Abstract: Provided are compositions containing extracellular vesicles from microalgae (MEVs) that are exogenously loaded with bioactive cargo or other cargo of interest, such as for therapeutic, industrial, diagnostic, and cosmetic uses. The MEVs have a variety of applications as therapeutics, including as vaccines, as anti-cancer therapeutics, as diagnostics, and other such uses.

Abstract: The invention relates to a photoreactor (1) comprising a contained reaction chamber (15), wherein the chamber (15) is separated from the exterior by a light-capturing wall (11) and another wall (12), the capturing wall and the other wall being parallel to one another; characterized in that the photoreactor (1) additionally comprises a thermal valve (13) placed against the other wall (12) for passively controlling the increase in heat inside the chamber (15) due to the radiation passing through the capturing wall (11) in order to maintain the temperature in at least one part of the chamber (15) under a threshold temperature (Ts), the thermal valve (13) being made of a phase-change material.

Abstract: The invention relates to a photobioreactor (1) for the culture of cells, comprising a runoff substrate (2) having a surface inclined at an average slope along a direction of inclination (I-I) on which a solution flows and including an upstream side (21) and a downstream side (22), said solution comprising cells in suspension. The invention is characterised in that the photobioreactor (1) comprises an upflow element (3) that conveys the solution from the downstream end (22) to the upstream end (21) along an upflow direction that is substantially parallel to the direction of inclination (I-I).

Abstract: HA method is provided for extracting cellular compounds from micro-organisms. The method includes culturing the micro-organisms and extracting the cellular compounds from the micro-organisms. Each step is carried out in a continuous manner, wherein the extraction step is carried out separately from the culture step and in conditions of biocompatibility with the micro-organisms. The method further includes at least one step of recovering the cellular compounds and at least one step of recirculating the micro-organisms towards the culture step.

Abstract: The invention relates to a method of improving the transfer in an annular biological reaction chamber defined by coaxial inner and outer walls (11, 12) and in which there flows a liquid reaction medium containing a culture of microorganisms or of cells from vegetable or animal macroorganisms in suspension. At least one of the walls is an exchange wall enabling gaseous or liquid matter to be transferred or allowing light to pass through. The reaction medium is subjected to a turbulent primary flow that is helical and that under the action of centrifugal force creates rotary secondary vortices so as to encourage renewal of the culture in the vicinity of the exchange wall.