關於安賽蜜您需要了解的一切

Acesulfame K, also known as Acesulfame K or Ace K, is a synthetic non-caloric sugar substitute (artificial sweetener) commonly sold under the trade names Sunet and Sweet One. In the EU, its name is E number E950.

The history of acesulfame potassium

Acesulfame potassium was accidentally discovered in 1967 by Karl Clauss and Harald Jensen of Hoechst AG. Developed later. After accidentally dipping his fingers in the chemicals he was working with, Klaus licked his fingers and picked up a piece of paper. Clauss is the listed inventor on a 1975 U.S. patent issued to assignee Hoechst Aktiengesellschaft covering a method of making acesulfame potassium. Subsequent research showed that many compounds with the same basic ring structure have varying degrees of sweetness. 6-Methyl-1,2,3-oxathiazin-4(3 H )-one 2,2-dioxide has particularly good taste characteristics and is relatively easy to synthesize, so it was selected for further study and was obtained The common name (acesulfame potassium-K) was approved by the World Health Organization in 1978. Acesulfame potassium was first approved for tabletop use in the United States in 1988 . White crystalline powder, molecular formula C4H4 potassium nitrate 4S, molecular weight 201.24 g/mol.

Features of acesulfame potassium

Acesulfame potassium is 200 times as sweet as sucrose (ordinary sugar), as sweet as aspartame, about two-thirds as sweet as saccharin, and one-third as sweet as sucralose. Like saccharin, it has a slightly bitter taste, especially in high concentrations. Kraft Foods patented the use of sodium ferulate to mask the aftertaste of acesulfame potassium. Acesulfame potassium is often mixed with other sweeteners, usually sucralose or aspartame. These blends are considered to have a more sucrose-like taste, with each sweetener masking the aftertaste of the other or exhibiting a synergistic effect that makes the blend sweeter than its ingredients. Acesulfame potassium has a smaller particle size than sucrose, allowing it to blend more evenly with other sweeteners.

Unlike aspartame, acesulfame potassium is stable under heat, even under moderately acidic or alkaline conditions, so it can be used as a food additive in baking, or in products requiring a longer shelf life. Although acesulfame potassium has a stable shelf life, it eventually degrades to acetate, which can be toxic at high doses. In carbonated drinks, it is almost always combined with another sweetener, such as aspartame or sucralose. It is also used as a sweetener in protein shakes and pharmaceuticals, especially chewable tablets and liquid medications, where it can make the active ingredient more palatable. The acceptable daily intake of acesulfame potassium is 15 mg/kg/day.

Acesulfame K is widely used in the human diet and is excreted via the kidneys. Therefore, researchers use it as a marker to assess how contaminated a swimming pool is with urine.

Other names for acesulfame potassium are acesulfame potassium, 6-methyl-1,2,3-oxothiazin-4(3H)-one-2,3-dioxide potassium salt, and 6-methyl- 1,2,3-Potassium salt of oxathiazin-4(3 H)-one-3-ester-2,2-dioxide.

Effect on body weight

Acesulfame K provides a sweet taste with no caloric value. There is no high-quality evidence that using acesulfame potassium as a sweetener affects body weight or body mass index (BMI).

What is acesulfame potassium?

Acesulfame potassium is a non-caloric sweetener used in foods and beverages to provide sweetness without adding the calories contained in sugar. While some types of sweeteners are considered non-caloric (such as acesulfame potassium, monk fruit sweetener, stevia sweetener, and sucralose), other types of sweeteners are low-calorie (such as aspen Batame), but these ingredients are often collectively referred to as artificial sweeteners, high-intensity sweeteners, low-calorie sweeteners, low- and no-calorie sweeteners, non-nutritive sweeteners, or sugar substitutes .

Acesulfame potassium was originally developed by German researchers in 1967 and was first approved for use in Europe in 1983. Five years later, in 1988, it was approved in the United States. Today, it is often combined with other low- and no-calorie sweeteners, such as aspartame and sucralose, to taste more like sugar than acesulfame potassium on its own.

Like other low- and no-calorie sweeteners, acesulfame potassium is very sweet. It is approximately 200 times sweeter than sucrose (table sugar), so only a small amount is needed to match the sweetness provided by sugar. Acesulfame K maintains its sweetness over a wide temperature range and under many food processing conditions, which allows it to be used as an ingredient in a variety of food products, including baked goods, beverages, confectionery, chocolate, dairy products, desserts, and More. When Acesulfame Potassium is used as an ingredient in packaged foods or beverages, it will appear on the ingredient list of that product as Ace-K, Acesulfame Potassium K, or Acesulfame Potassium.

What changes will happen after taking acesulfame potassium?

Acesulfame potassium produces a sweet taste soon after consumption. Eventually, it is fully absorbed from the intestines into our bloodstream, filtered out by our kidneys, and rapidly excreted unchanged through the urine - all in about 24 hours. Small amounts of acesulfame potassium may also be excreted into the breast milk of nursing women.

Is it safe to take acesulfame potassium?

Acesulfame potassium is safe to consume. It has been approved by the U.S. Food and Drug Administration (FDA) since 1988 and is one of eight low- and no-calorie sweeteners currently allowed in the U.S. food supply. Leading global health authorities such as the European Food Safety Authority (EFSA), the Joint FAO/WHO Expert Committee on Food Additives (JECFA), the Japanese Ministry of Health, Labor and Welfare, the Food Standards Australia New Zealand (FSANZ), and Health Canada also Acesulfame potassium has been found to be safe for consumption.

How much acesulfame potassium is safe to take?

The FDA sets Acceptable Daily Intake (ADI) levels for many of the food ingredients it allows for use in foods and beverages. The ADI is a lifetime average daily intake that is expected to be safe based on numerous studies. It is derived by determining the No Observed Adverse Effect Level (NOAEL), which is the highest intake level at which no adverse effects are found in lifetime studies in animal models. The NOAEL is then usually divided by 100. Setting the ADI 100 times lower than the upper limit of no adverse effects in toxicology studies increases the safety margin and helps ensure safety for human ingestion.

The daily ADI of acesulfame potassium approved by EFSA is 0-9 mg per kilogram (kg) of body weight. The FDA and JECFA each set the ADI at 0-15 mg/kg body weight per day. According to the FDA's ADI for acesulfame potassium, a person weighing 150 pounds (68 kg) would exceed the ADI if they consumed more than 26 servings of acesulfame potassium-containing sweeteners per day during their lifetime.

Although precise measurements of total acesulfame potassium intake in the United States are limited, a recently reported conservative average estimate of daily acesulfame potassium intake from beverages for U.S. adults is 1.8 mg/kg body weight. This intake is well below the FDA ADI. Globally, estimated intake of acesulfame potassium from food and beverages also remains well below the EFSA and JECFA ADI. A 2018 scientific review found that studies conducted since 2008 did not raise concerns about major low- and no-calorie sweeteners, including acesulfame potassium, exceeding the ADI in the general population.

Does acesulfame potassium cause cancer?

When concerns arose in the early 1970s that low-calorie sweeteners might cause cancer, the news sparked concern among governments, scientists and the public. Preliminary research suggests that saccharin causes bladder cancer in male rats and may have similar effects in humans. However, subsequent research determined that saccharin does not cause cancer in humans. The biological mechanism by which saccharin consumption causes cancer is specific to rats and does not apply to humans.

Since then, scientists have continued to study the potential link between low-calorie sweeteners and cancer. Several studies over the decades have claimed to prove that certain types of low-calorie sweeteners cause cancer, prompting widespread scrutiny of the methods used to support such conclusions. Independent government and expert reviews have repeatedly found that these studies have significant flaws and do not meet the standards for official safety assessments. Government agencies' safety assessments are based on the highest quality scientific research, which consistently shows that consuming low-calorie sweeteners does not cause cancer or increase the risk of cancer.

Can children take acesulfame potassium?

Health and food safety agencies such as EFSA, FDA and JECFA have concluded that acesulfame potassium is safe for adults and children to consume within the ADI.

Professional health organizations such as the American Heart Association (AHA) and the American Academy of Pediatrics (AAP) have issued recommendations regarding low-calorie sweetener intake in children. The American Heart Association recommends that children avoid regular drinks containing low-calorie sweeteners and instead recommends drinking water and other unsweetened beverages, such as plain milk. One of the notable exceptions to the 2018 AHA scientific recommendations is that for children with diabetes, drinking low-calorie sugary drinks instead of sugary drinks may benefit their blood sugar management. Likewise, the American Academy of Pediatrics recognizes that consumption of low-calorie sweeteners in children over two years of age may help reduce caloric intake (especially in obese children), dental caries incidence, and glycemic responses in children with type 1 and type 2 diabetes.

The 2020-2025 Dietary Guidelines for Americans (DGA) do not recommend low-calorie sweeteners or added sugars for children under two years of age. This recommendation from the DGA has nothing to do with weight, diabetes, or the safety of added sugar or low-calorie sweeteners, but rather aims to avoid babies and young children’s preference for overly sweet foods during this stage of their development.

Can pregnant women take acesulfame potassium?

According to EFSA, FDA and JECFA, acesulfame potassium is safe for pregnant or breastfeeding women to consume within the ADI range. The FDA approves the use of acesulfame potassium in any population without any restrictions. However, pregnant women should consult their health care provider about nutritional issues, including the use of low- and no-calorie sweeteners such as acesulfame potassium.

Can diabetics take acesulfame potassium?

A recent consensus statement from experts in the fields of nutrition, medicine, physical activity, and public health cites the neutral effects of low-calorie sweeteners, including acesulfame potassium, on HbA1c, fasting and postprandial blood glucose, and insulin levels, and concludes Conclusion: Using low-calorie sweeteners in diabetes self-care may contribute to better blood glucose management.

A global health professional organization has published its conclusions on the safety and effects of low-calorie sweeteners in people with diabetes. The 2022 American Diabetes Association Diabetes Standards of Care state, “For some people with diabetes who are accustomed to regularly consuming sugar-containing products, nonnutritive sweeteners (containing few or no calories) may be a substitute for nutritive sweeteners (these Acceptable substitutes for sweeteners). Caloric-containing foods such as sugar, honey, and agave syrup), but consumed in moderation. Nonnutritive sweeteners do not appear to have a significant impact on blood sugar management, but as long as the individual does not By adding extra calories from other food sources, they can reduce overall calorie and carbohydrate intake." Diabetes Canada and Diabetes UK also support the use of low- and no-calorie sweeteners (such as acesulfame potassium) for people with diabetes. similar statements of safety and potential use.

Despite these conclusions, some studies raise questions about low-calorie sweeteners and blood sugar management. Some observational studies have shown an association between consumption of low-calorie sweeteners in diet beverages and the risk of type 2 diabetes; however, observational studies cannot prove cause and effect. Conclusions from observational study designs are at risk of reverse causation and confounding. For example, many studies did not adjust for obesity, a direct contributor to prediabetes and type 2 diabetes. This is an important omission given that overweight and obese people tend to consume more low-calorie sweetened beverages compared with leaner people.

Does acesulfame potassium cause tooth decay?

There are many factors that cause tooth decay, including the amount of sugar eaten, the consistency of the food eaten, the frequency of eating, and daily oral hygiene. Like other low- and no-calorie sweeteners, acesulfame potassium does not cause tooth decay. Bacteria in your mouth do not feed on acesulfame potassium, so it is not converted into plaque or harmful acids that cause cavities.

What's the bottom line?

Acesulfame potassium has been approved by the FDA as a food additive for more than 30 years, and its safety has been repeatedly recognized by many international health agencies. All types of foods and beverages, including those made with acesulfame potassium, can have a place in a variety of healthy eating patterns. Choosing foods and beverages sweetened with low- and no-calorie sweeteners, such as acesulfame potassium, is one way to reduce your consumption of added sugar and control calories, both of which are important components of staying healthy.

Review

All comments are moderated before being published

HealthyPIG Magazine

View all
Transform Your Home with the Philips Smart 1000i Air Purifier: Allergy Relief Meets Smart Living

Transform Your Home with the Philips Smart 1000i Air Purifier: Allergy Relief Meets Smart Living

In today’s fast-paced world, where indoor air quality often goes unnoticed, the Philips Air Purifier Smart 1000i Series offers a breath of fresh ai...
皮質醇管理:如何控制皮質醇?我們能夠自行管理或調節劑量嗎?

皮質醇管理:如何控制皮質醇?我們能夠自行管理或調節劑量嗎?

皮質醇是一種在壓力反應中發揮重要作用的激素,適量的皮質醇可以幫助我們應對壓力和維持健康。然而,過量或長期的高皮質醇水平可能會對身體帶來負面影響。以下我們將探討如何控制和管理皮質醇,包括自然方法、藥物干預、以及測量皮質醇的方式。 1. 自然方法調節皮質醇 壓力管理技術:研究顯示,冥想、深呼吸...
皮質醇是什麼?它如何影響我們的身體與日常生活?

皮質醇是什麼?它如何影響我們的身體與日常生活?

皮質醇(Cortisol)是一種由腎上腺分泌的激素,通常被稱為「壓力荷爾蒙」。它的主要功能是幫助身體應對壓力情境,並且在多種生理過程中扮演重要角色。皮質醇的釋放受腦部下丘腦-垂體-腎上腺軸(HPA軸)控制,這是一個調節人體反應於壓力的系統。 皮質醇對身體的影響 當我們處於壓力下時,皮質...
為什麼我們在緊張時總是忍不住吃零食?科學解密壓力性飲食行為

為什麼我們在緊張時總是忍不住吃零食?科學解密壓力性飲食行為

當人們感到緊張或壓力時,經常會無意識地吃零食,這種行為主要涉及大腦的多巴胺系統、情緒反應以及身體的生理需求。以下是背後的幾個主要原因: 壓力荷爾蒙的影響:壓力會觸發皮質醇的釋放,這種壓力激素會引發人們對高糖和高脂肪食物的渴望。這些食物能帶來短暫的愉悅感,因為它們能刺激大腦分泌多巴胺,讓人感...
光學治療濕疹 - 全面總結

光學治療濕疹 - 全面總結

簡介 光療使用光波來治療某些皮膚問題。皮膚會暴露於紫外線 (UV) 光下一段設定的時間。光療利用人造的紫外線光源,紫外線也來自陽光。當與一種叫做甲氧補骨脂素的藥物一起使用時,這個程序稱為 PUVA 光療。 紫外線光能夠抑制皮膚中的免疫系統細胞,對於因免疫系統過度反應引起的皮膚問題有幫助。可以使...
什麼是「操縱者」?

什麼是「操縱者」?

操縱者,也可以說成「擅用手段的人」,「心機重的人」。操縱者利用欺騙、影響或者其他形式的心理操控來控制或影響他人,以達到自己的目標。他們的行為通常包含使用隱蔽、間接或偷偷摸摸的手法來獲得他們想要的東西,往往是以犧牲他人為代價。以下是一些常見的特徵和手段: 欺騙: 他們可能會說謊或扭曲事實來誤...
什麼是肌肉抽搐?你需要去看醫生嗎?

什麼是肌肉抽搐?你需要去看醫生嗎?

肌肉抽搐,也稱為肌束顫動,是指身體各部分出現不自主的肌肉收縮。以下是肌肉抽搐的原因、症狀及管理方法的詳細介紹: 肌肉抽搐的原因 壓力和焦慮 高水平的壓力和焦慮會導致肌肉緊張和抽搐。身體對壓力的反應會觸發神經系統,導致肌肉不自主地收縮。 疲勞 過度使用或劇烈運動後的肌肉疲勞會導致肌...
蘋果與牙齒健康:保護牙齒的小技巧

Apples and Dental Health: Tips to Protect Your Teeth

Apples are widely loved for their rich nutritional content and refreshing taste. However, apples' acidic and sugary content may also have an impact...
蘋果籽的毒性:它們真的有毒嗎?

Apple Seed Toxicity: Are They Really Poisonous?

Apple seeds contain cyanogenic glycosides, compounds that break down in the body to produce cyanide, which has raised concerns about the toxicity o...