Decision-making spectral bioreactor

Inactive Publication Date: 2005-09-22
KRICHEVSKY MICAH I +4
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[0019] One embodiment of the invention is directed to digitally-controlled devices for determining and controlling cell growth or growth rate of cells in a fermentation vessel under transient conditions and in real time. The preferred device comprises: a computer for acquisition of digital and analog data from multiple sensors; interface electronics between the computer and instrumentation that provides power for switches and digital signals for control; input channels for sensor signals, either in the body of said computer or as an external device with a digital pathway; sensor inputs including at least a full-spectrum probe spectrometer and pH and temperature sensors; a temperature control device; a stirring mechanism capable of completely mixing contents of said fermentation vessel; one or more variable-intensity, broad-spectrum light sources that radiate in at least the visible spectrum; and ports within said fermentation vessel for insertion of said instrumentation. In this embodiment, a sens

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  • Decision-making spectral bioreactor
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  • Decision-making spectral bioreactor

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[0078] Optimum and maximum temperature: FIG. 11 illustrates the determination of the optimum and maximum growth temperature of a culture of the dairy bacterium, Streptococcus lactis. The time span of the graph is two hours. The heater was shut off after reaching the maximum growth temperature. The finding of optimum and maximum growth temperature occurred in considerably less than two hours as indicated by the clear maximum inflection point in the rate of growth. As the temperature drifted down, the growth rate slowly recovered. The effective maximum temperature is the temperature at which the growth rate becomes negative, i.e., the death of cells begins to exceed the growth. While cells continue to grow, the net effect of maintaining the temperature at any higher will lead to the death of all cells. The graph, for the first time, illustrates the determination of a much more precise optimum and maximum growth temperature and at considerably less cost in materials and especially labor c

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Abstract

This invention fills several voids in bioreactor technology that allows efficient connection of aspects of physical science (optics, electronics, physical chemistry, sensors) to aspects of microbial and cell culture physiology in a uniquely interactive manner. This is accomplished mathematically through decision making software that utilizes detected changes in the course of fermentation. Decisions are aimed at determining the optima for cellular growth, optimizing for production or degradation of metabolites or substrates, or determining the limits of growth under various combinations of conditions. The invention determines optima or limits in a manner more quickly and at less cost than traditional methods. The basis for the computer generated decisions may be first or second derivative changes observed such as inflection points, limits on allowable rates of change, or the like. The most common measured parameter controlling the decision making process is the optically observed growth of the cells (e.g. microbial, animal, or plant cell cultures) under study. Any other measurable parameter (e.g. pH, temperature, pigment production) may be used to control the process (i.e., the independent variable). This process and variations of this process on a laboratory scale are valuable for research and development, education, pilot plant models, and bio-manufacturing optimization, including scale up to production volumes.

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Application Information

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Owner KRICHEVSKY MICAH I
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