Abstract: A subcutaneously implantable device includes a housing, a clip attached to a top side of the housing, a first prong with a proximal end attached to the housing and a distal end extending away from the housing, and a first electrode on the first prong. The clip is configured to anchor the device to a muscle, a bone, and/or a tissue. The first prong is configured to contact a heart. The first electrode is configured to contact the heart. Sensing circuitry in the housing that is configured to sense an electrical signal from the heart, and therapeutic circuitry in the housing is in electrical communication with the first electrode and is configured to deliver electrical stimulation to the heart through the first electrode.

Abstract: A subcutaneously implantable device includes a housing, a clip attached to a top side of the housing that is configured to anchor the device to a muscle, a bone, and/or a first tissue, and a first prong with a proximal end attached to the housing and a distal end extending away from the housing that is configured to contact a first lung. A first electrode on the device is configured to contact the first lung, and a second electrode on the device is configured to contact the first lung or a second lung. Sensing circuitry in the housing in electrical communication with the first electrode and the second electrode is configured to measure an impedance in the first lung and/or the second lung, and/or a transthoracic impedance across the first lung and the second lung.

Abstract: A method of subcutaneously injecting and anchoring a device to a bone, a muscle, and/or a tissue in a patient, the device having a clip configured to anchor the device to the bone, the muscle, or the tissue, includes making an incision in the patient. An instrument pre-loaded with the device is inserted through the incision. The instrument is advanced to the bone, the muscle, and/or the tissue upon which the device is to be anchored. A clip of the device is pushed onto the bone, the muscle, and/or the tissue using the instrument. The device is anchored to the bone, the muscle, and/or the tissue using the clip on the device.

Abstract: A subcutaneously implantable device includes a housing, a clip attached to a top side of the housing, and an electrode. The clip is configured to anchor the device to a muscle, a bone, and/or a first tissue. The electrode is configured to contact an organ, a nerve, the first tissue, and/or a second tissue. Circuitry in the housing is in electrical communication with the electrode and is configured to sense an electrical signal from the organ, the nerve, the first tissue, and/or the second tissue through the electrode; deliver electrical stimulation to the organ, the nerve, the first tissue, and/or the second tissue through the electrode; and/or deliver a signal to a drug pump to provide a targeted or systemic therapeutic drug to the organ, the nerve, the first tissue, and/or the second tissue.

Abstract: A subcutaneously implantable device includes a housing, a clip attached to a top side of the housing, and an electrode. The clip is configured to anchor the device to a muscle, a bone, and/or a first tissue. The electrode is configured to contact an organ, a nerve, the first tissue, and/or a second tissue. Circuitry in the housing is in electrical communication with the electrode and is configured to sense an electrical signal from the organ, the nerve, the first tissue, and/or the second tissue through the electrode; deliver electrical stimulation to the organ, the nerve, the first tissue, and/or the second tissue through the electrode; and/or deliver a signal to a drug pump to provide a targeted or systemic therapeutic drug to the organ, the nerve, the first tissue, and/or the second tissue.

Abstract: A subcutaneously implantable device includes a housing, a clip attached to a top side of the housing that is configured to anchor the device to a muscle, a bone, and/or a first tissue, and an electrode that is configured to contact an organ, a nerve, the first tissue, and/or a second tissue. The device further includes circuitry in the housing in electrical communication with the electrode that is configured to sense an electrical signal from the organ, the nerve, the first tissue, and/or the second tissue through the electrode; deliver electrical stimulation to the organ, the nerve, the first tissue, and/or the second tissue through the electrode; and/or deliver a signal to a drug pump to provide a targeted or systemic therapeutic drug to the organ, the nerve, the first tissue, and/or the second tissue.

Abstract: A subcutaneously implantable device includes a housing, a clip attached to a top side of the housing, a first prong with a proximal end attached to the housing and a distal end extending away from the housing, a first defibrillator coil on the distal end of the first prong, and a first electrode on the device. The clip is configured to anchor the device to a muscle, a bone, and/or a tissue. The first prong is configured to be positioned inferior to a heart. Therapeutic circuitry in the housing is in electrical communication with the first defibrillator coil and the first electrode and is configured to deliver a shock to the heart through the first defibrillator coil.

Abstract: A subcutaneously implantable device includes a housing, a clip attached to a top side of the housing, a first prong with a proximal end attached to the housing and a distal end extending away from the housing, and a first electrode on the first prong. The clip is configured to anchor the device to a muscle, a bone, and/or a tissue. The first prong is configured to contact a heart. The first electrode is configured to contact the heart. Sensing circuitry in the housing that is configured to sense an electrical signal from the heart, and therapeutic circuitry in the housing is in electrical communication with the first electrode and is configured to deliver electrical stimulation to the heart through the first electrode.