Abstract: Systems, devices and methods for advanced electrode management in neurological monitoring applications include receiving sockets configured to receive connectors having groups of electrodes. The physician is not required to manually map each electrode with its corresponding input channel. Electrodes are coupled to the corresponding input channels in groups through connectors having a unique identification (ID). The system is configured to read the unique ID of each connector and establish its identity. Based on the ID, the system configures itself to automatically correlate or associate each electrode with its corresponding input channel when the connectors are first inserted into the receiving sockets, and again if the connectors are removed and re-inserted into different positions in the receiving sockets, to insure the electrodes are always mapped to the same input channels.

Abstract: Systems, devices and methods for advanced electrode management in neurological monitoring applications include receiving sockets configured to receive connectors having groups of electrodes. The physician is not required to manually map each electrode with its corresponding input channel. Electrodes are coupled to the corresponding input channels in groups through connectors having a unique identification (ID). The system is configured to read the unique ID of each connector and establish its identity. Based on the ID, the system configures itself to automatically correlate or associate each electrode with its corresponding input channel when the connectors are first inserted into the receiving sockets, and again if the connectors are removed and re-inserted into different positions in the receiving sockets, to insure the electrodes are always mapped to the same input channels.

Abstract: Systems, devices and methods for advanced electrode management in neurological monitoring applications include receiving sockets configured to receive connectors having groups of electrodes. The physician is not required to manually map each electrode with its corresponding input channel. Electrodes are coupled to the corresponding input channels in groups through connectors having a unique identification (ID). The system is configured to read the unique ID of each connector and establish its identity. Based on the ID, the system configures itself to automatically correlate or associate each electrode with its corresponding input channel when the connectors are first inserted into the receiving sockets, and again if the connectors are removed and re-inserted into different positions in the receiving sockets, to insure the electrodes are always mapped to the same input channels.

Abstract: Systems, devices and methods for advanced electrode management in neurological monitoring applications include receiving sockets configured to receive connectors having groups of electrodes. The physician is not required to manually map each electrode with its corresponding input channel. Electrodes are coupled to the corresponding input channels in groups through connectors having a unique identification (ID). The system is configured to read the unique ID of each connector and establish its identity. Based on the ID, the system configures itself to automatically correlate or associate each electrode with its corresponding input channel when the connectors are first inserted into the receiving sockets, and again if the connectors are removed and re-inserted into different positions in the receiving sockets, to insure the electrodes are always mapped to the same input channels.

Abstract: Systems, devices and methods for advanced electrode management in neurological monitoring applications include receiving sockets configured to receive connectors having groups of electrodes. The physician is not required to manually map each electrode with its corresponding input channel. Electrodes are coupled to the corresponding input channels in groups through connectors having a unique identification (ID). The system is configured to read the unique ID of each connector and establish its identity. Based on the ID, the system configures itself to automatically correlate or associate each electrode with its corresponding input channel when the connectors are first inserted into the receiving sockets, and again if the connectors are removed and re-inserted into different positions in the receiving sockets, to insure the electrodes are always mapped to the same input channels.

Abstract: Systems, devices and methods for advanced electrode management in neurological monitoring applications include receiving sockets configured to receive connectors having groups of electrodes. The physician is not required to manually map each electrode with its corresponding input channel. Electrodes are coupled to the corresponding input channels in groups through connectors having a unique identification (ID). The system is configured to read the unique ID of each connector and establish its identity. Based on the ID, the system configures itself to automatically correlate or associate each electrode with its corresponding input channel when the connectors are first inserted into the receiving sockets, and again if the connectors are removed and re-inserted into different positions in the receiving sockets, to insure the electrodes are always mapped to the same input channels.

Abstract: Systems, devices and methods for advanced electrode management in neurological monitoring applications include receiving sockets configured to receive connectors having groups of electrodes. The physician is not required to manually map each electrode with its corresponding input channel. Electrodes are coupled to the corresponding input channels in groups through connectors having a unique identification (ID). The system is configured to read the unique ID of each connector and establish its identity. Based on the ID, the system configures itself to automatically correlate or associate each electrode with its corresponding input channel when the connectors are first inserted into the receiving sockets, and again if the connectors are removed and re-inserted into different positions in the receiving sockets, to insure the electrodes are always mapped to the same input channels.

Abstract: The present application discloses methods and systems for transferring primary alarm notification on patient monitoring systems from a bedside monitor to one or more secondary devices which may operate on a less than fully reliable network. The bedside monitor includes an attached physiological parameter measurement device which detects when a specific physiological parameter measures outside a predetermined range. The bedside monitor then directs the secondary device(s) to annunciate its alarm. Primary alarming responsibility reverts from the secondary device(s) back to the bedside monitor whenever communication between the two is lost or when acknowledgement of the alarm condition by the secondary device is not relayed back to the bedside monitor within a predetermined amount of time.

Abstract: The present application discloses methods and systems for transferring primary alarm notification on patient monitoring systems from a bedside monitor to one or more secondary devices which may operate on a less than fully reliable network. The bedside monitor includes an attached physiological parameter measurement device which detects when a specific physiological parameter measures outside a predetermined range. The bedside monitor then directs the secondary device(s) to annunciate its alarm. Primary alarming responsibility reverts from the secondary device(s) back to the bedside monitor whenever communication between the two is lost or when acknowledgement of the alarm condition by the secondary device is not relayed back to the bedside monitor within a predetermined amount of time.

Abstract: The present application discloses methods and systems for transferring primary alarm notification on patient monitoring systems from a bedside monitor to one or more secondary devices which may operate on a less than fully reliable network. The bedside monitor includes an attached physiological parameter measurement device which detects when a specific physiological parameter measures outside a predetermined range. The bedside monitor then directs the secondary device(s) to annunciate its alarm. Primary alarming responsibility reverts from the secondary device(s) back to the bedside monitor whenever communication between the two is lost or when acknowledgement of the alarm condition by the secondary device is not relayed back to the bedside monitor within a predetermined amount of time.

Abstract: A system for providing patient care includes acquiring, consolidating, distributing, storing and displaying medical data using cell phone platforms and non-proprietary hardware and software modules. The system includes sensing devices, acquisition devices, network appliances, cloud computing and storage, and presentation devices. Sensing devices are connected to acquisition devices via wired or wireless connections. Sensing acquisition devices can be used in a caregiver facility and in an outpatient environment and can connect to the cloud via cell phone (3G/4G) networks. Clinical data is sent in encrypted messages having only the header encoded using a standard scripting language, such as Lua. Presentation devices include computers, tablets, cell phones, and wall-mounted displays and can be located anywhere, enabling greater accessibility of patient data by caregivers.

Abstract: The present application discloses methods and systems for transferring primary alarm notification on patient monitoring systems from a bedside monitor to one or more secondary devices which may operate on a less than fully reliable network. The bedside monitor includes an attached physiological parameter measurement device which detects when a specific physiological parameter measures outside a predetermined range. The bedside monitor then directs the secondary device(s) to annunciate its alarm. Primary alarming responsibility reverts from the secondary device(s) back to the bedside monitor whenever communication between the two is lost or when acknowledgement of the alarm condition by the secondary device is not relayed back to the bedside monitor within a predetermined amount of time.