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Literature DB >> 26465262

Hybrid 3D printing: a game-changer in personalized cardiac medicine?

Harikrishnan K N Kurup¹, Bennett P Samuel¹, Joseph J Vettukattil¹.

Abstract

Three-dimensional (3D) printing in congenital heart disease has the potential to increase procedural efficiency and patient safety by improving interventional and surgical planning and reducing radiation exposure. Cardiac magnetic resonance imaging and computed tomography are usually the source datasets to derive 3D printing. More recently, 3D echocardiography has been demonstrated to derive 3D-printed models. The integration of multiple imaging modalities for hybrid 3D printing has also been shown to create accurate printed heart models, which may prove to be beneficial for interventional cardiologists, cardiothoracic surgeons, and as an educational tool. Further advancements in the integration of different imaging modalities into a single platform for hybrid 3D printing and virtual 3D models will drive the future of personalized cardiac medicine.

Entities: Disease Species

Keywords: 3D segmentation; 3D ultrasound; cardiac imaging; cardiac magnetic resonance imaging; computed tomography; congenital heart disease; hybrid 3D printing; integration; rapid prototyping; simulation

Mesh：

Year: 2015 PMID： 26465262 DOI： 10.1586/14779072.2015.1100076

Source DB: PubMed Journal: Expert Rev Cardiovasc Ther ISSN： 1477-9072

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Cited

18 in total

Review 1. Applications of 3D printing in cardiovascular diseases.

Authors: Andreas A Giannopoulos; Dimitris Mitsouras; Shi-Joon Yoo; Peter P Liu; Yiannis S Chatzizisis; Frank J Rybicki
Journal: Nat Rev Cardiol Date: 2016-10-27 Impact factor: 32.419

Review 2. Cardiothoracic Applications of 3-dimensional Printing.

Authors: Andreas A Giannopoulos; Michael L Steigner; Elizabeth George; Maria Barile; Andetta R Hunsaker; Frank J Rybicki; Dimitris Mitsouras
Journal: J Thorac Imaging Date: 2016-09 Impact factor: 3.000

Review 3. Three-dimensional modelling and three-dimensional printing in pediatric and congenital cardiac surgery.

Authors: Laszlo Kiraly
Journal: Transl Pediatr Date: 2018-04

Review 4. 3D Printing for Cardiovascular Applications: From End-to-End Processes to Emerging Developments.

Authors: Ramtin Gharleghi; Claire A Dessalles; Ronil Lal; Sinead McCraith; Kiran Sarathy; Nigel Jepson; James Otton; Abdul I Barakat; Susann Beier
Journal: Ann Biomed Eng Date: 2021-05-17 Impact factor: 3.934

5. A systematic review of image segmentation methodology, used in the additive manufacture of patient-specific 3D printed models of the cardiovascular system.

Authors: N Byrne; M Velasco Forte; A Tandon; I Valverde; T Hussain
Journal: JRSM Cardiovasc Dis Date: 2016-04-29

9. Three-dimensional-printed cardiac prototypes aid surgical decision-making and preoperative planning in selected cases of complex congenital heart diseases: Early experience and proof of concept in a resource-limited environment.

Authors: Mahesh Kappanayil; Nageshwara Rao Koneti; Rajesh R Kannan; Brijesh P Kottayil; Krishna Kumar
Journal: Ann Pediatr Cardiol Date: 2017 May-Aug

Review 10. Recent Advances in Treatment of Coronary Artery Disease: Role of Science and Technology.

Authors: Eswar Kandaswamy; Li Zuo
Journal: Int J Mol Sci Date: 2018-01-31 Impact factor: 5.923