Energy Expenditure, Carbohydrate Oxidation and Appetitive Responses to Sucrose or Sucralose in Humans: A Pilot Study.

BACKGROUND: In light of obesity, replacing sugar with non-nutritive sweeteners is commonly used to reduce sugar content of food products. This study aimed to compare human energy expenditure (EE), carbohydrate oxidation and food intake after the ingestion of test foods sweetened with sucrose or a non-nutritive sweetener. METHODS: This was an acute crossover feeding study that entailed consumption of three test foods: jelly sweetened with 50 g sucrose (SUCROSE), with 120 mg of sucralose only (NNS), or 120 mg sucralose but matched in carbohydrate with 50 g maltodextrin (MALT). On test days, participants arrived at the research facility after an overnight fast. Resting energy expenditure (indirect calorimeter) was measured for 30 min followed by jelly consumption. Participants' EE and substrate oxidation were measured for 90 min subsequently. After EE assessment, participants completed a meal challenge before leaving the research facility, and recorded food intake for the remaining day. Subjective appetite ratings were assessed before and after test foods and meal challenge. RESULTS: Eleven participants completed the study. EE was higher in SUCROSE and MALT than NNS, but not statistically significant. Carbohydrate oxidation was SUCROSE > MALT > NNS (p < 0.001). Earlier and bigger rise in carbohydrate oxidation was observed in SUCROSE than MALT, although both were carbohydrate-matched. NNS did not promote energy expenditure, carbohydrate oxidation or stimulate appetite. CONCLUSIONS: Foods sweetened with sucrose or non-nutritive sweeteners but matched in carbohydrate content have different effects on human EE and carbohydrate oxidation. Sucralose alone did not affect EE, but lower energy in the test food from sugar replacement was eventually fully compensated. Findings from this pilot study should be verified with bigger clinical studies in the future to establish clinical relevance.

[Non-caloric sweeteners in pregnancy and lactation]. / Edulcorantes no calóricos en embarazo y lactancia.

Many pregnancies have a weight gain that is higher than recommended, situation that carries several risks for the mother and her child. As a strategy to achieve a lower weight gain, the replacement of sugar-sweetened foods and beverages by those with non-caloric sweeteners could be a choice for pregnant or puerperal mothers. The objective of this article is to review the available evidence regarding the use of non-caloric sweeteners during pregnancy and lactation. Pregnancy is not a period to lose weight, so it would not be advisable to perform hypocaloric diets. However, to achieve an adequate weight gain during pregnancy, many women choose to consume food and beverages with non-caloric sweeteners. During pregnancy, the consumption of cyclamate, saccharin and crude stevia leaf should be avoided, as well as that of stevia infusions or extracts of the whole leaf. Regarding the rest of the approved non-caloric sweeteners, their consumption during pregnancy and lactation is considered to be safe, as long as they are consumed in moderation, adhering to their admissible daily intake levels. Aspartame does not reach breast milk. While saccharin, sucralose, and acesulfame-K are detectable in breast milk, their concentration is several orders of magnitude below their admissible daily intake levels.

Muchos embarazos suponen para la gestante un incremento de peso mayor al recomendado, lo que acarrea diversos riesgos tanto para la madre como para su hijo. Como estrategia para lograr un incremento reducido de peso, el reemplazo de alimentos y bebidas azucarados por otros con edulcorantes no calóricos podría ser una elección de las madres gestantes o puérperas (recién paridas). El objetivo del presente artículo fue hacer una revisión de la evidencia disponible en relación con el uso de edulcorantes no calóricos durante el embarazo y la lactancia. El embarazo no es un período para perder peso, por lo que no sería aconsejable realizar dietas hipocalóricas. No obstante, para lograr un incremento de peso adecuado durante el embarazo, muchas mujeres optan por consumir alimentos y bebidas con edulcorantes no calóricos. En el embarazo debería evitarse el consumo de ciclamato, sacarina y hoja cruda de estevia, así como el de sus infusiones o los extractos de la hoja completa. En cuanto al resto de los edulcorantes no calóricos aprobados, su uso durante el embarazo se considera seguro, siempre y cuando se consuman con moderación, adhiriéndose a los niveles de ingesta diaria admisible de cada uno de ellos. El aspartamo no llega a la leche materna. Por otro lado, la sacarina, la sucralosa y el acesulfame-K son detectables en la leche materna, pero su concentración está varios niveles por debajo de la ingesta diaria admisible.

Commercially available non-nutritive sweeteners modulate the antioxidant status of type 2 diabetic rats.

Non-nutritive sweeteners (NNS) are increasingly being used by diabetics, but little is known about their effects on antioxidant status. We investigated the effects of ad libitum consumption of commercially available NNS (aspartame, saccharin, sucralose, and cyclamate-based sweeteners) on antioxidative markers in a rat model of type 2 diabetes (T2D). NNS consumption reduced (p < 0.05) T2D-induced lipid peroxidation and boosted serum, hepatic, renal, cardiac, and pancreatic glutathione (GSH) levels. Catalase, glutathione reductase, superoxide dismutase, and glutathione peroxidase activity was increased in the serum and most organs upon diabetes induction, perhaps due to adaptative antioxidant response to the diabetes-induced lipid peroxidation. NNS showed varying effects on serum and tissue antioxidant enzymes of animals. An antioxidant capacity scores sheet of NNS, suggest that aspartame-based NNS may not exert antioxidant effects in diabetics, while saccharin-based NNS may be a potent antioxidative sweetener as seen in the animal model of T2D. PRACTICAL APPLICATIONS: The use of NNS is becoming more popular, especially for diabetic individuals. While there are several commercial NNS available in the market, little is known about how they affect the antioxidant status of consumers. We therefore investigated how some commercially available NNS affect the antioxidant status of diabetic rats. Observed data revealed varying effects of NNS on serum and different organs, which suggest that some NNS may be better than others for diabetic oxidative stress and thus may be recommended for consumers. However, this finding is subject to additional corroborative clinical studies.

Sugar reduction without compromising sensory perception. An impossible dream?

Sugar reduction is a major technical challenge for the food industry to address in response to public health concerns regarding the amount of added sugars in foods. This paper reviews sweet taste perception, sensory methods to evaluate sugar reduction and the merits of different techniques available to reduce sugar content. The use of sugar substitutes (non-nutritive sweeteners, sugar alcohols, and fibres) can achieve the greatest magnitude of sugar and energy reduction, however bitter side tastes and varying temporal sweet profiles are common issues. The use of multisensory integration principles (particularly aroma) can be an effective approach to reduce sugar content, however the magnitude of sugar reduction is small. Innovation in food structure (modifying the sucrose distribution, serum release and fracture mechanics) offers a new way to reduce sugar without significant changes in food composition, however may be difficult to implement in food produced on a large scale. Gradual sugar reduction presents difficulties for food companies from a sales perspective if acceptability is compromised. Ultimately, a holistic approach where food manufacturers integrate a range of these techniques is likely to provide the best progress. However, substantial reduction of sugar in processed foods without compromising sensory properties may be an impossible dream.

Inhibition of the gut enzyme intestinal alkaline phosphatase may explain how aspartame promotes glucose intolerance and obesity in mice.

Diet soda consumption has not been associated with tangible weight loss. Aspartame (ASP) commonly substitutes sugar and one of its breakdown products is phenylalanine (PHE), a known inhibitor of intestinal alkaline phosphatase (IAP), a gut enzyme shown to prevent metabolic syndrome in mice. We hypothesized that ASP consumption might contribute to the development of metabolic syndrome based on PHE's inhibition of endogenous IAP. The design of the study was such that for the in vitro model, IAP was added to diet and regular soda, and IAP activity was measured. For the acute model, a closed bowel loop was created in mice. ASP or water was instilled into it and IAP activity was measured. For the chronic model, mice were fed chow or high-fat diet (HFD) with/without ASP in the drinking water for 18 weeks. The results were that for the in vitro study, IAP activity was lower (p < 0.05) in solutions containing ASP compared with controls. For the acute model, endogenous IAP activity was reduced by 50% in the ASP group compared with controls (0.2 ± 0.03 vs 0.4 ± 0.24) (p = 0.02). For the chronic model, mice in the HFD + ASP group gained more weight compared with the HFD + water group (48.1 ± 1.6 vs 42.4 ± 3.1, p = 0.0001). Significant difference in glucose intolerance between the HFD ± ASP groups (53 913 ± 4000.58 (mg·min)/dL vs 42 003.75 ± 5331.61 (mg·min)/dL, respectively, p = 0.02). Fasting glucose and serum tumor necrosis factor-alpha levels were significantly higher in the HFD + ASP group (1.23- and 0.87-fold increases, respectively, p = 0.006 and p = 0.01). In conclusion, endogenous IAP's protective effects in regard to the metabolic syndrome may be inhibited by PHE, a metabolite of ASP, perhaps explaining the lack of expected weight loss and metabolic improvements associated with diet drinks.

Nonnutritive Sweeteners in Breast Milk.

Nonnutritive sweeteners (NNS), including saccharin, sucralose, aspartame, and acesulfame-potassium, are commonly consumed in the general population, and all except for saccharin are considered safe for use during pregnancy and lactation. Sucralose (Splenda) currently holds the majority of the NNS market share and is often combined with acesulfame-potassium in a wide variety of foods and beverages. To date, saccharin is the only NNS reported to be found in human breast milk after maternal consumption, while there is no apparent information on the other NNS. Breast milk samples were collected from 20 lactating volunteers, irrespective of their habitual NNS intake. Saccharin, sucralose, and acesulfame-potassium were present in 65% of participants' milk samples, whereas aspartame was not detected. These data indicate that NNS are frequently ingested by nursing infants, and thus prospective clinical studies are necessary to determine whether early NNS exposure via breast milk may have clinical implications.

Plasma Pharmacokinetics and Routes of Excretion of [14C]-Labeled Arruva, a High-Potency Sweetener, Following Oral Administration to Beagle Dogs.

[14C]-Labeled arruva [sodium/potassium (2R,4R)-2-amino-4-carboxy-4-hydroxy-5-(3-indolyl) pentanoate] was administered as a single gavage dose (10 mg/kg bw) to male and female Beagle dogs and 1 bile duct-cannulated male. The mean peak arruva plasma concentration equivalent of 1.2 µg/g occurred at first sampling time point of 1 hour postdosing. The mean area under the concentration versus time curve from 0 hour postdosing to the last time point was approximately 20 µg·h/g and the mean terminal plasma elimination half-life ranged from 15 hours in females to 21 hours in males. Over 168 hours postdosing, 35% to 50% of the administered arruva was eliminated in the urine with 44% to 53% eliminated in feces; 1.3% of the administered dose was recovered in bile. Arruva and its derivatives were identified using tandem mass spectrometry, and the relative percentage of each substance was quantified via radio high-performance liquid chromatography. Over a 168-hour collection period, combined urine and feces extract data from the 6 noncannulated dogs showed that approximately 91% of the dose was excreted as unchanged parent arruva (41% in urine and 50% in feces). In the cannulated male, 95.3% was excreted as unchanged parent arruva; 50.2% in urine, 43.9% in feces, and 1.3% in bile. Lactone and lactam derivatives of arruva and 1 unidentified substance were detected in urine only during the first 24 hours postdosing with the greatest amounts detected during the first 6 hours of collection; up to 1% of lactone or lactam derivatives were detected in bile samples. Plasma pharmacokinetics data indicated rapid absorption of arruva with the majority of radioactivity located in the feces collected in the first 48 hours.

Structure and biological properties of lentztrehalose: a novel trehalose analog.

A new trehalose analog, lentztrehalose [4-O-(2,3-dihydroxy-3-methylbutyl)trehalose], was isolated from an actinomycete Lentzea sp. Lentztrehalose is only weakly hydrolyzed by the trehalose-hydrolyzing enzyme, trehalase, so can be regarded as an enzyme-stable analog of trehalose. Although lentztrehalose does not show apparent toxicity to mammalian cells and microbes, it has antitumor activity in mice bearing S-180 sarcoma and Ehrlich carcinoma cells. In ovariectomized mice, lentztrehalose displayed a bone reinforcement effect in the femur that was superior to trehalose and induced non-morbid suppression of weight gain comparable with trehalose. These results indicate that enzyme-stable analogs of trehalose, such as lentztrehalose, may be more beneficial for human health and thus have potential as substitutes for trehalose as a sweetener.

Stevia rebaudiana Bertoni as a source of bioactive compounds: the effect of harvest time, experimental site and crop age on steviol glycoside content and antioxidant properties.

BACKGROUND: This study was aimed at identifying the effect of harvest time, experimental site and crop age on the no-calorie sweetener steviol glycosides (SG) and on the antioxidant properties of stevia leaf extracts. The experiment was conducted over two growing seasons at two sites in the northeastern plain of Italy. RESULTS: The results showed that all analysed factors played an important role in defining the SG profile and the antioxidant properties of stevia extracts. A high level of phenols (78.24 mg GAE g⁻¹ DW by Folin-Ciocalteu method) and high antioxidant activity (812.6 µmol Fe²âº g⁻¹ DW by FRAP assay) were observed. The inhibition of DPPH free radicals was evaluated and an IC50 mean value of 250 µg mL⁻¹ was obtained. Significant relationships among the total antioxidant capacity and the analysed compounds were found. CONCLUSION: The results showed the possibility of obtaining, in the tested environments, very high SG yields thanks to the long-day conditions during the spring/summer season. The harvest time played a key role in determining the stevia quality, influencing the rebaudioside A/stevioside ratio. The strong antioxidant properties make very interesting the possibility of using stevia extracts to improve functional food properties.