Your search keyword '"Castro AP"' showing total 4 results

1. In Vitro Gastrointestinal Digestion and Colonic Fermentation of High Dietary Fiber and Antioxidant-Rich Mango ( Mangifera indica L.) "Ataulfo"-Based Fruit Bars.

Author

Hernández-Maldonado LM, Blancas-Benítez FJ, Zamora-Gasga VM, Cárdenas-Castro AP, Tovar J, and Sáyago-Ayerdi SG

Subjects

Fatty Acids, Volatile, Fermentation, Food Analysis, Food Handling, Humans, Hydrogen-Ion Concentration, Taste, Antioxidants chemistry, Dietary Fiber, Digestion, Fruit, Mangifera chemistry

Abstract

Mango ( Mangifera indica L.) is a tropical fruit which is considered to be a source of dietary fiber (DF) and phenolic compounds (PCs). In this study, high DF mango-based fruit bars were developed from whole mango (peel and pulp). The bars were evaluated for their nutritional composition, the bioaccesibility of PCs during gastrointestinal digestion, and the PCs metabolites profile after in vitro colonic fermentation. The amount of DF in a 30 g portion of mango bars was 9.5 g, i.e., 35% of the recommended daily intake. Phenolic acids such as gallic acid; cinnamic acids, such as ferulic, coumaric, and caffeic acids; flavonoids such as quercertin; and xanthones such as mangiferin and mangiferin gallate, were identified as the main PCs in the bars. The antioxidant capacity associated with the PCs profile, together with the high DF content are indicative of the potential functional features of these natural fruit bars. The bioaccesibility of PCs in the mango bar was 53.78%. During fermentation, the PCs were bioconverted mainly to hydroxyphenolic acids and the main short-chain fatty acid produced was acetic acid. The xanthone norathyriol was identified after 12 h of fermentation. This study on the digestion and colonic fermentation of mango-based bars using in vitro models provides hints of the potential physiological behavior of PCs associated with DF, which constitutes relevant information for further development of natural and health-promoting fruit-based bars.

Published

2019

2. Limited Effects of Low-to-Moderate Aerobic Exercise on the Gut Microbiota of Mice Subjected to a High-Fat Diet.

Author

Ribeiro FM, Ribeiro CFA, G ACM, Castro AP, Almeida JA, Franco OL, and Petriz BA

Subjects

Animals, Body Weight, DNA, Bacterial isolation & purification, Feces microbiology, Male, Mice, Mice, Inbred C57BL, Obesity microbiology, Diet, High-Fat, Gastrointestinal Microbiome, Physical Conditioning, Animal

Abstract

Several studies have indicated that diet and exercise may modulate the gut microbiota in obese subjects. Both interventions were shown to alter the microbiota orthogonally. However, this relationship has not been fully explored. This study analyzed the effects of low-to-moderate aerobic training on the fecal microbiota of mice subjected to a high-fat diet (HFD). Here, 40 male mice (C57Bl/6) were divided into two groups with standard diet (SD; 12.4% lipid) and HFD (60.3% lipid) for four months. These groups were divided into four, named SD control, HF control, SD trained and HF trained. All animals were submitted to an incremental test to estimate low-to-moderate maximum speed . Training consisted of 30 min·day -1 , 5 days/week, for 8 weeks. The HFD increased the body weight ( p < 0.0001) and adiposity index ( p < 0.05). HFD also negatively influenced performance in exercise training. Moreover, the diversity of gut microbiota was reduced by the HFD in all groups. A low-to-moderate exercise was ineffective in modulating the gut microbiota composition in mice subjected to HFD. These findings suggest that two months of low-to-moderate exercise does not achieve a preponderant modulatory effect on shaping microbiota when submitted to the high-fat diet., Competing Interests: The authors declare no conflict of interest.

Published

2019

3. Intake of Polydextrose Alters Hematology and the Profile of Short Chain Fatty Acids in Partially Gastrectomized Rats.

Author

do Carmo MMR, Sarmento UC, Cavalheiro LF, Fernandes A, Filiú WFO, Gielow KCF, Costa DS, Guercio AC, do Nascimento VA, Ribeiro CFA, de Castro AP, Carvalho CME, Novello D, Santos-Junior VA, Morato PN, Amaya-Farfan J, Hiane PA, and Dos Santos EF

Subjects

Anemia, Iron-Deficiency, Animals, Dietary Fiber, Glucans administration & dosage, Hematocrit, Intestinal Absorption drug effects, Male, Random Allocation, Rats, Rats, Wistar, Fatty Acids, Volatile metabolism, Gastrectomy, Glucans pharmacology, Iron metabolism

Abstract

Polydextrose (PDX) ingestion may increase the intestinal absorption of iron. This study evaluated the effects of 7.5% polydextrose supplementation on markers of iron uptake, transport and storage in partially gastrectomized rats. Half of a batch of 40 male Wistar rats (250 g) underwent Billroth II partial gastrectomy with anterior truncal vagotomy (GXT), while the other half underwent sham gastrectomy (SHAM). At 7 postoperative days, the animals were subdivided into four groups ( n = 10): Sham Control and GXT Control (no polydextrose); Sham PDX and GXT PDX (with 7.5% PDX). The animals were euthanized after 60 day of PDX treatment. Organ weight, cecal pH, the characterization and quantification of short-chain fatty acids (SCFA), hematological parameters, hepatic iron content and the expression of ferroportin (FPT) in the jejunum, cecum, colon and liver were evaluated. PDX caused changes in the cecum of the supplemented animals, where there was a decrease in pH, increase in cecal wall and marked production of SCFA, especially acetic and propionic acids ( p < 0.05). Hepatic iron levels were lower in GXT animals. PDX increased hemoglobin (HGB) values by 29.2% and hematocrit (HCT) by 55.8% in the GXT PDX group compared to the GXT Control group. The GXT PDX group had lower hepatic FPT expression ( p < 0.05). PDX led to increased SCFA concentration in the supplemented animals. Considering that SCFAs play a central role in the increasing nutrients uptake, this mechanism may be involved in altering the hematology profile observed in these animals but not enough to reverse iron deficiency anemia in post-gastrectomy rats.

Published

2018

4. Morinda citrifolia Linn. (Noni) and Its Potential in Obesity-Related Metabolic Dysfunction.

Author

Inada AC, Figueiredo PS, Santos-Eichler RAD, Freitas KC, Hiane PA, Castro AP, and Guimarães RCA

Subjects

Humans, Metabolic Syndrome drug therapy, Obesity drug therapy, Phytotherapy, Metabolic Syndrome etiology, Morinda chemistry, Obesity complications

Abstract

Cultural and economic shifts in the early 19th century led to the rapid development of companies that made good profits from technologically-produced commodities. In this way, some habits changed in society, such as the overconsumption of processed and micronutrient-poor foods and devices that gave rise to a sedentary lifestyle. These factors influenced host-microbiome interactions which, in turn, mediated the etiopathogenesis of "new-era" disorders and diseases, which are closely related, such as obesity, type 2 diabetes mellitus, non-alcoholic fatty liver disease, hypertension, and inflammatory bowel disease, which are characterized by chronic dysregulation of metabolic and immune processes. These pathological conditions require novel and effective therapeutic approaches. Morinda citrifolia (noni) is well known as a traditional healing plant due to its medicinal properties. Thus, many studies have been conducted to understand its bioactive compounds and their mechanisms of action. However, in obesity and obesity-related metabolic (dysfunction) syndrome, other studies are necessary to better elucidate noni's mechanisms of action, mainly due to the complexity of the pathophysiology of obesity and its metabolic dysfunction. In this review, we summarize not only the clinical effects, but also important cell signaling pathways in in vivo and in vitro assays of potent bioactive compounds present in the noni plant which have been reported in studies of obesity and obesity-associated metabolic dysfunction., Competing Interests: The authors report no conflict of interest.

Published

2017