Modular, configurable bioreactor system for a manufacturing line

The invention claimed is: 1 . A system for repeatably performing at least one type of tissue-related process as part of a manufacturing line, the system comprising: at least one variably-sized culture vessel including a vessel sleeve surrounding at least a section of the at least one variably-sized culture vessel, the vessel sleeve configured to transfer thermal energy to the at least one variably-sized culture vessel, a thermal sleeve operably coupled with the vessel sleeve, the thermal sleeve controlling an amount of thermal energy entering the vessel sleeve; and a vessel clamp stabilizing the at least one variably-sized culture vessel within the thermal sleeve; a fluid handling system including at least one pump, at least one valve and at least one sensor, the fluid handling system moving fluid through said at least one variably-sized culture vessel; a culture vessel controller, controlling said fluid handling system by monitoring said at least one sensor and adjusting said at least one valve to maintain setpoints within said at least one variably-sized culture vessel perform the at least one type of tissue-related process; a gas management system providing at least one type of gas to the at least one variably-sized culture vessel; and at least one controller monitoring the status of culture vessel controller and scheduling the at least one type of tissue-related process as between components on the manufacturing line using a standard industrial communications protocol. 2 . The system as in claim 1 wherein the at least one variable-sized culture vessel comprises disposable components. 3 . The system as in claim 1 wherein the at least one variably-sized culture vessel comprises durable components. 4 . The system as in claim 1 wherein the fluid handling system is configured to move fluid through the at least one variably-sized culture vessel. 5 . The system as in claim 4 wherein the fluid handling system comprises: a variable number of at least one valve and at least one pump configured to move the fluid into and out of the at least one variably-sized culture vessel, the at least one controller controlling the at least one valve and the at least one pump. 6 . The system as in claim 1 further comprising: a temperature sensor in communication with the at least one controller to control of the amount of thermal energy entering the vessel sleeve. 7 . The system as in claim 1 wherein the gas management system controls a type and an amount of gas entering the at least one variably-sized culture vessel. 8 . The system as in claim 1 wherein the vessel clamp comprises: a telescoping device, the telescoping device accommodating a height of the at least one variably-sized culture vessel. 9 . The system as in claim 1 further comprising: a thermal break between the vessel sleeve and an environment surrounding the vessel sleeve. 10 . The system as in claim 1 further comprising: an electric cutoff sensing when the thermal sleeve reaches at least one pre-selected threshold temperature, the electric cutoff configured to disable an addition of further thermal energy to the vessel sleeve. 11 . The system as in claim 1 further comprising: at least one band clamp securing the thermal sleeve to the vessel sleeve. 12 . The system as in claim 1 wherein the thermal sleeve comprises: at least one expansion/contraction gap. 13 . The system as in claim 1 further comprising: a stabilizing pin configured to positionally secure the thermal sleeve to the vessel sleeve. 14 . The system as in claim 1 further comprising: at least one temperature control element. 15 . The system as in claim 1 further comprising: a thermally-conductive material filling a space between an inner diameter of the vessel sleeve and an outer diameter of the at least one variably-sized culture vessel. 16 . The system as in claim 1 further comprising: a plurality of the vessel sleeve accommodating a plurality of sizes of the at least one variably-sized culture vessel. 17 . The system as in claim 1 further comprising: a sensor system configured to monitor a variably-sized volume of cells in the at least one variably-sized culture vessel. 18 . The system as in claim 1 wherein the at least one controller comprises: instructions configured to control multiple of the at least one variably-sized culture vessel performing independent tasks simultaneously. 19 . The system as in claim 18 wherein a first of the at least one variably-sized culture vessel performs a first choice of the at least one type of tissue-related process in parallel with a second of the at least one variably-sized culture vessel performing a second choice of the at least one type of tissue-related process. 20 . The system as in claim 19 wherein the first type of the at least one choice of at least one type of tissue-related process comprises a same selection as the second choice of the at least one type of the tissue-related process. 21 . The system as in claim 20 wherein the first type of the at least one type of issue-related process comprises decellularization. 22 . The system as in claim 20 wherein the first type of the at least one type of tissue-related process comprises recellularization. 23 . The system as in claim 20 wherein the first type of the at least one type of tissue-related process comprises cell maturation of recellularized tissue. 24 . The system as in claim 20 wherein the first type of the at least one type of tissue-related process comprises perfusion of endothelial cells. 25 . The system as in claim 19 wherein the first choice of the at least one type of tissue-related process comprises a different selection as the second choice of the at least one type of the tissue-related process. 26 . The system as in claim 1 wherein the at least one controller comprises: determining a fluid flow path based at least on a recipe. 27 . The system as in claim 1 wherein the at least one controller comprises: determining a fluid flow path dynamically. 28 . The system as in claim 1 wherein the at least one controller comprises: determining a fluid flow path based at least on user input. 29 . The system as in claim 1 wherein the at least one controller comprises: determining a fluid flow path based at least on a combination of a recipe, dynamically-determined parameters, and user-provided parameters. 30 . The system as in claim 1 wherein the at least one type of tissue-related process comprises: a batch process. 31 . The system as in claim 30 wherein the batch is produced in compliance with at least one industry standard process. 32 . The system as in claim 31 wherein the standard industrial communications protocol comprises: Ethernet/Industrial Protocol. 33 . The system as in claim 31 wherein the at least one industry standard process comprises: ANSI/ISA-88.01-1995. 34 . The system as in claim 1 wherein the gas management system comprises: at least one mass flow controller configured to receive a source of gas, the amount of the gas controlled by the at least one controller; a mixing manifold configured to blend a plurality of types of the gas from a plurality of the at least one mass flow controller