Your search keyword '"De Menezes CR"' showing total 31 results

1. Factors associated with prevalence of pain and musculoskeletal injuries in Brazilian kickboxers: a cross-sectional study

Author

Dantas Glauko André Figueiredo, de Menezes Cruz Clarissa Lula, Silva Flávio Santos, Cerqueira Mikhail Santos, Abreu Bento João, and Vieira Wouber Hérickson Brito

Subjects

epidemiology, athletic performance, overuse injury, kickboxing injury, Sports medicine, RC1200-1245, Physiology, QP1-981

Abstract

Study aim: The purpose of this study was to determine the prevalence and factors associated with pain and musculoskeletal injuries in Brazilian kickboxers.

Published

2020

2. Decarbonizing the Transport of Microalgae-based Products -The Role of E-mobility.

Author

Dias RR, Depra MC, Carvalho VCR, de Menezes CR, Zepka LQ, and Jacob-Lopes E

Subjects

Transportation, Biomass, Electric Power Supplies, Carbon chemistry, Carbon metabolism, Biofuels, Carbon Dioxide metabolism, Carbon Dioxide analysis, Microalgae metabolism, Patents as Topic

Abstract

Background: The decarbonization of road transport is a precondition for achieving carbon neutrality. Battery-electric vehicle technology, driven by several patents, can make this a reality. In this bias, the objective of the article is to shed light on the ongoing debate about the potentially important role of the adoption of electric vehicles in the transport of microalgae-based products to help them advance to a cleaner life cycle., Methods: Five routes, including unimodal and multimodal conditions, were defined to assess the carbon emissions of the transport system and, more specifically, of road transport. The headquarters of market-leading microalgae manufacturers were selected as the origin of the routes and, as the destination, regions that sustain them., Results: The results reveal the supremacy of road transport of microalgae-based products using electric vehicles powered by nuclear, hydroelectric, and wind, followed by biomass and photovoltaic energy. They also show that the positive impact of wind, water, and photovoltaic energy on the climate, added to the lower battery charging costs and the greater opportunity to generate revenue from the sale of carbon credits, make their trade-offs., Conclusion: The exquisite results of this study convey key messages to decision-makers and stakeholders about the role of electromobility in building a zero-carbon delivery route., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2025

3. Green technologies applied to low-NaCl fresh sausages production: Impact on oxidative stability, color formation, microbiological properties, volatile compounds, and sensory profile.

Author

Seibt ACMD, Nerhing P, Pinton MB, Santos SP, Leães YSV, De Oliveira FC, Robalo SS, Casarin BC, Dos Santos BA, Barin JS, Wagner R, De Menezes CR, Campagnol PCB, and Cichoski AJ

Subjects

Thiobarbituric Acid Reactive Substances analysis, Oxidation-Reduction, Oxidative Stress, Taste, Color, Sodium Chloride, Meat Products analysis

Abstract

The influence of different concentrations of NaCl (2.5% and 1.75%), basic electrolyzed water (BEW), and ultrasound (US, 25 kHz, 159 W) on the quality of fresh sausages was studied. During storage at 5 °C, TBARS, pH, Eh, aw, nitrous pigments, and bacterial evolution were evaluated at three specific time intervals: 1d, 15d, and 30d. At the same time, the volatile compounds and sensory profile were specifically assessed on both the 1d and 30d. Notably, sausages with 1.75% NaCl and BEW displayed higher pH values (up to 6.30) and nitrous pigment formation, alongside reduced Eh (as low as 40.55 mV) and TBARS values (ranging from 0.016 to 0.134 mg MDA/kg sample), compared to the 2.5% NaCl variants. Protein content ranged between 13.01% and 13.75%, while lipid content was between 18.23% and 18.86%, consistent across all treatments. Psychrotrophic lactic bacteria showed a significant increase in low-NaCl sausages, ranging from 5.77 to 7.59 log CFU/g, indicative of potential preservative benefits. The sensory analysis favored the TUSBEW70 treatment for its salty flavor on the 30th day, reflecting a positive sensory acceptance. The study highlights that employing US and BEW in sausage preparation with reduced NaCl content (1.75%) maintains quality comparable to higher salt (2.5%) counterparts. These findings are crucial for meat processing, presenting a viable approach to producing healthier sausages with reduced sodium content without compromising quality, aligning with consumer health preferences and industry standards., Competing Interests: Declaration of Competing Interest The author have no conflicts of interest for disclose to paper entitled “Green technologies applied to low-NaCl fresh sausages production: Impact on oxidative stability, color formation, microbiological properties, volatile compounds, and sensory profile”., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2024

4. Non-Digestible Carbohydrates: Green Extraction from Food By-Products and Assessment of Their Effect on Microbiota Modulation.

Author

Expósito-Almellón X, Duque-Soto C, López-Salas L, Quirantes-Piné R, de Menezes CR, Borrás-Linares I, and Lozano-Sánchez J

Subjects

Humans, Hexoses, Phenols, Noncommunicable Diseases, Microbiota, Gastrointestinal Microbiome

Abstract

The nature and composition of the waste produced by food industrial processing make its abundance and accumulation an environmental problem. Since these by-products may present a high potential for revalorization and may be used to obtain added-value compounds, the main goals of the technological advancements have been targeted at reducing the environmental impact and benefiting from the retrieval of active compounds with technological and health properties. Among the added-value substances, nondigestible carbohydrates have demonstrated promise. In addition to their well-known technological properties, they have been discovered to modify the gut microbiota and enhance immune function, including the stimulation of immune cells and the control of inflammatory reactions. Furthermore, the combination of these compounds with other substances such us phenols could improve their biological effect on different noncommunicable diseases through microbiota modulation. In order to gain insight into the implementation of this combined strategy, a broader focus concerning different aspects is needed. This review is focused on the optimized green and advanced extraction system applied to obtain added-value nondigestible carbohydrates, the combined administration with phenols and their beneficial effects on microbiota modulation intended for health and/or illness prevention, with particular emphasis on noncommunicable diseases. The isolation of nondigestible carbohydrates from by-products as well as in combination with other bioactive substances could provide an affordable and sustainable source of immunomodulatory chemicals.

Published

2023

5. Do ultrasound form spontaneously nitrous pigments in nitrite-free pork meat batter?

Author

Leães YSV, Lorenzo JM, Seibt ACMD, Pinton MB, Robalo SS, Mello RO, Wagner R, Barin JS, De Menezes CR, Campagnol PCB, and Cichoski AJ

Subjects

Animals, Swine, Nitrites, Myoglobin metabolism, Oxidation-Reduction, Pork Meat analysis, Red Meat

Abstract

The effects of ultrasound (US) on myoglobin modification, nitrous pigment formation, color, and total and free sulfhydryl content in nitrite-free pork meat batter were assessed. Five treatments were elaborated: Control (without US); TUS10'12 and TUS20'12 (sonication at 25 kHz, at 12 °C for 10 and 20 min, respectively); TUS10'18 and TUS20'18 (sonication at 25 kHz, at 18 °C for 10 and 20 min, respectively). Sonication for 20 min at 12 °C increased OxyMb and DeoxyMb pigments while reducing MetMb levels. This US condition also yielded higher red color indices and lower yellow color indices. Moreover, TUS20'12 exhibited enhanced nitrous pigment formation and decreased FerrylMb and free sulfhydryl (SH) values, indicating reduced oxidation in OxyMb and DeoxyMb pigments. In conclusion, the findings demonstrate that US can impart a cured color to nitrite-free meat products., Competing Interests: Declaration of Competing Interest The author has no conflicts of interest. for disclosing to the paper entitled “Do ultrasound form spontaneously nitrous pigments in nitrite-free pork meat batter?”, (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

6. Food potential of Scenedesmus obliquus biomasses obtained from photosynthetic cultivations associated with carbon dioxide mitigation.

Author

Vendruscolo RG, Deprá MC, Pinheiro PN, Furlan VJM, Barin JS, Cichoski AJ, de Menezes CR, Zepka LQ, Jacob-Lopes E, and Wagner R

Subjects

Biomass, Carbon Dioxide metabolism, Humans, Lipids, Photosynthesis, Chlorophyceae metabolism, Scenedesmus metabolism

Abstract

Microalgae are photosynthetic microorganisms that stand out from conventional food sources and ingredients due to their high growth rate and adaptability. In addition to being highly sustainable, significant concentrations of proteins, lipids, and pigments accumulate in their cell structures from photosynthesis. Hence, this study sought to evaluate the food potential of Scenedesmus obliquus biomasses obtained from photosynthetic cultures enriched with 3, 5, 10, 15, 20, and 25% carbon dioxide (CO 2 ) (v/v). Cultivations with 3, 5, and 10% CO 2 showed greater amino acids and proteins synthesis; the protein content reached values above 56% of the dry biomass and high protein quality, due to the presence of most essential amino acids at recommended levels for the human diet. The highest concentrations of chlorophylls were found in cultures with 15, 20, and 25% CO 2 (24.2, 23.1 and 30.8 mg g -1 , respectively), although the profiles showed higher percentages of degradation compounds. Carotenoid concentrations were three times higher in cultures with 3, 5, and 10% CO 2 (25.3, 22.7 and 18.1 mg g -1 , respectively) and all-trans-β-carotene was the major compound. Lipid synthesis was intensified at higher CO 2 enrichment; the percentages obtained were 14.8% of lipids in the culture with 15% CO 2 , 15.0% with 20% CO 2 , and 13.7% with 25% CO 2 . In addition, greater polyunsaturated fatty acids accumulation and a significant reduction in the n6/n3 ratio were also observed at the highest CO 2 concentrations. Our findings showed that CO 2 treatments significantly altered all compounds concentrations in S. obliquus biomasses, which presented satisfactory composition for application in foods and as ingredients., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

7. Effect of ultrasound application on the growth of S. xylosus inoculated in by-products from the poultry industry.

Author

Nehring P, Lorenzo JM, Santos SP, Wagner R, de Menezes CR, Dos Santos BA, Barin JS, Campagnol PCB, and Cichoski AJ

Abstract

A wide variety of by-products are produced by the industry when animals are slaughtered. However, the proteins present in these by-products, are not being fully useable, in the elaboration of value-added products. Staphylococcus xylosus is commonly used as a starter culture in meat products subjected to ripening for a long period, as it produces proteolytic and lipolytic enzymes that improve the sensory quality of the products. Ultrasound (US) has been arousing interest in the meat industry, as it reduces processing time and also improves the technological and sensory quality of meat products. However, the stimulate effect of US on the growth of S. xylosus in by-products from the poultry industry is still unknown. Thus, this study aimed to evaluate the stimulate effect of US on the growth of S. xylosus inoculated in by-products from the poultry industry. S. xylosus was inoculated (5.63 log CFU/g) in sterilized by-products from the poultry, which were then sonicated at 37 °C for 0, 15, 30, and 45 min according to the following parameters: frequencies of 130 and 35 kHz, amplitudes of 50% and 80% and normal and degas operating modes. The sonicated samples were incubated at 37 °C for 0, 24, 48, and 72 h. Soon after sonication, no stimulate effect of US was observed on the growth of S. xylosus . However, after 24 h of incubation, the samples sonicated for 15 and 30 min in normal mode, at 35 and 130 kHz, and amplitudes of 50 and 80% exhibited better stimulate effect at the growth S. xylosus counts (p < 0.01) when compared to the Control, with values of 8.23 and 7.77 log CFU/g, respectively. These results can be exploited to obtain new added-value products, having as raw material by-products from the poultry industry., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors.)

Published

2022

8. Strategy to increase the lipid stability of the microbial oil produced by Umbelopsis isabellina for food purposes: Use of microencapsulation by external ionic gelation.

Author

Somacal S, Somacal S, Pinto VS, de Deus C, Vendruscolo RG, de Almeida TM, Wager R, Mazutti MA, and de Menezes CR

Subjects

Fungi, Oxidation-Reduction, Fatty Acids, Unsaturated, Oils

Abstract

Oleaginous microorganisms, including the fungus Umbelopsis isabellina, have emerged as a biotechnological alternative to obtain polyunsaturated fatty acid-rich oils, which are strongly linked to energy purposes (biofuel) than the food industry. Considering the composition of microbial oil and its use by the food industry, it is necessary to investigate strategies that increase its lipid stability. Ergo, this pioneering study aimed to microencapsulate the oil produced by Umbelopsis isabellina and evaluate its oxidative stability throughout the storage period against factors such as temperature and luminosity. The microbial oil was microencapsulated through the external ionic gelation technique, producing an encapsulation efficiency of 80% and proving to be a suitable method because it maintained oil composition. Combining microencapsulation and refrigerated storage led to the best effects on storage time, increasing the evaluated lipid stability through the peroxide values and conjugated diene formation. Moreover, saturated and monounsaturated fatty acid content increased, and polyunsaturated fatty acid content decreased during storage for both the free and microencapsulated oil, regardless of storage temperature, although microencapsulation reduced the changes. The results primarily demonstrate how microencapsulation prolongs the oxidative stability and unsaturated fatty acid content of the microbial oil by reducing its reactions to external environmental factors, thus facilitating its use in the food industry., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

9. Combined effect of ultrasound and basic electrolyzed water on the microbiological and oxidative profile of low-sodium mortadellas.

Author

Leães YSV, Silva JS, Robalo SS, Pinton MB, Dos Santos SP, Wagner R, Brasil CCB, de Menezes CR, Barin JS, Campagnol PCB, and Cichoski AJ

Subjects

Colony Count, Microbial, Oxidation-Reduction, Food Handling methods, Food Microbiology methods, Meat Products analysis, Meat Products microbiology, Meat Products radiation effects, Ultrasonic Waves, Water chemistry, Water pharmacology

Abstract

Ultrasound (US) and basic electrolyzed water (BEW) are considered emerging technologies; however, few studies have addressed the combination of both technologies in emulsified meat products. This study aimed to evaluate the individual and combined effect of US (25 kHz; 175 W; 20 min) and BEW (pH 10.99; -92.33 mV) on the microbiological and oxidative profile of low-sodium mortadellas (30% of NaCl reduction) stored for 90 days at 5 °C. The use of BEW alone increased the pH and reduced the redox potential of mortadellas, while the US did not affect these parameters. The combined application of US and BEW reduced the lactic acid bacteria counts by up to 0.36 log CFU/g. In addition, BEW stimulated the growth of lipolytic bacteria. The treatments subjected to US application alone showed a lower growth rate of lipolytic bacteria, lower lipid and protein oxidation, and higher ΔE* values. Therefore, the application of US and BEW may be a promising strategy to improve the microbiological and oxidative quality of mortadella during storage., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

10. Lipid oxidation and sensory characterization of Omega-3 rich buffalo burgers enriched with chlorogenic acids from the mate (Ilex paraguariensis) tree harvesting residues.

Author

Heck RT, da Rosa JL, Vendruscolo RG, Cichoski AJ, Meinhart AD, Lorini A, Paim BT, Galli V, Robalo SS, Dos Santos BA, de Pellegrin LFV, de Menezes CR, Wagner R, and Campagnol PCB

Subjects

Adult, Animals, Buffaloes, Consumer Behavior, Female, Gels, Humans, Ilex paraguariensis chemistry, Male, Middle Aged, Plant Extracts, Plant Oils, Salvia chemistry, Swine, Thiobarbituric Acid Reactive Substances analysis, Chlorogenic Acid, Fatty Acids, Omega-3 analysis, Meat Products analysis

Abstract

A freeze-dried extract from the bark of mate branches (BMBE) containing high chlorogenic acids (CGA) content (30 g 100 g -1 ) was produced. Then, chia oil was mixed with 7.5% BMBE and sonicated for 0, 10, and 20 min. Chia oil with or without the addition of BMBE was hydrogelled and used to produce buffalo burgers with 50% reduction in animal fat. CGA levels and the nutritional, oxidative, and sensory properties of the burgers were analyzed. A reduction of ~30% fat and an increase above 60% PUFA/SFA ratio was observed for the reformulated raw and cooked burgers. In addition, the Omega-6/Omega-3 PUFA ratio of the burgers decreased from 20.8 (raw) and 31.9 (cooked) to values lower than 2. The addition of BMBE enriched the burgers with CGA, preventing an increase in lipid oxidation caused by chia oil. The addition of BMBE-enriched hydrogelled chia oil not subjected to sonication did not affect the sensory properties of the burgers., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

11. Effects of ultrasonic-assisted cooking on the volatile compounds, oxidative stability, and sensory quality of mortadella.

Author

Cichoski AJ, da Silva JS, Leães YSV, Robalo SS, Dos Santos BA, Reis SR, Nehring P, Santos SP, Wagner R, de Menezes CR, and Campagnol PCB

Subjects

Oxidation-Reduction, Temperature, Cooking methods, Food Quality, Meat Products analysis, Taste, Ultrasonic Waves, Volatile Organic Compounds analysis

Abstract

Ultrasound is a form of green technology that has been applied efficiently to improve processes in the food industry. This study evaluated the application of ultrasound to reduce the cooking time of mortadella. The volatile compounds, oxidative stability, and sensory quality of mortadella were evaluated. Four cooking conditions were used, as follows: Control, corresponding to the cooking time traditionally used in the meat industry; TUS100 and TUS50: cooking with US (25 kHz) and 50% reduction of the cooking time of Control, using 100% (462 W) and 50% (301 W) amplitude, respectively; and TWUS: cooking without the application of US and 50% reduction of the cooking time of Control. TUS100 and TUS50 showed an increase of 10.8% and 29.4%, respectively, in the total amount of terpenes on the first day of storage in relation to the Control. The presence of nonane on the 60th day only in the US-treated samples (0.22 × 10 6 vs 0.11 × 10 6 for TUS100 and TUS50, respectively) indicated that the US treatment may have induced higher oxidation in mortadella. The oxidative stability index ranged from 274 to 369 days for TUS100 and the Control, respectively. The treatments TWUS and TUS50 showed a lower sensory quality at the end of storage. On the other hand, TUS100 presented sensory quality similar to the Control, demonstrating that ultrasonic-assisted cooking using a 100% amplitude is an alternative to reduce the cooking time without affecting the product quality., (Copyright © 2020 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2021

12. Viability of microencapsulated Lactobacillus acidophilus by complex coacervation associated with enzymatic crosslinking under application in different fruit juices.

Author

Marques da Silva T, Sonza Pinto V, Ramires Fonseca Soares V, Marotz D, Cichoski AJ, Queiroz Zepka L, Jacob Lopes E, de Bona da Silva C, and de Menezes CR

Subjects

Fruit and Vegetable Juices, Lactobacillus acidophilus, Citrus sinensis, Malus, Probiotics

Abstract

The objective of this study was to produce microcapsules containing Lactobacillus acidophilus LA-02 by complex coacervation followed by crosslinking with transglutaminase and to evaluate the effect of their addition on different fruit juices, as well as the probiotic viability of L. acidophilus and its effect on fruit juices during storage. To this end, L. acidophilus was microencapsulated by complex coacervation, followed by crosslinking with transglutaminase at different concentrations. Probiotics, in their free and microencapsulated forms, were added to orange juice and apple juice at concentrations of 10% and 30%. The obtained microcapsules were characterized in terms of morphology. The viability of probiotics and the effects of their addition on fruit juices were assessed and the juices characterized (with respect to pH and total soluble solids) during 63 days of storage at 4 °C. Orange juice proved to be more suitable for the addition of probiotics, and the survival of probiotics was directly related to pH. The microcapsules had a protective effect on L. acidophilus, prolonging their survival, and the crosslinking process proved to be adequate and promising, ensuring probiotic viability. Thus, the complex coacervation process associated with induced enzymatic crosslinking provided protection for L. acidophilus in different fruit juices, showing an adequate methodology for adding probiotics to this adverse food matrix, guaranteeing the survival of L. acidophilus for up to 63 days, and generating products with innovative and promising probiotic appeal., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

13. Insights on the intestinal absorption of chlorophyll series from microalgae.

Author

Fernandes AS, Nascimento TC, Pinheiro PN, de Rosso VV, de Menezes CR, Jacob-Lopes E, and Zepka LQ

Subjects

Caco-2 Cells, Chlorophyll A, Humans, Intestinal Absorption, Tandem Mass Spectrometry, Chlorophyll, Microalgae

Abstract

The bioaccessibility and subsequent uptake by Caco-2 human intestinal cells of chlorophyll pigments from Scenedesmus obliquus were determined for the first time. In order to evaluate the impact of different types of the matrix on bioaccessibility of chlorophyll from microalgae, three different products were evaluated: isolated chlorophyll extract (ICE); wet ultrasonicated biomass (WUB); and whole dried biomass (WDB). The samples were submitted to in vitro digestion model according to the INFOGEST protocol, and Caco-2 cells determined the intestinal uptake. Chlorophyll pigments were determined by HPLC-PDA-MS/MS. A total of ten chlorophyll pigments (8,318.48 µg g -1 ) were separated in S. obliquus biomass, with chlorophyll a (3,507.76 µg g -1 ) and pheophytin a' (1,598.09 µg g -1 ) the major ones. After in vitro digestion, all tested products showed bioaccessible chlorophylls. However, the total bioaccessibility results were as follows: ICE (33.45%), WUB (2.65%), WDB (0.33%). Five compounds were bioaccessible in ICE, three in WUB, and one in WDB. The hydroxypheophytin a showed the highest bioaccessibility (212%) in ICE, while pheophytin a' in WUB (11%) and WDB (2%). As a result, bioavailability estimates of ICE using the Caco-2 cell showed hydroxypheophytin a (102.53%), followed by pheophytin a' (64.69%) as the chlorophyll pigments most abundant in intestinal cells. In summary, from a nutritional perspective, these three types of the matrix (WDB, WUB, and ICE) influence the promotion of chlorophyll bioaccessibility. In this way, the data suggest that chlorophylls bioaccessibility from ICE is greater than that in WDB and WUB. Therefore, ICE should be considered a product that provides bioavailable chlorophyll and could be the best choice, such as ingredients in the development of functional foods chlorophyll-based., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

14. Jabuticaba peel extract obtained by microwave hydrodiffusion and gravity extraction: A green strategy to improve the oxidative and sensory stability of beef burgers produced with healthier oils.

Author

Heck RT, Ferreira DF, Fagundes MB, Santos BAD, Cichoski AJ, Saldaña E, Lorenzo JM, de Menezes CR, Wagner R, Barin JS, and Campagnol PCB

Subjects

Adult, Animals, Cattle, Color, Consumer Behavior, Cooking, Female, Food Storage, Humans, Hydrogels chemistry, Linseed Oil, Male, Microwaves, Middle Aged, Myrtaceae microbiology, Myrtaceae radiation effects, Salvia chemistry, Swine, Taste, Thiobarbituric Acid Reactive Substances analysis, Meat Products analysis, Myrtaceae chemistry, Plant Extracts chemistry

Abstract

Hydrogelled emulsions (HE) from chia and linseed oils (1:1) were made with different concentrations (0, 6, 8, and 10%) of jabuticaba peel extract (JPE) obtained by microwave hydrodiffusion and gravity (MHG) extraction. Burgers (20% fat) were produced with the replacement of 60% of fat by HEs. The oxidative profile and the sensory quality of raw and cooked burgers were evaluated for 120 days (-18 °C). The JPE exhibited 1.72 mg/mL of phenolic compounds and 57,741.67 μmol TE/mL of antioxidant capacity. In addition, the MHG extraction eliminated the mesophilic bacteria from the jabuticaba peel. The burgers made with HE and without the addition of JPE showed a 5-fold increase in TBARS values when compared to the control. On the other hand, the addition of 10% JPE to HE was effective to maintain the lipid oxidation similar to the control until the 60th day of storage. Besides, the incorporation of JPE into HE reduced the sensory defects caused by the lipid reformulation., Competing Interests: Declaration of Competing Interest The author have no conflicts of interest for disclose to paper entitled “Jabuticaba peel extract obtained by microwave hydrodiffusion and gravity extraction: a green strategy to improve the oxidative and sensory stability of beef burgers produced with healthier oils”., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

15. Carbon dioxide capture and use in photobioreactors: The role of the carbon dioxide loads in the carbon footprint.

Author

Deprá MC, Dias RR, Severo IA, de Menezes CR, Zepka LQ, and Jacob-Lopes E

Subjects

Biomass, Carbon Dioxide, Carbon Footprint, Photobioreactors, Microalgae, Scenedesmus

Abstract

This research evaluated the carbon dioxide capture and use by Scenedesmus obliquus in a photobioreactor under different CO 2 loads. Performance indicators, carbon and energy balances, sustainability indicators, and carbon credits on the photobioreactor were assessed. The results expressed that the CO 2 loads of 384.9 kg/m 3 /d (15% CO 2 ) provide the best trade-off for the process. For this condition, maximum biomass productivities of 0.36 kg/m 3 /d, carbon dioxide conversion rates of 0.44 kgCO 2 /m 3 /d, and oxygen release rates of 0.33 kgO 2 /m 3 /d were observed, reaching maximum CO 2 removal efficiencies of 30.76%. Volatile organic compounds were the major products generated (>80%). However, only <3% was fixed in biomass. From the environmental and economic point of view, the net energy ratio was 3.44, while the potential carbon credit was of 0.04 USD per m 3 of culture. Finally, the use of adequate CO 2 loads was also proven to be determinant to improve the global performance of the system., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

16. Effect of ultrasound on proteolysis and the formation of volatile compounds in dry fermented sausages.

Author

de Lima Alves L, Donadel JZ, Athayde DR, da Silva MS, Klein B, Fagundes MB, de Menezes CR, Barin JS, Campagnol PCB, Wagner R, and Cichoski AJ

Subjects

Fermentation, Meat Products, Proteolysis, Sonication, Volatile Organic Compounds metabolism

Abstract

Ultrasound (US) is an emerging technology capable of affecting enzymes and microorganisms, leading to the release of amino acids and the formation of volatile compounds. The effect of different exposure times (0, 3, 6, and 9 min) of US (25 kHz, 128 W) on the proteolysis and volatile compounds of dry fermented sausages during processing (day 0 and 28) and storage (day 1 and 120) was investigated. Lower alanine, glycine, valine, leucine, proline, methionine, and tyrosine levels were observed at the beginning of manufacture for the sample subjected to 9 min of US (p < 0.05) when compared to the control. During the storage period, the samples subjected to US exposure for 3 and 6 min exhibited higher free amino acid levels. A greater formation of hexanal, pentanal, and hexanol was observed in the US-treated samples when compared to the control (p < 0.05), as well as other derivatives from the oxidation reactions during the storage. The use of US (25 kHz and 128 W) in the manufacture of dry fermented sausages can affect the proteolysis and the formation of compounds derived from lipid oxidation during the storage., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

17. Use of prebiotic sources to increase probiotic viability in pectin microparticles obtained by emulsification/internal gelation followed by freeze-drying.

Author

Raddatz GC, Poletto G, Deus C, Codevilla CF, Cichoski AJ, Jacob-Lopes E, Muller EI, Flores EMM, Esmerino EA, and de Menezes CR

Subjects

Emulsions, Freeze Drying, Particle Size, Food Handling methods, Pectins chemistry, Pectins metabolism, Prebiotics, Probiotics metabolism

Abstract

The aim of this study was to investigate the influence of hi-maize, inulin, and rice bran in the survival of Lactobacillus acidophilus LA-5 in pectin microparticles obtained by internal gelation and subjected to freeze-drying. For this, the development of a matrix capable of extending Lactobacillus acidophilus viability to develop new functional foods was emphasized. Microparticle size, encapsulation efficiency, probiotic survivability after gastrointestinal simulation, and storage stability were analyzed. The pectin + inulin encapsulation matrix presented the highest encapsulation efficiency (68.1%) compared to the other treatments. Microparticle sizes ranged from 166 ± 2 µm (pectin + hi-maize) to 345 ± 9 µm (pectin + inulin). The microparticles added from the different prebiotics showed better microorganism protection when compared to treatment without prebiotics, which presented greater viability in the gastrointestinal simulation. Under storage conditions of 25 °C and -18 °C, the microparticles containing hi-maize, inulin, and rice bran maintained the probiotic microorganisms viable for longer periods than the pectin microparticles. At 7 °C, the pectin + rice bran treatment stood out from the other treatments, as it was able to maintain probiotic stability during 120 days of storage., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

18. Is it possible to reduce the cooking time of mortadellas using ultrasound without affecting their oxidative and microbiological quality?

Author

da Silva JS, Voss M, de Menezes CR, Barin JS, Wagner R, Campagnol PCB, and Cichoski AJ

Subjects

Animals, Cattle, Color, Food Storage, Hydrogen-Ion Concentration, Lipid Peroxidation, Oxidation-Reduction, Proteins chemistry, Swine, Water, Cooking methods, Meat Products radiation effects, Pork Meat, Red Meat, Ultrasonics methods

Abstract

This study evaluated the reduction of cooking time of mortadellas using ultrasound (US, 25 kHz) and the effects on the oxidative and microbiological quality of the product. Three cooking conditions were studied: control, cooking time traditionally adopted by the meat industry; TUS and TWUS: cooking with and without US application and 50% reduction of the traditional cooking time, respectively. The application of US did not increase the peroxide, conjugated dienes, and TBARS indices and did not accelerate the protein oxidation. In addition, no significant changes were observed in the color of the mortadellas subjected to ultrasonic-assisted cooking. TUS and control presented a similar mesophilic, psychrotrophic and lactic acid bacteria counts during storage. The ultrasonic-assisted cooking provided a faster increase and higher homogeneity in the internal temperature of the mortadellas. Therefore, the US can be considered a promising technology to improve the cooking process of mortadellas., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

19. Effect of different strategies of Lactobacillus plantarum incorporation in chorizo sausages.

Author

Cavalheiro CP, Ruiz-Capillas C, Herrero AM, Jiménez-Colmenero F, Pintado T, de Menezes CR, and Fries LLM

Subjects

Animals, Fermentation, Fermented Foods analysis, Food Microbiology, Meat Products analysis, Probiotics analysis, Swine, Taste, Fermented Foods microbiology, Food Handling methods, Lactobacillus plantarum metabolism, Meat Products microbiology

Abstract

Background: Chorizo is a high-value Spanish-type dry fermented sausage, highly appreciated by consumers. In this kind of product, Lactobacillus plantarum plays an important role in the fermentation process and can also be considered as a probiotic. The impact of different strategies for incorporating probiotic L. plantarum into the physico-chemical, microbiological, and sensorial characteristics of chorizo sausages was studied. These strategies were: free cells (Cfc); alginate beads (Calg); water-in-oil emulsion (Cwo), and water-in-oil-in-water emulsion (Cwow). Proximate composition, weight loss, pH, a w , color, and microbiological behavior were evaluated during the ripening (20 days) of chorizo., Results: The strategy of incorporating L. plantarum significantly affected the proximate composition, pH, and a w of sausages. However, the traditional red color of chorizo was maintained for all formulations. The incorporation of probiotics as free cells or encapsulated in alginate beads resulted in higher counts of lactic acid bacteria and L. plantarum, lower counts of Enterobacteriaceae, and in acceptable sensory scores., Conclusion: Overall, the quality of chorizo sausages was conditioned by the incorporation strategy, and the addition of probiotics in alginate beads (Calg) was the most effective strategy. © 2019 Society of Chemical Industry., (© 2019 Society of Chemical Industry.)

Published

2019

20. Development of nanoemulsions containing Physalis peruviana calyx extract: A study on stability and antioxidant capacity.

Author

Bazana MT, da Silva SS, Codevilla CF, de Deus C, Lucas BN, Ugalde GA, Mazutti MA, Moraes Flores EM, Barin JS, de Bona da Silva C, and de Menezes CR

Subjects

Antioxidants analysis, Chemical Phenomena, Drug Stability, Emulsions chemistry, Microscopy, Electron, Scanning, Rutin analysis, Antioxidants chemistry, Emulsions chemical synthesis, Flowers chemistry, Nanoparticles chemistry, Physalis chemistry, Plant Extracts chemistry

Abstract

The aim of this study was to develop and evaluate the physicochemical and antioxidant stability of nanoemulsions containing a Physalis peruviana calyx extract (CPp-NE) and free extracts under different storage conditions (7 and 25 °C) and with absence or incidence of light for 120 days. The calyx extracts were prepared with ethanol 60% and characterized for later preparation of the nanoemulsions by spontaneous emulsification. The formulations presented nanometric sizes, low polydispersity index, negative zeta potential, acid pH, rutin content (11 μg·mL -1 ), and encapsulation efficiency of 85%. Regarding the stability, the droplet size and PdI of the CPp-NE stored at refrigeration temperature in the dark, room temperature in the dark, and refrigeration temperature with light incidence were stable for 120 days and with no visible changes in the formulations. The antioxidant capacity was related to the reducing capacity, and the best results were found for nanoemulsions stored at room temperature and in absence of light. In addition, CPp-NE presented higher antioxidant and reducing capacity in relation to the free extracts., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

21. The effect of enzymatic crosslinking on the viability of probiotic bacteria (Lactobacillus acidophilus) encapsulated by complex coacervation.

Author

da Silva TM, de Deus C, de Souza Fonseca B, Lopes EJ, Cichoski AJ, Esmerino EA, de Bona da Silva C, Muller EI, Moraes Flores EM, and de Menezes CR

Subjects

Capsules chemistry, Colony Count, Microbial, Food Microbiology, Food Storage, Freeze Drying, Gastrointestinal Tract metabolism, Models, Biological, Transglutaminases metabolism, Cells, Immobilized microbiology, Lactobacillus acidophilus enzymology, Microbial Viability, Probiotics

Abstract

Lactobacillus acidophilus were encapsulated by complex coacervation followed by transglutaminase crosslinking, aiming to improve the resistance of the microcapsules and improve the protection for probiotics. Subsequently, microcapsules were dried by freeze drying. The encapsulation efficiency, morphology, thermal resistance, gastrointestinal simulation and storage stability were analysed for wet and dry forms. The treatments offered high encapsulation efficiency (68.20-97.72%). Transglutaminase maintained the structure rounded, multinucleate and homogeneous distribution of probiotics in the microcapsules. In relation to the thermal resistance, in general, microencapsulation was effective in protecting and crosslinked microcapsules demonstrated greater protection for probiotics, obtaining viable cell counts of up to 10 log CFU g -1 , approximately. On exposure to the simulated gastrointestinal tract, microencapsulation coupled to crosslinking demonstrated good results and the dry form was more efficient in the protection and the treatment with greater amount of transglutaminase was highlighted (9.07 log CFU g -1 ). As for storage, probiotic viability was maintained for up to 60 days in freezing temperature, with counts of up to 9.59 log CFU g -1 . The results obtained in the present work are innovative and present a promising alternative for the protection of probiotics and their addition in food products., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

22. Hydrogelled emulsion from chia and linseed oils: A promising strategy to produce low-fat burgers with a healthier lipid profile.

Author

Heck RT, Saldaña E, Lorenzo JM, Correa LP, Fagundes MB, Cichoski AJ, de Menezes CR, Wagner R, and Campagnol PCB

Subjects

Adipose Tissue, Animals, Cattle, Cooking, Emulsions chemistry, Fatty Acids analysis, Plant Oils chemistry, Swine, Hydrogels chemistry, Linseed Oil chemistry, Meat Products analysis, Salvia chemistry

Abstract

Burgers (20% pork back fat) were produced with the replacement of 0, 20, 40, 60, 80, and 100% of pork back fat by hydrogelled emulsion (HE) from chia and linseed oils. No changes (P > .05) were observed for the moisture retention, diameter reduction, and cooking loss of the treatments, with a significant increase in the lipid retention (P < .05). Hardness increased (P < .05) with increasing the lipid replacement level, and a significant color difference (ΔE) was detected between the treatments and the control. In addition to reducing animal fat, a healthier fatty acid profile was reached after the lipid reformulation of the burgers, thus allowing the burgers to be labeled with health claims. The sensory tests (acceptance and Check-All-That-Apply) indicated that it is possible to replace up to 60% of pork back fat by HE., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

23. Ultrasound and slightly acid electrolyzed water application: An efficient combination to reduce the bacterial counts of chicken breast during pre-chilling.

Author

Cichoski AJ, Flores DRM, De Menezes CR, Jacob-Lopes E, Zepka LQ, Wagner R, Barin JS, de Moraes Flores ÉM, da Cruz Fernandes M, and Campagnol PCB

Subjects

Animals, Chickens microbiology, Cold Temperature, Electrolysis, Water chemistry, Acids pharmacology, Bacterial Load drug effects, Food Microbiology methods, Meat microbiology, Ultrasonics standards

Abstract

Pre-chilling leads to a temperature decline of the pre-rigor muscle of poultry carcasses, and a reduction of the initial bacterial load may occur. Both ultrasound (US) and slightly acidic electrolyzed water (SAEW) have been used alone in the meat industry for the manufacture of emulsions, pasteurization, and prevention of bacteria growth. However, the impact of the combination of these technologies during the pre-chilling of chicken carcasses has not been evaluated. In this study, breast chicken cylinders (CBCs) were pre-chilled for 10 min at 10 °C using SAEW and different US frequencies (25 and 130 kHz). The microbiological characteristics, lipid and protein oxidation, shear force, and anaerobic glycolysis were evaluated. The US + SAEW combination led to an effective reduction (P < 0.05) of enterobacteria, mesophilic bacteria, lactic acid bacteria, and psychrotrophic bacteria, while the lipid and protein oxidation, shear force, anaerobic glycolysis, and muscle structure were not affected (P > 0.05). Therefore, the combination of these technologies may be promising in the pre-chilling stage of chicken carcasses., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

24. Scenedesmus obliquus metabolomics: effect of photoperiods and cell growth phases.

Author

Vendruscolo RG, Fagundes MB, Maroneze MM, do Nascimento TC, de Menezes CR, Barin JS, Zepka LQ, Jacob-Lopes E, and Wagner R

Subjects

Metabolomics, Biomass, Chlorophyll biosynthesis, Fatty Acids biosynthesis, Microalgae growth & development, Photoperiod, Scenedesmus growth & development

Abstract

Environmental factors directly affect the growth and composition of microalgal biomass. Therefore, the present work analyzed the metabolomics (amino acids, organic acids, and fatty acids) of the microalga Scenedesmus obliquus cultivated in 24:0 and 12:12 (light:dark) photoperiods and different phases of cell growth. Furthermore, the metabolites were related to protein, lipid, and chlorophyll contents at the end of cultivation. The highest biomass concentration (4020 mg L - 1 ) and protein (47.3%) were obtained in culture under constant illumination. The cultivation 12:12 (light:dark) photoperiod triggered higher production of lipids (23.0%) and chlorophylls (26.4 mg g - 1 ) by S. obliquus. Microalgal metabolites were greatly affected by photoperiod and by phase of cell growth. Thus, metabolite production could be related to both the environmental conditions under which cultivation occurred and to the different concentrations of products (proteins, lipids, and chlorophylls) present in the S. obliquus biomass.

Published

2019

25. Volatile compounds and sensory profile of burgers with 50% fat replacement by microparticles of chia oil enriched with rosemary.

Author

Heck RT, Fagundes MB, Cichoski AJ, de Menezes CR, Barin JS, Lorenzo JM, Wagner R, and Campagnol PCB

Subjects

Adolescent, Adult, Animals, Cattle, Consumer Behavior, Fat Substitutes, Female, Food Storage, Freezing, Humans, Male, Middle Aged, Oxidation-Reduction, Swine, Volatile Organic Compounds analysis, Meat Products analysis, Plant Oils chemistry, Rosmarinus chemistry, Salvia chemistry

Abstract

Direct incorporation of rosemary leaves into chia oil (CO) was performed by ultrasound-assisted extraction (UAE) and conventional maceration extraction (CME). CO was microencapsulated and used in burgers, as follows: control (20% pork back fat (PBF)); HCO (10% PBF + 7.5% water +2.5% unencapsulated CO); HM1 (10% PBF + 10% CO microparticles); HM2 (10% PBF + 10% CO microparticles enriched by UAE) and HM3 (10% PBF + 10% CO microparticles enriched by CME). The volatile compounds and the sensory properties (Check-All-That-Apply and overall acceptability) of burgers were evaluated at days 1 and 120 of frozen storage. The control, HCO, and HM1 groups were characterized for volatile compounds produced by lipid and protein oxidation, and sensory descriptors related to lipid oxidation. HM2 and HM3 groups presented an increase in terpenic volatiles and were characterized by the descriptors herbal and pleasant aroma and ideal texture. In addition, liking scores were positively correlated to the descriptors that characterized the HM2 and HM3 groups., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

26. Ultrasound: A promising technology to improve the technological quality of meat emulsions.

Author

Cichoski AJ, Silva MS, Leães YSV, Brasil CCB, de Menezes CR, Barin JS, Wagner R, and Campagnol PCB

Subjects

Animals, Lipids chemistry, Oxidation-Reduction, Proteins chemistry, Swine, Temperature, Food Handling methods, Meat Products analysis, Ultrasonic Waves

Abstract

The use of ultrasound (US) has proven to be an effective tool in the preparation of emulsions. However, the cavitation phenomenon leads to an increase in temperature, which can affect the emulsion stability and the texture. Thus, different US operating modes (degas, normal, and sweep) were applied in meat emulsions for 5.5 min, at 25 kHz frequency and 60% amplitude, and the temperature behavior, yield, emulsion stability, texture, and lipid and protein oxidation were evaluated. The results showed that the wave propagation mode in the US bath exerts a great influence on the increase of temperature of meat emulsions. The distribution of cavitation in normal operating mode significantly favored (P < .001) a higher yield (88.7%) and emulsion stability, with good values of cohesiveness (0.76), hardness (26.9 N), and chewiness (26.1 N), not increasing lipid and protein oxidation. Therefore, this study has proven that that the use of normal US operating mode improved the technological quality of meat emulsions., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

27. Oxidative stability of burgers containing chia oil microparticles enriched with rosemary by green-extraction techniques.

Author

Heck RT, Lucas BN, Santos DJPD, Pinton MB, Fagundes MB, de Araújo Etchepare M, Cichoski AJ, de Menezes CR, Barin JS, Wagner R, and Campagnol PCB

Subjects

Animals, Cattle, Cooking, Food Storage, Oxidation-Reduction, Swine, Thiobarbituric Acid Reactive Substances, Meat Products analysis, Plant Oils chemistry, Rosmarinus chemistry, Salvia chemistry

Abstract

In the first part of this study, the oxidative stability of chia oils enriched with rosemary by ultrasound-assisted extraction (UAE) and by a conventional maceration extraction (CME) was evaluated. In the second part, chia oil enriched with rosemary by UAE or CME was microencapsulated and used to replace 50% fat in burgers. The oxidative and sensory quality of burgers were evaluated during 120 days of storage at -18 °C. Chia oil enriched with rosemary by UAE presented a higher oxidative stability compared to CME. Higher Eh and TBARS values were found in burgers containing chia oil microparticles without rosemary. The burgers produced with chia oil microparticles enriched with rosemary by UAE showed greater oxidative stability than other treatments, mainly after cooking. Furthermore, the incorporation of rosemary antioxidants to chia oil reduced the sensory defects caused by the lipid reformulation., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

28. Application of electrolyzed water for improving pork meat quality.

Author

Athayde DR, Flores DRM, da Silva JS, Genro ALG, Silva MS, Klein B, Mello R, Campagnol PCB, Wagner R, de Menezes CR, Barin JS, and Cichoski AJ

Subjects

Animals, Electrolysis, Hydrogen-Ion Concentration, Swine, Temperature, Food Microbiology methods, Meat-Packing Industry methods, Red Meat analysis, Red Meat microbiology, Water chemistry

Abstract

The microbiological and oxidative qualities of pork loin sprayed with different types (slightly acidic, acidic and basic) and combinations of electrolyzed water (EWs) were evaluated. The EWs were applied at two temperatures (18° and 30°C) and pressures (30 and 45psi) and the volume corresponded to approximately 10% water commonly used in carcass washing. EW after spraying exhibited a chlorine concentration between 15 and 25ppm. The application of acidic EW (AEW) alone or in combination with basic EW (BEW) decreased (P<0.05) the microbial counts shortly after spraying. In addition, the combination of BEW+AEW (30psi) reduced the mesophilic and psychrotrophic bacteria counts throughout the refrigerated storage (P<0.05). The EWs did not increase the lipid oxidation of the samples. On the other hand, a high protein oxidation was observed in the samples sprayed with AEW and slightly acidic EW (SAEW), while BEW was effective to reduce the oxidation reactions. Therefore, the results showed that the combination BEW+AEW may be a viable alternative to reduce the volume of water used at slaughter and to improve the microbiological quality of pork meat., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

29. Is it possible to produce a low-fat burger with a healthy n-6/n-3 PUFA ratio without affecting the technological and sensory properties?

Author

Heck RT, Vendruscolo RG, de Araújo Etchepare M, Cichoski AJ, de Menezes CR, Barin JS, Lorenzo JM, Wagner R, and Campagnol PCB

Subjects

Animals, Cattle, Cooking, Drug Compounding, Female, Food Technology, Humans, Hydrogen-Ion Concentration, Linseed Oil, Male, Swine, Taste, Dietary Fats analysis, Fatty Acids, Unsaturated analysis, Meat Products analysis, Plant Oils

Abstract

Burgers subjected to lipid reformulation were made by replacing 50% of the fat component by microparticles containing chia (CO) and linseed (LO) oils obtained by external ionic gelation. The microparticles presented high n-3 PUFAs levels and were resistant to the pH and temperature conditions commonly used in burger processing. The lipid reformulation did not affect hardness and improved important technological properties, such as cooking loss and fat retention. In addition to reducing the fat content of burgers by up to 50%, the lipid reformulation led to healthier PUFA/SFA and n-6/n-3 ratios, and lower atherogenicity and thrombogenicity indices. The burgers with CO microparticles showed a higher lipid oxidation and a lower sensory quality compared to the other treatments. However, the substitution of pork back fat by LO microparticles did not impair the sensory quality of burgers. Therefore, the microencapsulation of n-3 PUFA-rich oils by external ionic gelation can be considered an effective strategy to produce healthier burgers., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

30. The role of photoperiods on photobioreactors - A potential strategy to reduce costs.

Author

Maroneze MM, Siqueira SF, Vendruscolo RG, Wagner R, de Menezes CR, Zepka LQ, and Jacob-Lopes E

Subjects

Biomass, Photobioreactors, Photoperiod, Photosynthesis physiology, Plant Oils metabolism, Scenedesmus physiology

Abstract

The aim of this work was evaluate the role of photoperiods (long-term, frequencies and short) on the growth and lipid content of microalgae Scenedesmus obliquus CPCC05. The results showed that Scenedesmus obliquus can store sufficient energy to sustain cell growth for continuous periods of up to 2h in the dark, without affecting the photosynthetic rate. The values for maximum biomass (9.58mg/Lh) and lipid productivities (2.56mg/Lh) were obtained at photoperiod of 0.91:0.09s (light:dark) and 48 t/d, respectively. Moreover, the best trade-offs between biomass productivity and light energy economy occurred in photoperiods of 0.5:0.5s and 0.91:0.09s (light:dark), and those between lipid productivity and light energy economy occurred in the frequency photoperiod of 24 and 48 t/d. Thus, the use of the photoperiods are an effective strategy for reducing costs of microalgal biomass production., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

31. Hyperargininaemia: a late-diagnosed Brazilian case with increased urinary excretion of homocystine.

Author

Simoni RE, de Oliveira CP, Braga MJ, de Menezes CR, Llerena Júnior JC, Correia PS, Rosa AA, Horovitz DG, Chaves CR, and de Oliveira ML

Subjects

Adolescent, Humans, Male, Amino Acid Metabolism, Inborn Errors urine, Arginine blood, Homocystinuria etiology

Published

1997