Abstract

Worldwide, 225 million women have unmet contraceptive needs which, every year, leads to 52 million unintended pregnancies. A challenge to providing universal access to contraception is the large proportion of the population living in rural, difficult-to-access settings in low- and middle-income countries. Further, the availability and delivery of effective contraception in rural areas are limited by the lack of trained healthcare providers required to administer long-acting reversible contraceptives. In this study, we describe the design and testing of the SubQ Assist, a task-shifting contraceptive implant insertion device that aims to ensure appropriate and consistent subdermal administration. Cadaver testing and ultrasound depth measurements were used to evaluate the performance of the SubQ Assist. Implant insertion outcomes between the SubQ Assist operated by a trained clinician and the conventional freehand insertion method by a trained clinician were compared. Cadaver testing and ultrasound depth measurements demonstrated that the SubQ Assist resulted in implant insertions that were statistically equivalent to implants inserted using the freehand insertion method. Additionally, the results showed that the lateral positioning of these implants would facilitate uncomplicated removal at a later date. These findings demonstrated that the SubQ Assist can consistently insert implants at an appropriate depth. Pending clinical testing, the SubQ Assist may be an effective method of task-shifting the insertion of contraceptive implants from providers with advanced skills to minimally trained providers in order to expand access in rural areas.

Issue Section:
Technical Briefs
Topics:
Design, Pressure, Testing, Health care, Skin, Pressure testing, Biological tissues, Blood, Ultrasound, Performance

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