ABSTRACT
Objective:To establish silicone cartilage models of donor-sites for the microtia patients by using digital technology, and to explore the application of surgical simulation in auricular reconstruction.Methods:From June 2018 to October 2019, 19 congenital microtia patients underwent thoracic CT scans and following three-dimensional costal cartilage imaging with Mimics software at the Nanfang Hospital, Southern Medical University. Among these patients, 16 were males and 3 were females. The mean age of patients was 16 years (range 8 to 35 years). Silicon cartilage models were produced by 3D printing and used for surgical planning and preoperative simulation in ear framework fabrication. Cartilaginous framework was sculptured according to the simulation during operation. Patients were followed up for a minimum of six months to evaluate the size, outline, height and auriculocephalic angle of the reconstructed ear. The satisfactory outcomes of the patients were scored according to a 5-point Likert scale.Results:All the patients received the surgical simulation and sculpture training with silicone cartilage models before operation. Auricular reconstruction was completed successfully according to the simulation. The duration of sculpture was shortened to 1-1.5 hours. There were no serious complications, such as hematoma, inflammation, skin necrosis and framework exposure. The contour of reconstructed ear was natural and clear over a 6 months follow-up, and all the patients were satisfied with their surgical outcomes.Conclusions:With the application of digital technology and silicone cartilage models by 3D printing to the surgical planning and training in microtia patients, patient-specific framework is fabricated with precisely assembling, which not only shortens the operation time, but also provides the unexperienced surgeons with a safe and effective training of ear framework fabrication.
ABSTRACT
<p><b>OBJECTIVE</b>To evaluate the influence of adipose tissue extract on inducing angiogenesis and adipogenesis in adipose tissue engineering chamber in vivo.</p><p><b>METHODS</b>6 months' healthy New Zealand rabbits (n = 64) were picked. The inguinal fat pads were cultured, centrifuged, filtered, and the liquid was called adipose tissue extract (ATE). Two adipose tissue engineering chamber were built in the rabbit's back. A week later, 0.2 ml normal saline (control group, left) and 0. 2 ml ATE (experimental group, right) was respectively injected into the chamber. The contents were evaluated morphometrically, histologically and immunohistochemically 3 days, 1 week, 2 weeks, 3 weeks, 4 weeks and 7 weeks after injection. 8 rabbits were observed each time. The data regarding the number of the volume of fat flap and blood capillary at each time point were analyzed by paired t test.</p><p><b>RESULTS</b>After injection, new tissue volume was significantly increased in the experimental group [(5.12 ± 0.22) ml], compared with that in control group [(4.90 ± 0.15) ml]. Early angiogenesis was also increased after ATE injection and the total number of capillaries reached peak 1 week after injection, which was (72.80 ± 9.67) in experimental group and (51.40 ± 6.09) in control group. In the mid-term of experimental period, earlier adipogenesis appeared in experimental group. In the later period, the outer capsule of the new construction was thinner in experimental group which reduced the suppression of the adipogenesis.</p><p><b>CONCLUSIONS</b>ATE can promote the angiogenesis and adipogenesis in the chamber, and reduce the capsule contracturing, so as to induce the large volume of adipose tissue regeneration</p>