Microencapsulation of Lactobacillus plantarum 299v and its storage in kuini juice

Aims@#Probiotics are living microorganism, when administrated in sufficient quantity can exert beneficial effect to the host. This study focused on the microencapsulation by co-extrusion to increase the viability of Lactobacillus plantarum 299v (Lp299v) in gastrointestinal conditions, and its storage stability in kuini juice at refrigerated (4 °C) and ambient temperature (25 °C). @*Methodology and results@#Lp99v was encapsulated with 1.5% w/v sodium alginate and chitosan coating (0.1% w/v) and yielded a microencapsulation efficiency of 97.71%. The Lp299v microbeads produced were spherical in shape and exhibited a mean microbeads size of 618.75 ± 25.85 µm. Acid and bile tolerance of both free and encapsulated Lp299v were tested in simulated gastric juice (SGJ) for 2 h and in simulated intestinal juice (SIJ) for 4 h, respectively. The encapsulated Lp299v maintained above 108 CFU/mL after exposure to artificial gastrointestinal juice, whereas a significant loss of viability was observed in the free cells. The storage stability of encapsulated Lp299v in kuini juice was determined during 4 weeks of storage at 4 °C and 25 °C. Results showed that encapsulated Lp299v was capable to remain viable (107 CFU/mL) for at least 4 weeks in a refrigerated condition. However, free Lp299v did not survived under both refrigerated and ambient temperature as the storage period extended. @*Conclusion, significance and impact of study@#Lp299v entrapped in chitosan-coated alginate microbeads produced by co-extrusion method is able to enhance the viability of Lp299v above the minimum recommended level in harsh environment (gastrointestinal conditions and low pH of kuini juice).

Alimentos microencapsulados para el cultivo de larvas de pejelagarto (Atractosteus tropicus) / Microencapsulated diets for tropical gar (Atractosteus tropicus) larviculture

Resumen El pejelagarto es una especie importante para la acuicultura en el sureste de México. Se han realizado varios estudios sobre nutrición y fisiología digestiva; sin embargo, el uso de microcápsulas para la alimentación de larvas que permitan mejorar el crecimiento y la supervivencia no ha sido realizado. En este sentido, se evaluaron cuatro alimentos microencapsulados en el crecimiento y supervivencia de larvas de pejelagarto (Atractosteus tropicus). Los tratamientos consistieron en cuatro dietas experimentales y un control: 1) Microcápsula con base en harina de pescado (DP), 2) Microcápsula con base en una combinación de harina de cerdo y pollo (Re), 3) Microcápsula con base en Nannochloropsis gaditana (Ng), 4) Microcápsula con base en un preparado enzimático, pancreatina (PE) el tratamiento control 5) Nauplios de Artemia (Na). Los resultados de las dietas indican que las larvas alimentadas con Nauplios (Na) tuvieron el mayor crecimiento y supervivencia (3.93 cm, 0.19 g y 82 % respectivamente). Mientras que en el caso de las larvas alimentadas con las dietas microencapsuladas, los mejores valores de supervivencia se observaron con las dietas Nannochloropsis gaditana (Ng) y preparado enzimático (PE) (20.0 y 19.2 % respectivamente). Nuestros resultados demuestran que el uso de microencapsulados para la alimentación de larvas de A. tropicus es factible, aunque se requieren más investigaciones para optimizar su diseño y elaboración para mejorar el crecimiento y supervivencia de los organismos.

Abstract Tropical gar is an important species for aquaculture purposes in Southeast Mexico. Several studies regarding nutrition and digestive physiology have been done; however, the use of microcapsules for larvae feeding to improve growth and survival has not been conducted. In this sense, four microencapsulated diets were evaluated with respect to the growth and survival of tropical gar Atractosteus tropicus larvae. The treatments consisted of four experimental diets and one control diet 1) fish meal, 2) a combination of pork and poultry meals, 3) Nannochloropsis gaditana meal, 4) enzyme preparation and the control treatment 5) Artemia nauplii. The evaluation indicated that the larvae fed the Artemia nauplii obtained the greatest growth and survival (3.93 cm, 0.19 g y 82 % respectively), which justifies a correct culture system operation. While larvae fed microencapsulated diets best values in survival were observed with diets Nannochloropsis gaditana and enzyme preparation (20.0 and 19.2 %). Our results showed that microencapsulated could be used to feed A. tropicus in feasibly form. However, more information concerning to optimize the design and manufacturing are required to improve the growth and survival of organisms. Rev. Biol. Trop. 66(3): 1298-1313. Epub 2018 September 01.