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find Author "DONG Zhu" 2 results
  • Application of 3D printing technology in the diagnosis and treatment of valvular heart disease

    The incidence of valvular heart disease (VHD) increases with age, and its principal therapy is valve replacement. However, in recent years, the emergence of transcatheter interventions has changed the traditional therapy, making high-risk patients of surgery see dawn of hope. 3D printing technology has developed rapidly since it was applied to the medical field in 1990. Moreover, it has been widely applied in many surgical majors via refined reduction technology. However, the application of 3D printing technology in cardiovascular surgery is still in the preliminary stage, especially in the field of VHD. This article aims to review basic principles of 3D printing technology, its advantages in the therapy of VHD, and its current status of clinical application. Furthermore, this article elaborates current problems and looks forward to the future development direction.

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  • Application of 3D printing technology in the personalized surgery of right ventricular double outlet

    ObjectiveTo evaluate the clinical value of three-dimensional (3D) printing model in accurate and minimally invasive treatment of double outlet right ventricle (DORV).MethodsFrom August 2018 to August 2019, 35 patients (22 males and 13 females) with DORV aged from 5 months to 17 years were included in the study. Their mean weight was 21.35±8.48 kg. Ten patients who received operations guided by 3D printing model were allocated to a 3D printing model group, and the other 25 patients who received operations without guidance by 3D printing model were allocated to a non-3D printing model group. Preoperative transthoracic echocardiography and CT angiography were performed to observe the location and diameter of ventricular septal defect (VSD), and to confirm the relationship between VSD and double arteries.ResultsThe McGoon index of patients in the 3D printing model group was 1.91±0.70. There was no statistical difference in the size of VSD (13.20±4.57 mm vs. 13.40±5.04 mm, t=−0.612, P=0.555), diameter of the ascending aorta (17.10±2.92 mm vs. 16.90±3.51 mm, t=0.514, P=0.619) or diameter of pulmonary trunk (12.50±5.23 mm vs. 12.90±4.63 mm, t=−1.246, P=0.244) between CT and 3D printing model measurements. The Pearson correlation coefficients were 0.982, 0.943 and 0.975, respectively. The operation time, endotracheal intubation time, ICU stay time and hospital stay time in the 3D printing model group were all shorter than those in the non-3D printing model group (P<0.05).ConclusionThe relationship between VSD and aorta and pulmonary artery can be observed from a 3D perspective by 3D printing technology, which can guide the preoperative surgical plans, assist physicians to make reasonable and effective decisions, shorten intraoperative exploration time and operation time, and decrease the surgery-related risks.

    Release date:2021-04-25 09:57 Export PDF Favorites Scan
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