Technology
Personalized therapeutics for women's health.
Technology
Personalized therapeutics for women's health.
MADE-TO-MEASURE
Personalized gynecological prosthetics.
Leveraging artificial intelligence, cloud computing, and 3D printing to provide solutions catered to each individual's anatomy and needs.
The first indication of the technology is for the non-invasive management of Pelvic Organ Prolapse and Stress Urinary Incontinence.
MADE-TO-MEASURE
Personalized gynecological prosthetics.
Leveraging artificial intelligence, cloud computing, and 3D printing to provide solutions catered to each individual's anatomy and needs.
The first indication of the technology is for the non-invasive management of Pelvic Organ Prolapse and Stress Urinary Incontinence.
By the numbers
Gynecological prosthetics, also known as pessaries, today come in simple geometric shapes and sizes, and do not comfortably fit within the vaginal cavity.
of pessaries will displace and fall out of the vagina.
of patients report complications with long-term use.
of patients fail a pessary fitting due to trial-and-error.
By the numbers
Gynecological prosthetics, also known as pessaries, today come in simple geometric shapes and sizes, and do not comfortably fit within the vaginal cavity.cavity.
of pessaries will displace and fall out of the vagina.
of patients report complications with long-term use.
of patients fail a pessary fitting due to trial-and-error.
OUR APPROACH
Steps to a better fit
OUR APPROACH
Steps to a better fit
The clinician conducts a standard digital pelvic exam.
Pelvic floor measurements are obtained using the Pelvic Organ Prolapse Quantification system (POP-Q) and the FemTherapeutics measuring glove - no mess, no fuss.
The clinician conducts a standard digital pelvic exam.
Pelvic floor measurements are obtained using the Pelvic Organ Prolapse Quantification system (POP-Q) and the FemTherapeutics measuring glove - no mess, no fuss.
The AI-driven software designs a patient-specific pessary.
The patient’s measurements are inputted into a parametric simulation model which recommends the most optimal pessary design.
The AI-driven software designs a patient-specific pessary.
The patient’s measurements are inputted into a parametric simulation model which recommends the most optimal pessary design.
The pessary is 3D printed with biocompatible silicone.
The pessary is fabricated using additive manufacturing and computer-aided modeling to achieve high quality devices.
The pessary is 3D printed with biocompatible silicone.
The pessary is fabricated using additive manufacturing and computer-aided modeling to achieve high quality devices.
The cloud-based platform allows for centralized care management.
The data is collected to build a latitudinal and longitudinal dataset of pelvic floor measurements, and to offer data driven-decision making.
The cloud-based platform allows for centralized care management.
The data is collected to build a latitudinal and longitudinal dataset of pelvic floor measurements, and to offer data driven-decision making.
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