关键词: 4D printing · Shape memory polyurethane · Rhinoplasty · Self-deformation · Dynamic aesthetic adjustment

Abstract: The disparity between the postoperative outcomes of rhinoplasty and the expected results frequently necessitates secondary
or multiple surgeries as a compensatory measure, greatly diminishing patient satisfaction. However, there is renewed optimism
for addressing these challenges through the innovative realm of Four-Dimensional (4D) printing. This groundbreaking
technology enables three-dimensional objects with shape-memory properties to undergo predictable transformations under
specific external stimuli. Consequently, implants crafted using 4D printing offer significant potential for dynamic adjustments.
Inspired by worms in our research, we harnessed 4D printing to fabricate a Shape-Memory Polyurethane (SMPU) for use
as a nasal augmentation prosthesis. The choice of SMPU was guided by its Glass Transition Temperature (
Tg), which falls
within the acceptable temperature range for the human body. This attribute allowed for temperature-responsive intraoperative
self-deformation and postoperative remodeling. Our chosen animal model for experimentation was rabbits. Taking into
account the anatomical structure of the rabbit nose, we designed and produced nasal augmentation prostheses with superior
biocompatibility. These prostheses were then surgically implanted in a minimally invasive manner into the rabbit noses.
Remarkably, they exhibited successful temperature-controlled in-surgery self-deformation according to the predetermined
shape and non-invasive remodeling within a mere 9 days post-surgery. Subsequent histological evaluations confirmed the
practical viability of these prostheses in a living organism. Our research findings posit that worm-inspired 4D-printed SMPU
nasal prostheses hold significant promise for achieving dynamic aesthetic adjustments.

Key words: 4D printing · Shape memory polyurethane · Rhinoplasty · Self-deformation · Dynamic aesthetic adjustment