20 research outputs found
Spray-drying microencapsulation of synergistic antioxidant mushroom extracts and their use as functional food ingredients
In this work, hydroalcoholic extracts of two mushrooms species, Suillus luteus (L.: Fries) (Sl) and Coprinopsis atramentaria (Bull.) (Ca), were studied for their synergistic antioxidant effect and their viability as functional food ingredients tested by incorporation into a food matrix (cottage cheese). In a first step, the individual extracts and a combination of both, showing synergistic effects (Sl:Ca, 1:1), were microencapsulated by spray-drying using maltodextrin as the encapsulating material. The incorporation of free extracts resulted in products with a higher initial antioxidant activity (t0) but declining after 7 days (t7), which was associated with their degradation. However, the cottage cheese enriched with the microencapsulated extracts, that have revealed a lower activity at the initial time, showed an increase at t7. This improvement can be explained by an effective protection provided by the microspheres together with a sustained release. Analyses performed on the studied cottage cheese samples showed the maintenance of the nutritional properties and no colour modifications were noticed.Financial support was provided by FCT/MEC and FEDER under Programme PT2020 (LSRE: Project UID/EQU/50020/2013and CIMO: PEst-OE/AGR/UI0690/2014) and QREN, ON2 and FEDER (Project NORTE-07-0162-FEDER-000050 and NORTE-07-0124-FEDER-000014). G. Ruphuy thanks Universidad de Costa Rica (UCR) and Ministerio de Ciencia, Tecnología y Telecomunicaciones de Costa Rica (MICITT) for her scholarship and L. Barros FCT for her contract (Compromisso para a Ciência 2008). A special thanks to Cargill for having provided us with the maltodextrin sample used in this work (reference C*Dry MD 01915)
Mushroom extracts as viable sources of bioactive compounds for food applications
The incorporation of mushroom extracts in food matrices configures an example
of functional foods/nutraceuticals development. They are recognized as having
anti-inflammatory, antitumor, antibacterial and antioxidant properties allowing the
obtaining of health benefits, including disease prevention [1]. However, these extracts
can present instability at high temperatures, presence of oxygen and light. Moreover,
they are generally characterized by a strong odour and flavour.
In this work, alcoholic extracts of two mushrooms species, Suillus luteus (SI) and
Coprinopsis atramentaria (Ca), were studied for their antioxidant effect and their
viability as functional food ingredients tested by incorporation into a food matrix
(cottage cheese). In a first step, the individual extracts and a combination of both
showing synergistic effects (Sl:Ca, 1:1) were microencapsulated by spray drying using
maltodextrin as the encapsulating material [2]. After evaluating the antioxidant
properties of the microencapsulated extracts and confirmation of their maintenance,
comparatively to the corresponding free extract forms, the work proceeded with the
incorporation of the microencapsulated and free forms into the cottage cheese. The
incorporation of free extracts resulted in products with higher initial antioxidant
activity (t=O days) but declining for t=7 days, which can be associated with their
degradation. However, the cottage cheese enriched with the microencapsulated
extracts, that have revelled a lower activity at initial time, showed for t=7 days an
increase. This improvement can be explained by an effective protection provided by
the microspheres together with a sustained release. Analyses performed on the studied
cottage cheese samples showed the maintenance of the nutritional properties
Spray drying as a viable process to produce nano-hydroxyapatite/chitosan (n-HAp/CS) hybrid microparticles mimicking bone composition
In this work nano-hydroxyapatite/chitosan (n-HAp/CS) hybrid microparticles were prepared by spray drying following a methodology where, in a first step, aqueous nanodispersions of n-HAp in the presence of chitosan were produced by fast stirring at pH values below and above chitosan pKa (5.5 and 7.0, respectively). The mixing system used allowed the production of homogeneous and stable nanodispersions, and the subsequent spray-dried microparticles, incorporating highly pure HAp nanoparticles of approximately 50 nm, were successfully produced without degrading the organic component, chitosan. Comparatively with the n-HAp/CS-7.0, the n-HAp/CS-5.5 dispersions were characterized by a lower particle size and a higher zeta potential, being then more stable. Differences in the spray-dried microparticles were also evident from a morphological point of view. HApCS-5.5 microparticles, which present an average size in volume of 15.8 μm and n-HAp crystals homogenously distributed, were found to be preferred over the HApCS-7.0 counterparts, which require an extra step in the productive process and presented a tendency to form large agglomerates. Both prepared hybrid particles presented similar composition to that one of natural bone (HAp/CS of 70/30) and no traces of KCl salts were observed if a washed n-HAp paste was used.Financial support for this work was provided by FCT – Portugal and FEDER – Portugal under Programe PT2020 (Project UID/EQ/50020/2013), QREN, ON2, FCT and FEDER (Projects NORTE-07-0162-FEDER-000050, NORTE-07-0124-FEDER-000013 and NORTE-07-0124-FEDER-000014). G. Ruphuy thanks Universidad de Costa Rica (UCR) – Costa Rica and Ministerio de Ciencia Tecnología y Telecomunicaciones (MICITT) – Costa Rica for her scholarship
Spray-drying of Suillus luteus and Cropinopsis atramentaria mushroom alcoholic extracts and its synergistic antioxidant effect
Mushrooms are widely appreciated all over the world for their nutritional and pharmacological value being sources of important bioactive compounds. In this study the antioxidant potential of Suillus luteus and Coprinopsis atramentaria mushroom alcoholic extracts, and its synergistic effect, was evaluated before and after being spray-dried with maltodextrin, aiming at its exploitation as functional food ingredients. The antioxidant activity of free and spray-dried extracts was studied in vitro by DPPH radical scavenging activity, reducing power and inhibition of β-carotene bleaching (this only applied with free extracts assays). The encapsulation yield of the spray-drying process was around 50% and efficiency, determined in terms of cinnamic acid, comprised between 40-60%. The evaluation of the antioxidant activity of the combined extracts pointed out for synergistic effects