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1.
Perfusion ; : 2676591241233971, 2024 Feb 27.
Article in English | MEDLINE | ID: mdl-38411111

ABSTRACT

Background: In the absence of uniform European regulations, there have been many differences in the training of perfusionists across Europe. Furthermore, there has been no uniform or single European accreditation of the profession. One of the objectives of The European Board of Cardiovascular Perfusion (EBCP) is to standardise and monitor training of perfusionists across Europe whilst offering support in accordance with national regulations. This goal is particularly imminent as there have been numerous newly founded National perfusion societies, particularly from Eastern European countries, which are now established members of EBCP.Purpose: In this article, we provide an updated overview or 'snapshot' of current European perfusion training programs that were accessible in 2022. Nationally acquired data refers to 2022 unless stated otherwise. The last overview of Perfusion education in Europe was reported over 15 years ago including 20 countries.Research Design: For this report thirty-two national EBCP delegates plus representatives from Austria were contacted at the beginning of 2023 to complete a pro forma questionnaire about their national perfusion training programmes. The data has been summarized in this article and five additional derived parameters were calculated.Results: We received responses from 31 countries, providing specific national training characteristics which are summarized, listed and benchmarked by country in this article.Conclusion: There have been several national and supranational initiatives towards the recognition of perfusion as a profession in Europe, however so far without success for the majority of countries. For this reason, it remains essential for EBCP, as the only European professional perfusionist body, to define education standards and competencies for perfusionists and to monitor training by accreditation of dedicated perfusion schools across Europe.

2.
Plants (Basel) ; 12(19)2023 Sep 25.
Article in English | MEDLINE | ID: mdl-37836113

ABSTRACT

The wide rocky coastline of the Antofagasta hosts an intertidal ecosystem in which the species that inhabit it are routinely exposed to a wide range of physical and chemical conditions and have therefore evolved to tolerate extremes. In the search for new species of potential biotechnological interest with adaptations to a wide range of environmental conditions, the isolation and characterization of microalgae from these ecosystems is of great interest. Here, a new microalgal strain, Tetraselmis marina AC16-MESO, is described, which was isolated from a biofilm collected on the intertidal rocks of the Antofagasta coast (23°36'57.2″ S, 70°23'33.8″ W). In addition to the morphological characterization, 18S and ITS sequence as well as ITS-2 secondary structure analysis revealed an identity of 99.76% and 100% with the species Tetraselmis marina, respectively. The analyses of the culture characteristics and biochemical content showed similarities with other strains that are frequently used in aquaculture, such as the species Tetraselmis suecica. In addition, it is tolerant of a wide range of salinities, thus allowing its culture in water of varying quality. On the other hand, added to these characteristics, the results of the improvement of the lipid content in stressful situations of salinity observed in this study, together with other antecedents such as the potential in bioremediation already published for this strain by the same research group, present a clear example of its biotechnological plasticity. It is noteworthy that this strain, due to its characteristics, allows easy collection of its biomass by decantation and, therefore, a more cost-efficient harvesting than for other microalgal strains. Therefore, this new strain of Tetraselmis marina, first report of this species in Chile, and its morphologically, molecularly and biochemically description, presents promising characteristics for its use in biotechnology and as feed for aquaculture.

3.
Molecules ; 27(8)2022 Apr 08.
Article in English | MEDLINE | ID: mdl-35458610

ABSTRACT

Microalgae are a valuable natural resource for a variety of biocompounds such as carotenoids. The use of different light spectra and irradiance has been considered as a promising option to improve the production of these compounds. The objective of this study was to evaluate the influence of different wavelengths (white, red, and blue) and irradiances (80 and 350 µmol photons/m2/s) on the photosynthetic state, total carotenoids and lutein productivity (HPLC), lipids (Nile red method) and antioxidant activity (DPPH) of the microalgae Muriellopsis sp. (MCH-35). This microalga, which is a potential source of lutein, was isolated from the coastal desert of Antofagasta, Chile, and adapted to grow in seawater. The results indicate that the culture exposed to high-intensity red light showed the highest biomass yield (2.5 g/L) and lutein productivity (>2.0 mg L−1day−1). However, blue light was found to have a stimulating effect on the synthesis of lutein and other carotenoids (>0.8% dry wt). Furthermore, a direct relationship between lipid accumulation and high light intensity was evidenced. Finally, the highest antioxidant activity was observed with high-intensity white light, these values have no direct relationship with lutein productivity. Therefore, the findings of this study could be utilized to obtain biocompounds of interest by altering certain culture conditions during the large-scale cultivation of MCH-35.


Subject(s)
Chlorophyceae , Microalgae , Antioxidants/pharmacology , Biomass , Carotenoids , Light , Lutein
4.
Int J Mol Sci ; 22(23)2021 Nov 26.
Article in English | MEDLINE | ID: mdl-34884601

ABSTRACT

Biosorption refers to a physicochemical process where substances are removed from the solution by a biological material (live or dead) via adsorption processes governed by mechanisms such as surface complexation, ion exchange, and precipitation. This study aimed to evaluate the adsorption of Zn2+ in seawater using the microalgal biomass of Tetraselmis marina AC16-MESO "in vivo" and "not alive" at different concentrations of Zn2+ (0, 5, 10, and 20 mg L-1) at 72 h. Analysis was carried out by using the Langmuir isotherms and by evaluating the autofluorescence from microalgae. The maximum adsorption of Zn2+ by the Langmuir model using the Qmax parameter in the living microalgal biomass (Qmax = 0.03051 mg g-1) was more significant than the non-living microalgal biomass of T. marine AC16-MESO (Qmax = 0.02297 mg g-1). Furthermore, a decrease in fluorescence was detected in cells from T. marina AC16-MESO, in the following order: Zn2+ (0 < 20 < 5 < 10) mg L-1. Zn2+ was adsorbed quickly by living cells from T. marine AC16-MESO compared to the non-living microalgal biomass, with a decrease in photosystem II activities from 0 to 20 mg L-1 Zn2+ in living cells.


Subject(s)
Biomass , Chlorophyta/physiology , Seawater/chemistry , Water Pollutants, Chemical/isolation & purification , Zinc/isolation & purification , Adsorption , Biodegradation, Environmental , Hydrogen-Ion Concentration , Water Pollutants, Chemical/metabolism , Zinc/metabolism
6.
J Exp Bot ; 72(2): 491-509, 2021 02 02.
Article in English | MEDLINE | ID: mdl-33064811

ABSTRACT

Short-term effects of pCO2 (700-380 ppm; High carbon (HC) and Low carbon (LC), respectively) and nitrate content (50-5 µM; High nitrogen (HN) and Low nitrogen (LN), respectively on photosynthesis were investigated in Ulva rigida (Chlorophyta) under solar radiation (in-situ) and in the laboratory under artificial light (ex-situ). After six days of incubation at ambient temperature (AT), algae were subjected to a 4 °C temperature increase (AT+4 °C) for 3 d. Both in-situ and ex-situ maximal electron transport rate (ETRmax) and in situ gross photosynthesis (GP), measured by O2 evolution, presented highest values under HCHN, and lowest under HCLN, across all measuring systems. Maximal quantum yield (Fv/Fm), and ETRmax of photosystem (PS) II [ETR(II)max] and PSI [ETR(I)max], decreased under HCLN at AT+4 °C. Ex situ ETR was higher than in situ ETR. At noon, Fv/Fm decreased (indicating photoinhibition), whereas ETR(II)max and maximal non-photochemical quenching (NPQmax) increased. ETR(II)max decreased under AT+ 4 °C in contrast to Fv/Fm, photosynthetic efficiency (α ETR) and saturated irradiance (EK). Thus, U. rigida exhibited a decrease in photosynthesis under acidification, changing LN, and AT+4 °C. These results emphasize the importance of studying the interaction between environmental parameters using in-situ versus ex-situ conditions, when aiming to evaluate the impact of global change on marine macroalgae.


Subject(s)
Chlorophyta , Ulva , Carbon Dioxide , Chlorophyll , Nitrates , Oxygen , Photosynthesis , Temperature
7.
PeerJ ; 6: e5295, 2018.
Article in English | MEDLINE | ID: mdl-30065883

ABSTRACT

The use of microalgae in biotechnological processes has received much attention worldwide. This is primarily due to the fact that they are inexpensive to grow, requiring only sunlight and CO2, whilst lending themselves to a range of uses, such as to reduce CO2 levels, as fish feed, in biofuel production, for the generation of secondary metabolites of interest, and in bioremediation. These features mean that microalgae are excellent candidates for the implementation of a range of eco-friendly technologies. Here, we investigated the behavior and feasibility of the use of the microalgal strain Tetraselmis marina AC16-MESO against heavy metal contamination focused on potential use in bioremediation. The following key parameters were recorded: (i) the sedimentation efficiency, which reached 95.6% after five hours of decantation; (ii) the ion tolerance (Ca2+, Co2+, Cu2+, Fe3+, Mn2+ and Ni2+) at concentrations of 0.1, 1.0, 5.0, 10.0 and 20.0 mg*L-1 and (iii) ion removal efficiency (Cu2+, Fe3+ and Mn2+). Our results indicated a higher tolerance for iron and calcium (20 ± 1.10 mg*L-1; 100 ± 8.10 mg*L-1), partial to nickel, manganese and copper (4.4 ± 0.10 mg*L-1; 4.4 ± 0.15 mg*L-1; 5 ± 1.25 mg*L-1) and less for cobalt (0.1 ± 0.20 mg*L-1). Moreover, removal efficiency of 40-90% for Cu2+, 100% for Fe3+, and 20-50% for Mn2+ over a 72 hours period, for ion concentrations of 1.0 and 5.0 mg*L-1.

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