A method for treating mononuclear cells for an extracorporeal photopheresis procedure, driven and adjusted by a microprocessor-based controller, comprising the steps of priming a fluid circuit with priming fluid, directing whole blood derived from a blood source into the fluid circuit, separating the whole blood into a red blood cell component, a mononuclear cell component, and a plasma component, returning a first portion of the red blood cell component and a first portion of the plasma component to the whole blood, adding a photoactivation agent to the mononuclear cell component to create an agent-added mononuclear cell component, irradiating the agent-added mononuclear cell component to create a photoactivated mononuclear cell component, and incubating for a period of time a first portion of the photoactivated mononuclear cell component to create an incubated photoactivated mononuclear cell component.

Disclosed herein is a wearable drug delivery device including a container filled at least partially with a drug including at least one of a PCSK9 (Proprotein Convertase Subtilisin/Kexin Type 9) specific antibody, a granulocyte colony-stimulating factor (G-CSF), a sclerostin antibody, or a calcitonin gene-related peptide (CGRP) antibody. The wearable drug delivery device may include a needle and an insertion mechanism configured to insert the needle into a patient. A fluid pathway connector may define a sterile fluid flowpath between the container and the insertion mechanism. Optionally, a cannula initially disposed about the needle may be included. The cannula may be retained in the patient at an injection site created by the needle after the needle is withdrawn from the patient. Methods of assembly and operation are also provided.