The embodiments disclose a digitally enabled pelvic self-examination device including a first memory device to receive and store cervix images, a second memory device to receive and store heat detection sensor data, a first processor to convert the heat detection sensor data into superimposed overlays on the first memory device stored cervix images, a second processor to compare current stored cervix images to previously stored cervix images to determine any changes, an internet communication device coupled to a memory device and processor to receive an aggregation of data on disease prevalence and research, a third processor to generate a determination of any changes in the stored cervix images indicating any disease indications present including cervical cancer, a swab device configured to allow the user to collect a cervix tissue laboratory analysis sample, and a digitally enabled pelvic self-examination device configured to be used by user to perform a pelvic self-examination.

A uterine manipulator includes a body defining proximal and distal end portions, a handle operably coupled to the proximal end portion, an end effector assembly operably coupled and configured to articulate relative to the distal end portion, and a force sensor configured to measure a force indicative of a torque required to articulate the end effector assembly relative to the distal end portion of the body. A method of transcervically determining uterine mobility includes transcervically positioning a surgical instrument such that an end effector assembly of the surgical instrument extends into a uterus, articulating the end effector assembly relative to a body of the surgical instrument to thereby move the uterus, and measuring a force indicative of a torque required to move the uterus.

A monitoring system is described which comprises a sensor device for generating sensor data, the sensor device having a secondary coil, and a receiver device having a controller, and a primary coil for wirelessly communicating with the sensor device, the receiver device being operable to wirelessly charge the sensor device via inductive coupling between the primary and secondary coils. A quality factor of the primary coil is controllable, and the controller is operable to control the quality factor of the primary coil to be higher when the receiver device is wirelessly charging the sensor device than when the receiver device is receiving sensor data from the sensor device. As a result, the same coil can be used both for efficient power transfer (wireless charging) by using the coil in a (relatively) high quality factor mode, and for reliable data communications by using the coil in a (relatively) low quality factor mode.

A multi-lumen catheter for monitoring intrauterine pressure comprising an elongated body configured and dimensioned for insertion into a uterus of a patient, the catheter having a first lumen, a second lumen, and a first balloon at a distal portion. The first lumen communicates with the first balloon and the second lumen has an opening within the uterus for injection of x-ray dye or other fluid into the uterus for imaging the uterine cavity and the fallopian tubes of a patient. The first balloon contains a gas to form along with the first lumen a chamber to monitor pressure within the uterus to thereby determine if excessive pressure is being applied to the fallopian tubes of the patient. A sensor is in communication with the first lumen to measure pressure about a circumferential area of the balloon to measure pressure in the uterus to provide readings of intrauterine pressure.

Devices, systems and related methods for direct and in-vivo monitoring and stimulation of the endometrial cavity include a plurality of sensing modalities incorporated on a set of flexible conductive filaments that allows its insertion in an endometrial cavity through the vagina. The flexible set of conductive filaments is in direct contact with the endometrium to maximize recording sensitivity and acquire direct readings, which correspond to the functionality of the endometrium and/or electrically stimulate endometrial peristalsis in a controlled manner. The same electrodes can be used for a controlled stimulation to strengthen weakened muscle tissue before and after medical and surgical interventions on the uterus, to reset to normal contractility. The methods and systems disclosed herein can be used to improve the chances of success for artificial insemination, including in-vitro fertilization, embryo transfer, and intrauterine insemination, diagnostic tests, and may further improve the overall understanding of endometrial functionality.

The present invention provides a uterus OCT catheter, comprising: a catheter body; the catheter body comprises an outer sleeve, an OCT imaging catheter and a Luer connector; the outer sleeve is provided with an exit window; the reflecting surface of the reflecting prism in the OCT imaging catheter faces the exit window. The present invention further provides a uterus OCT equipment with pull-back function, comprising a pull-back device and the catheter body, the pull-back device comprises a first housing, a driving connector, a fixing sleeve and a catheter fixing tube. The invention adopts the way that the outer sleeve wraps the OCT imaging catheter to increase the overall strength and diameter; a pull-back device is adopted, the pull-back process is stable and in uniform speed, and can effectively prevent complications during human operation and damage to human tissue during pull-back process.

Health information for a woman can be used to predict timing of events related to the woman's menstrual cycle. If available, historical cycle information for a woman can be used to predict upcoming cycle events, such as the start and stop of menstruation. To improve the accuracy of those predictions, one or more health metrics are monitored for the woman that can be correlated with the menstrual cycle. These can include, for example, the resting heart rate (RHR), blood oxygen concentration (SpO.sub.2) level, and hemoglobin concentration, among other such options. The metrics are monitored over time to determine patterns that can be correlated with menstrual cycle. This information can then be used to update the predictive model, as well as to update individual event predictions. Information about the predictions, and updates to the predictions, can be surfaced accordingly.

A pH sensor for measuring pH levels within a measurement environment is described. The sensor comprises a reference electrode, a pH sensitive electrode, and a controller, for measuring the potential difference between the pH sensitive electrode and the reference electrode, the measured potential difference being indicative of a pH level at the pH sensitive electrode. The controller is operable to apply a voltage across first and second electrodes to control the pH level at the pH sensitive electrode, and to measure the potential difference between the pH sensitive electrode and the reference electrode following the application of the recalibration voltage. In this way, recalibration of the pH sensor is possible within the measurement environment.

The present disclosure describes ultrasound imaging systems and methods configured to identify ovarian follicles by applying a neural network to pre-processed ultrasound image frames. Systems may include an ultrasound transducer configured to acquire echo signals responsive to ultrasound pulses transmitted toward a target region. One or more processors communicatively coupled with the ultrasound transducer may be configured to generate at least one image from the ultrasound echoes. A threshold may be applied to the image frame that differentiates pixels representative of an ovarian follicle present in the target region from other subject matter. The processors may apply a neural network to the thresholded image frame, in which the neural network determines the presence of the ovarian follicle in the thresholded image frame. The processors also may generate an indicator based on the presence of the ovarian follicle and display the indicator on a user interface.

[Problem] To provide a method for acquisition of data able to serve as an index for determining the likelihood that an ovarian endometriosis cyst is cancerous.

[Solution] This data acquisition method for determining the likelihood that an ovarian endometriosis cyst is cancerous includes an iron concentration measurement step for measuring the iron concentration in the cystic fluid of the ovarian endometriosis cyst. This diagnostic device for diagnosing the likelihood that an ovarian endometriosis cyst is cancerous is provided, at a minimum, with an iron concentration measurement unit for measuring the iron concentration in the cystic fluid of the ovarian endometriosis cyst.