A system and method for performing package status check are provided, including a scanner for use in a surgical field and having a circuit and an antenna for emitting a radio frequency detection field, the scanner further including control circuitry configured to determine a predetermined quantity of sponges corresponding to a complete pack of sponges; count a number of sponges associated with the pack with the scanner prior to use of the sponges in a surgical field; and issue an alert when a number of counted sponges does not match the predetermined quantity corresponding to the complete pack. The system and method may include the control circuitry configured to determine whether a sponge has been re-scanned or is unknown by comparing detected information with previously detected information prior.

Various embodiments of wirelessly detectable objects to be used in medical procedures are provided. Such may employ ionizing radiation hard wireless radio frequency identification (RFID) transponders, other wireless transponders and/or integrated circuits, and attachment structures, all of which retain structural and functional integrity when exposed to standard sterilization dosages of ionizing radiation. Additionally or alternatively, the wireless radio frequency identification (RFID) transponders, other wireless transponders and/or integrated circuits, and attachment structures, may retain structural and functional integrity when exposed to standard sterilization temperatures and/or pressures.

Various embodiments of wirelessly detectable objects to be used in medical procedures are provided. Such may employ ionizing radiation hard wireless radio frequency identification (RFID) transponders, other wireless transponders and/or integrated circuits, and attachment structures, all of which retain structural and functional integrity when exposed to standard sterilization dosages of ionizing radiation. Additionally or alternatively, the wireless radio frequency identification (RFID) transponders, other wireless transponders and/or integrated circuits, and attachment structures, may retain structural and functional integrity when exposed to standard sterilization temperatures and/or pressures.

A monitoring device for detecting wetness in a garment is disclosed. The monitoring device of the present disclosure includes a locking mechanism that slides back and forth relative to a clip that is removably attachable to a garment between a first position in which the locking mechanism locks the clip in a closed position and a second position in which the clip is in an open position. As the locking mechanism transitions from the first position to the second position, the locking mechanism opens the clip. Advantageously, the monitoring device of the present disclosure allows a caregiver to align and secure the monitoring device to a garment using only one hand.

A monitoring device for detecting wetness in a garment is disclosed. The monitoring device of the present disclosure includes a locking mechanism that slides back and forth relative to a clip that is removably attachable to a garment between a first position in which the locking mechanism locks the clip in a closed position and a second position in which the clip is in an open position. As the locking mechanism transitions from the first position to the second position, the locking mechanism opens the clip. Advantageously, the monitoring device of the present disclosure allows a caregiver to align and secure the monitoring device to a garment using only one hand.

A processor acquires a confirmation radiographic image including a surgical tool. In a case in which a radiographic image is input, the processor detects a region of the surgical tool from the confirmation radiographic image using a discriminator that detects the region of the surgical tool included in the radiographic image.

A processor acquires a confirmation radiographic image including a surgical tool. In a case in which a radiographic image is input, the processor detects a region of the surgical tool from the confirmation radiographic image using a discriminator that detects the region of the surgical tool included in the radiographic image.

A processor detects a surgical tool from a radiographic image acquired by irradiating a subject with radiation emitted from a radiation source and detecting the radiation transmitted through the subject with a radiation detector. The processor measures a size of the detected surgical tool on the radiographic image. The processor derives a position of the surgical tool in a height direction in the subject on the basis of an actual size of the surgical tool, the measured size, and a geometrical positional relationship between a position of the radiation source and a position of a detection surface of the radiation detector.

A processor detects a surgical tool from a radiographic image acquired by irradiating a subject with radiation emitted from a radiation source and detecting the radiation transmitted through the subject with a radiation detector. The processor measures a size of the detected surgical tool on the radiographic image. The processor derives a position of the surgical tool in a height direction in the subject on the basis of an actual size of the surgical tool, the measured size, and a geometrical positional relationship between a position of the radiation source and a position of a detection surface of the radiation detector.

A processor acquires a radiographic image including a human body and a surgical tool image which indicates a surgical tool and is acquired by a method other than radiography. The processor combines the surgical tool image with the radiographic image to generate a training image for training a discriminator that discriminates a region of the surgical tool in a target image in a case in which the target image is input.