口香糖也會(huì)導(dǎo)致人體囤積有害的微塑料。
科研人員在圣迭戈舉辦的美國化學(xué)學(xué)會(huì)春季會(huì)議上分享了這項(xiàng)研究成果,。該研究顯示,,不論是天然的還是合成的口香糖,,都含有塑料聚合物成分,用于改善口味和口感,,但它也會(huì)導(dǎo)致人體攝入微塑料,。這些微塑料可以通過唾液攝入,而且94%的微塑料會(huì)在嚼口香糖的前8分鐘內(nèi)被釋放出來,。
該項(xiàng)目首席研究員,、加州大學(xué)洛杉磯分校工程學(xué)教授桑杰?莫漢蒂表示:“我們并不是想讓大家感到恐慌,科學(xué)家們尚不清楚這些微塑料是否對(duì)人體有害,,因?yàn)槟壳斑€沒有這方面的人體試驗(yàn),。但是我們知道,我們?cè)谌粘I钪锌偰芡ㄟ^各種途徑攝入塑料,,這就是我們想要研究的問題,。”
微塑料的危險(xiǎn)性
科學(xué)界近期關(guān)于微塑料的研究表明,,微塑料可以進(jìn)入人體血液系統(tǒng),。歐洲從事相關(guān)研究的獨(dú)立科學(xué)家海瑟?萊斯利對(duì)《財(cái)富》表示,雖然相關(guān)研究還在進(jìn)行中,,但是“在微塑料囤積的人體組織中出現(xiàn)炎癥反應(yīng)和代謝變化的證據(jù)越來越多了”,。
最近發(fā)表在《自然?醫(yī)學(xué)》雜志上的一篇論文也表明,人體的多個(gè)組織都已經(jīng)發(fā)現(xiàn)了微塑料的存在,,包括血液,、肺部、胎盤和糞便等,,此外在母乳,、睪丸和精液中也發(fā)現(xiàn)了一定含量的微塑料。有研究已經(jīng)證實(shí),,這些微塑料成分與心臟病,、中風(fēng)、腸道炎癥,、不育癥,、癌癥以及神經(jīng)發(fā)育障礙等疾病有關(guān)。
嚼口香糖有何危害,?
本文開頭提到的實(shí)驗(yàn),,是一項(xiàng)規(guī)模較小的實(shí)驗(yàn),主要研究人體在咀嚼口香糖時(shí)攝入微塑料的情況,。研究方法是讓一名受試者分別咀嚼 10種不同類型的口香糖——包括天然口香糖和合成口香糖(大多數(shù)主流品牌的口香糖都是合成口香糖),,每種口香糖的咀嚼時(shí)間為 2至20分鐘。研究人員為了避免給這些口香糖品牌帶來不必要的負(fù)面宣傳,,不愿透露這些口香糖的具體類型,,不過他們告訴《財(cái)富》:“我們使用的是在超市就能買到的十大口香糖品牌,。”
口香糖一般由橡膠基底,、甜味劑,、調(diào)味劑以及其他成分制成。天然口香糖一般使用植物基底來制造合適的咀嚼口感,,比如糖膠或其他樹膠,,而合成口香糖則一般使用從石油基聚合物中提煉的合成橡膠基底。
研究人員指出:“有趣的是,,合成口香糖釋放出的微塑料含量與天然的植物基口香糖大體相當(dāng),。”在受試者的唾液中檢出了四種主要的塑料聚合物,,其中聚烯烴最為常見,。該研究結(jié)果表明,咀嚼口香糖可能導(dǎo)致人體直接攝入微塑料,,從而對(duì)健康構(gòu)成潛在風(fēng)險(xiǎn),。
科學(xué)家們?cè)诜治鍪茉囌叩耐僖汉蟀l(fā)現(xiàn),每一克口香糖最多可釋放 637個(gè)微塑料顆粒,,幾乎所有顆粒都會(huì)在咀嚼的前8分鐘內(nèi)釋放出來,。因此,研究人員建議,,如果你想減少攝入微塑料的風(fēng)險(xiǎn),又不愿意戒掉口香糖,,那么你應(yīng)該把口香糖嚼得盡量久一些,,而不是不斷地咀嚼新的口香糖。
莫漢蒂指出,,由于試驗(yàn)所使用的儀器和技術(shù)的限制,,該試驗(yàn)僅能識(shí)別出大小在20微米以上的微塑料,受試者唾液里很可能還有更小的微塑料顆粒未被檢測(cè)到,。下一步,,他計(jì)劃與該論文的第一作者麗莎?洛伊就該課題進(jìn)行更深入的試驗(yàn),以評(píng)估咀嚼口香糖是否會(huì)導(dǎo)致人體攝入更微小的納米級(jí)的微塑料顆粒,,而這些納米級(jí)的微塑料顆粒是能夠進(jìn)入人體血液的,。
最后,莫漢蒂表示:“釋放到唾液里的微塑料,,只是口香糖中所含塑料的一小部分,。”(財(cái)富中文網(wǎng))
譯者:樸成奎
微塑料是指需要數(shù)百年才能分解的微小塑料顆粒,,從自來水到茶包,,微塑料在我們的生活中無處不在,,甚至我們的血液和肺部也能找到它們的存在。最新研究顯示,,口香糖也會(huì)導(dǎo)致人體囤積有害的微塑料,。
科研人員在圣迭戈舉辦的美國化學(xué)學(xué)會(huì)春季會(huì)議上分享了這項(xiàng)研究成果。該研究顯示,,不論是天然的還是合成的口香糖,,都含有塑料聚合物成分,用于改善口味和口感,,但它也會(huì)導(dǎo)致人體攝入微塑料,。這些微塑料可以通過唾液攝入,而且94%的微塑料會(huì)在嚼口香糖的前8分鐘內(nèi)被釋放出來,。
該項(xiàng)目首席研究員,、加州大學(xué)洛杉磯分校工程學(xué)教授桑杰?莫漢蒂表示:“我們并不是想讓大家感到恐慌,科學(xué)家們尚不清楚這些微塑料是否對(duì)人體有害,,因?yàn)槟壳斑€沒有這方面的人體試驗(yàn),。但是我們知道,我們?cè)谌粘I钪锌偰芡ㄟ^各種途徑攝入塑料,,這就是我們想要研究的問題,。”
微塑料的危險(xiǎn)性
科學(xué)界近期關(guān)于微塑料的研究表明,,微塑料可以進(jìn)入人體血液系統(tǒng),。歐洲從事相關(guān)研究的獨(dú)立科學(xué)家海瑟?萊斯利對(duì)《財(cái)富》表示,雖然相關(guān)研究還在進(jìn)行中,,但是“在微塑料囤積的人體組織中出現(xiàn)炎癥反應(yīng)和代謝變化的證據(jù)越來越多了”,。
最近發(fā)表在《自然?醫(yī)學(xué)》雜志上的一篇論文也表明,人體的多個(gè)組織都已經(jīng)發(fā)現(xiàn)了微塑料的存在,,包括血液,、肺部、胎盤和糞便等,,此外在母乳,、睪丸和精液中也發(fā)現(xiàn)了一定含量的微塑料。有研究已經(jīng)證實(shí),,這些微塑料成分與心臟病,、中風(fēng)、腸道炎癥,、不育癥,、癌癥以及神經(jīng)發(fā)育障礙等疾病有關(guān)。
嚼口香糖有何危害,?
本文開頭提到的實(shí)驗(yàn),,是一項(xiàng)規(guī)模較小的實(shí)驗(yàn),,主要研究人體在咀嚼口香糖時(shí)攝入微塑料的情況。研究方法是讓一名受試者分別咀嚼 10種不同類型的口香糖——包括天然口香糖和合成口香糖(大多數(shù)主流品牌的口香糖都是合成口香糖),,每種口香糖的咀嚼時(shí)間為 2至20分鐘,。研究人員為了避免給這些口香糖品牌帶來不必要的負(fù)面宣傳,不愿透露這些口香糖的具體類型,,不過他們告訴《財(cái)富》:“我們使用的是在超市就能買到的十大口香糖品牌,。”
口香糖一般由橡膠基底,、甜味劑,、調(diào)味劑以及其他成分制成。天然口香糖一般使用植物基底來制造合適的咀嚼口感,,比如糖膠或其他樹膠,,而合成口香糖則一般使用從石油基聚合物中提煉的合成橡膠基底。
研究人員指出:“有趣的是,,合成口香糖釋放出的微塑料含量與天然的植物基口香糖大體相當(dāng),。”在受試者的唾液中檢出了四種主要的塑料聚合物,,其中聚烯烴最為常見,。該研究結(jié)果表明,咀嚼口香糖可能導(dǎo)致人體直接攝入微塑料,,從而對(duì)健康構(gòu)成潛在風(fēng)險(xiǎn),。
科學(xué)家們?cè)诜治鍪茉囌叩耐僖汉蟀l(fā)現(xiàn),每一克口香糖最多可釋放 637個(gè)微塑料顆粒,,幾乎所有顆粒都會(huì)在咀嚼的前8分鐘內(nèi)釋放出來,。因此,研究人員建議,,如果你想減少攝入微塑料的風(fēng)險(xiǎn),,又不愿意戒掉口香糖,,那么你應(yīng)該把口香糖嚼得盡量久一些,,而不是不斷地咀嚼新的口香糖。
莫漢蒂指出,,由于試驗(yàn)所使用的儀器和技術(shù)的限制,,該試驗(yàn)僅能識(shí)別出大小在20微米以上的微塑料,受試者唾液里很可能還有更小的微塑料顆粒未被檢測(cè)到,。下一步,,他計(jì)劃與該論文的第一作者麗莎?洛伊就該課題進(jìn)行更深入的試驗(yàn),以評(píng)估咀嚼口香糖是否會(huì)導(dǎo)致人體攝入更微小的納米級(jí)的微塑料顆粒,,而這些納米級(jí)的微塑料顆粒是能夠進(jìn)入人體血液的,。
最后,,莫漢蒂表示:“釋放到唾液里的微塑料,只是口香糖中所含塑料的一小部分,?!保ㄘ?cái)富中文網(wǎng))
譯者:樸成奎
Microplastics—tiny plastic bits that can take hundreds of years to break down—are everywhere, from tap water to tea bags, leaving traces in our blood and lungs. Now you can add your favorite chewing gum to the list, thanks to the alarming findings of a new study.
Chewing gum, whether natural or synthetic, contains plant-based or synthetic plastic polymers to enhance texture and flavor retention, making it a source of microplastics, explained the pilot study, which was presented at the spring meeting of the American Chemical Society in San Diego. And those microplastics can be ingested through saliva—with 94% released within the first eight minutes of chewing, they found.
“Our goal is not to alarm anybody,” Sanjay Mohanty, the project’s principal investigator and an engineering professor at the University of California, Los Angeles (UCLA), said in a news release. “Scientists don’t know if microplastics are unsafe to us or not. There are no human trials. But we know we are exposed to plastics in everyday life, and that’s what we wanted to examine here.”
How dangerous are microplastics?
Recent studies into microplastics suggest they are making their way into our bloodstreams. And while the science is still evolving, Heather Leslie, an independent scientist who pioneered microplastics and human health research in Europe, previously told Fortune, “The evidence for inflammatory effects and metabolic changes in tissues where microplastics accumulate is building.”
A recent report published in Nature Medicine showed that microplastics have been found present in multiple human organs, including the blood, lungs, placenta, and feces, as well as in breast milk, testes, and semen. That ingredients of the plastics found present have already been linked to heart attack and strokes, inflammatory bowel disease, infertility, cancers, and neurodevelopmental disorders.
What did the study show about chewing gum?、
The study, which was small, looked at the release of microplastics during consumption by having a human subject chew 10 different types of both natural and synthetic (the latter being what most mainstream brands are) for two to 20 minutes each. (Researchers would not reveal the specific types of gum in order to not unfairly cause them bad publicity, but told Fortune, “We used top 10 brands one can find in a supermarket.”)
Chewing gums are made from a rubbery base, sweetener, flavorings, and other ingredients. Natural gum products use a plant-based polymer, such as chicle or other tree sap, to achieve the right chewiness, while other products use synthetic rubber bases from petroleum-based polymers.
“Interestingly,” the researchers noted, “synthetic gums released a similar amount of microplastics as natural, plant-based gums.” Four main plastic polymers were detected in the saliva, with polyolefins being the most common. These findings suggest that chewing gum may lead to the direct ingestion of microplastics, potentially posing health risks.
Saliva was then collected and analyzed for microplastics, and the results revealed that each gram of gum can release up to 637 microplastic particles, with almost all released within eight minutes. For that reason, Lowe suggests that if people want to reduce their potential exposure to microplastics from gum, they should chew one piece longer instead of popping in a new one.
Because the study was limited to identifying microplastics 20 micrometers wide or larger because of the instruments and techniques used, it’s likely, Mohanty says, that smaller plastic particles were not detected in saliva. Next, he and lead author Lisa Lowe plan to assess the potential release of smaller, or nano-size, plastics from chewing gum, which can get into the bloodstream.
“The plastic released into saliva,” Mohanty concludes, “is a small fraction of the plastic that’s in the gum.”
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