Patent ID: 9670453
Date: 2017-06-06
CPC Classifications: C12M,C12Q,G01N

Claim:
1. An automated system for dissociating an already formed sheet-shaped cell culture into individual cells and with the sheet-shaped cell culture being formed by a selected type or types of cells, the automated system comprising: a reaction unit having a reaction vessel including an interior thereof that is configured to receive a cell dissociating agent and the already formed sheet-shaped cell culture so that the already formed sheet-shaped cell culture undergoes a cell dissociation reaction via the cell dissociating agent in the reaction vessel for the purpose of determining the competence of the sheet-shaped cell culture for transplantation; a sensor unit configured to acquire information relating to particle size existing in the interior of the reaction vessel which includes single cells and cell aggregates from the dissociating sheet-shaped cell culture as the sheet-shaped cell culture undergoes the cell-dissociation reaction, the sensor unit being disposed adjacent to or in the reaction vessel to permit the sensor unit to acquire the particle size information from particles in the reaction vessel interior as the cell-dissociation reaction is occurring; an analysis unit including a processor that is configured to receive the particle size information from the sensor unit, calculate a particle size distribution in the reaction vessel based on the particle size information received from the sensor unit, monitor change of the particle size distribution from a first particle size distribution state having multiple peaks of particle size concentration with one of the peaks resulting from single cells having a smaller particle size and another of the peaks resulting from cell aggregates having a larger particle size toward a second particle size distribution state having a single peak of particle size concentration resulting from single cells having the smaller particle size, and determine a state of dissociation of the already formed sheet-shaped cell culture in the reaction vessel based on the monitored change of the particle size distribution from the first particle size distribution state toward the second particle size distribution state, the analysis unit further including a signal generation circuit that generates and outputs a signal indicating the state of dissociation as determined by the processor; and a reaction control unit configured to receive the outputted signal indicating the state of dissociation and being operatively connected to the reaction vessel for controlling the cell dissociation reaction therein, the reaction control unit being configured to, based on the received the outputted signal indicating the state of dissociation, cause the cell dissociation reaction in the reaction vessel to stop when the second particle size distribution state exists for avoiding damage to the dissociated single cells from the already formed sheet-shaped cell culture, wherein the processor of the analysis unit is further configured to determine at least one of a plurality of parameters related to progress of the dissociation reaction toward completion based on the particle size information received from the sensor unit and to compare the at least one parameter to a corresponding preset parameter that indicates completion of the dissociation reaction, the plurality of parameters including average particle size in the reaction vessel, chronological amount of change or chronological rate of change of the average particle size in the reaction vessel, and a pattern of the particle size distribution, the analysis unit being further configured to determine and output the state of dissociation to the reaction control unit based on the comparison between the at least one parameter to the corresponding preset parameter for controlling either the continuation or the termination of the cell dissociation reaction in the reaction vessel.