Abstract: A system, including an image sensor configured to acquire a plurality of images of a body part of a patient; and processing circuitry configured to receive the images of the body part of the patient and depth data including depth values corresponding to pixels of each image of the body part of the patient, isolate a foreground region of interest including the body part of the patient in the plurality of images, determine image sensor poses in three-dimensional space based on depth data, the depth data including depth values corresponding to pixels of each image of the body part of the patient, generate a combined point cloud of pixels corresponding to the foreground region of interest based on the depth data and the image sensor poses, and generate a mesh surface of the body part of the patient.
Type:
Application
Filed:
April 9, 2025
Publication date:
October 9, 2025
Applicant:
PediaMetrix Inc.
Inventors:
Can KOCABALKANLI, Reza SEIFABADI, Fereshteh AALAMIFAR, Yifan YIN, Mingxu LIU, A N M Tawsifur RAHMAN, Bo WU
Abstract: The present disclosure is generally related to systems and methods that can be implemented in a mobile application to allow users, such as parents and care providers, to measure and monitor, for example, a patient's body including an infant's head shape, at the point of care. The point of care can be, for instance, the home environment, a doctor's office, or a hospital setting. After acquiring 2D and/or 3D images of the body part, parameters reflecting potential deformity can be calculated. If abnormal measurements are determined, the user can be guided through therapeutic options to improve the condition. Based on the severity of the condition, different recommendations can be provided. Moreover, longitudinal monitoring and evaluation of the parameters can be performed. Monitoring of the normal child development can also be performed through longitudinal determination of parameters and comparison to normative values. Data can be shared with clinician's office.
Abstract: The present disclosure is generally related to systems and methods that can be implemented in a mobile application to allow users, such as parents and care providers, to measure and monitor, for example, a patient's body including an infant's head shape, at the point of care. The point of care can be, for instance, the home environment, a doctor's office, or a hospital setting. After acquiring 2D and/or 3D images of the body part, parameters reflecting potential deformity can be calculated. If abnormal measurements are determined, the user can be guided through therapeutic options to improve the condition. Based on the severity of the condition, different recommendations can be provided. Moreover, longitudinal monitoring and evaluation of the parameters can be performed. Monitoring of the normal child development can also be performed through longitudinal determination of parameters and comparison to normative values. Data can be shared with clinician's office.