Abstract: An adjustable fingerprint capturing device is configured to stabilize a finger of a subject. The adjustable fingerprint capturing device comprises an imaging device(s) configured to capture an image(s) of the finger. The adjustable fingerprint capturing device comprises an image actuator. The adjustable fingerprint capturing device comprises a controller configured to activate the imaging device(s) based on input from the image actuator. The adjustable fingerprint capturing device comprises a housing disposed to: the imaging device(s), the image actuator, and the controller. The adjustable fingerprint capturing device comprises a plurality of moveable finger stabilizers configured to move about a portion of the housing. The plurality of moveable finger stabilizers are configured to apply pressure to the finger. The adjustable fingerprint capturing device comprises a stabilizer actuator connected to: the housing and the plurality of moveable finger stabilizers.

Abstract: An adjustable fingerprint capturing device is configured to stabilize a finger of a subject. The adjustable fingerprint capturing device comprises an imaging device(s) configured to capture an image(s) of the finger. The adjustable fingerprint capturing device comprises a detection sensor(s) configured to detect presence of the finger. The adjustable fingerprint capturing device comprises a controller configured to activate the imaging device(s) based on input from the detection sensor(s). The adjustable fingerprint capturing device comprises a housing disposed to: the imaging device(s), the detection sensor(s), and the controller. The adjustable fingerprint capturing device comprises a finger stabilizer comprising at least one cantilever. The adjustable fingerprint capturing device comprises at least one cantilever spring connecting the housing and the at least one cantilever. The at least one cantilever spring is configured to create a space between the housing and the finger stabilizer.

Abstract: Methods are provided for diagnosis and prognosis of disease by analyzing expression of a set of genes obtained from single cell analysis. Classification allows optimization of treatment, and determination of whether on whether to proceed with a specific therapy, and how to optimize dose, choice of treatment, and the like. Single cell analysis also provides for the identification and development of therapies which target mutations and/or pathways in disease-state cells.

Abstract: Methods are provided for diagnosis and prognosis of disease by analyzing expression of a set of genes obtained from single cell analysis. Classification allows optimization of treatment, and determination of whether on whether to proceed with a specific therapy, and how to optimize dose, choice of treatment, and the like. Single cell analysis also provides for the identification and development of therapies which target mutations and/or pathways in disease-state cells.

Abstract: Methods are provided for diagnosis and prognosis of disease by analyzing expression of a set of genes obtained from single cell analysis. Classification allows optimization of treatment, and determination of whether on whether to proceed with a specific therapy, and how to optimize dose, choice of treatment, and the like. Single cell analysis also provides for the identification and development of therapies which target mutations and/or pathways in disease-state cells.

Abstract: Methods are provided for diagnosis and prognosis of disease by analyzing expression of a set of genes obtained from single cell analysis. Classification allows optimization of treatment, and determination of whether on whether to proceed with a specific therapy, and how to optimize dose, choice of treatment, and the like. Single cell analysis also provides for the identification and development of therapies which target mutations and/or pathways in disease-state cells.

Abstract: Methods are provided for diagnosis and prognosis of disease by analyzing expression of a set of genes obtained from single cell analysis. Classification allows optimization of treatment, and determination of whether on whether to proceed with a specific therapy, and how to optimize dose, choice of treatment, and the like. Single cell analysis also provides for the identification and development of therapies which target mutations and/or pathways in disease-state cells.