Interactive tree plot for flow cytometry data

What is claimed is: 1. A method for analyzing cell populations in a sample, the method comprising: generating, with a flow cytometer, measured values for a plurality of parameters for each of a plurality of cells in the sample, the plurality of parameters for each cell including a first subset of parameters and a second subset of parameters, the second subset of parameters being different than the first subset of parameters; for each of the plurality of cells in the sample, determining whether that cell is positive or negative for each parameter in the first subset of parameters; displaying an interactive tree plot including a root, levels, branches and leaves, wherein each of the levels corresponds to a respective parameter in the first subset of parameters, wherein each of the levels divides the plurality of cells into a first subset of the plurality of cells which are determined to be positive for the respective parameter and a second subset of the plurality of cells which are determined to be negative for the respective parameter, wherein a path from the root to a first leaf defines a first phenotype based on a branch making up the path, and wherein a height of the first leaf corresponds to a count of cells determined to have the first phenotype; receiving a first user input on the interactive tree plot to select or deselect a first parameter from the first subset of the parameters; responsive to the first user input, selecting or deselecting the first parameter from the first subset of the parameters; responsive to selecting or deselecting the first parameter from the first subset of the parameters, altering the interactive tree plot to reflect an addition or removal of a level corresponding to the first parameter; receiving a second user input to select the first leaf of the interactive tree plot; and responsive to the second user input, identifying a subpopulation of cells associated with the first leaf, the subpopulation including each cell of the plurality of cells determined to have the first phenotype, analyzing the subpopulation of cells on a second tree plot including second levels to determine a second phenotype for each of the cells in the subpopulation based on the second subset of parameters associated with the second levels, and displaying the second tree plot. 2. The method of claim 1 , further comprising: measuring a first value for a first measured parameter from the first subset of parameters with a first sensor of the flow cytometer; measuring a second value for a second measured parameter from the second subset of parameters with a second sensor of the flow cytometer, the second sensor being different than the first sensor. 3. The method of claim 1 , wherein determining whether each cell is positive or negative for a parameter is based, at least in part, on a gate for the parameter. 4. The method of claim 3 , wherein each cell is determined to be positive for the parameter when a measured value for the parameter is inside the gate. 5. The method of claim 3 , further comprising: displaying a third plot of parameters for a plurality of cells in the sample; and receiving a third user input indicating a boundary for a gate for one or more of the parameters on the third plot. 6. The method of claim 5 , wherein the third plot is a histogram or scatter plot. 7. The method of claim 1 , wherein the second tree plot includes a level corresponding to a parameter of the second subset of parameters. 8. The method of claim 1 , wherein at least one of the plurality of parameters is a presence of a marker. 9. The method of claim 8 , wherein the marker is a cell-surface protein detectable using a labeled antibody, and wherein generating measured values for the plurality of parameters includes measuring fluorescence of the labeled antibody. 10. The method of claim 1 , wherein determining whether each cell is positive or negative for a parameter is based, at least in part, on a gate for the parameter, and wherein the cell is determined to be positive for the parameter when the measured value of the parameter is inside the gate. 11. The method of claim 1 , wherein a root of the second tree plot corresponds to the first leaf of the interactive tree plot. 12. The method of claim 1 , wherein the plurality of parameters include at least one of cellular size, mitotic phase, cellular complexity, and cellular health. 13. The method of claim 1 , further comprising: receiving a third user input on the second tree plot to select or deselect a second parameter of the second subset of parameters; responsive to the third user input, selecting or deselecting the second parameter from the second subset of the parameters; and responsive to selecting or deselecting the second parameter from the second subset of the parameters, altering the second tree plot to reflect adding or removing a level corresponding to the second parameter. 14. An apparatus comprising: a computer processor receiving measured values from a flow cytometer of a plurality of parameters for each of a plurality of cells in a sample, the plurality of parameters including a first subset of parameters and a second subset of parameters, the second subset of parameters being different than the first subset of parameters, and for each of the plurality of cells in the sample, determining whether that cell is positive or negative for each parameter in the first subset of parameters; a display device in communication with the computer processor, under control of the computer processor, displaying an interactive tree plot including a root, levels, branches and leaves, wherein each of the levels corresponds to a respective parameter in the first subset of parameters, wherein each of the levels divides the plurality of cells into a first subset of the plurality of cells which are determined to be positive for the respective parameter and a second subset of the plurality of cells which are determined to be negative for the respective parameter, wherein a path from the root to a first leaf defines a first phenotype based on a branch making up the path, and wherein a height of the first leaf corresponds to a count of cells determined to have the first phenotype; and a user input device in communication with the computer processor, the user input device receiving a first user input on the interactive tree plot to select or deselect a first parameter of the first subset of parameters, wherein the computer processor is further configured to select or deselect the first parameter from the first subset of parameters responsive to the first user input and the display device is further configured to alter the interactive tree plot to reflect an addition or removal of a level corresponding to the first parameter, and wherein the user input device further receives a second user input to select the first leaf of the interactive tree plot and the computer processor, responsive to the second user input, identifies a subpopulation of cells associated with the first leaf, the subpopulation including each cell of the plurality of cells determined to have the first phenotype, the computer processor, responsive to the second user input, analyzes the subpopulation of cells on a second tree plot including second levels to determine a second phenotype for each of the cells in the subpopulation based on the second subset of parameters associated with the second levels, and the display device displays the second tree plot. 15. The apparatus of claim 14 , further comprising the flow cytometer. 16. The apparatus of claim 14 , wherein: the display device further di