Isomerism in the setting of the so-called “heterotaxy”: The usefulness of computed tomographic analysis

Mori, Shigeo; Anderson, Robert H.; Nishii, Tatsuya; Matsumoto, Kensuke; Loomba, Rohit S.

doi:10.4103/apc.apc_171_16

Cited by 14 publications

(10 citation statements)

References 26 publications

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“…In recent years, the availability of specialized software packages has made it possible to illustrate details of intracardiac anatomy. [678910] These software packages, however, are not available in all countries. When available, they are prohibitively costly.…”

Section: Virtual Cardiac Dissection Using a Personal Computermentioning

confidence: 99%

A new low-cost method of virtual cardiac dissection of computed tomographic datasets

2019

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Computed tomography has an established role in the evaluation of a variety of cardiac disorders, including congenital heart diseases. The current generation of high-speed scanners produces volumetric data at low doses of radiation. The interpretation of cardiac anatomy, however, is generally limited to multiplanar assessment of two-dimensional images. The volume rendering technique provides an excellent three-dimensional demonstration of external morphology but offers little information about the intracardiac anatomy. The alternative approach of virtual cardiac dissection, which is a modification of volume rendering, on the other hand, provides crucial insights regarding the intracardiac anatomy. At present, virtual cardiac dissection requires expensive software packages. These software packages are not available in all countries, thus limiting its use in routine clinical care. We present here the details of a newly developed technique that permits virtual cardiac dissection using a personal computer and open-source software. Our technique involves no additional cost and can be achieved in the comfort of the office or operating room of the cardiologist, radiologist, or cardiac surgeon. This enhanced three-dimensional visualization of intracardiac anatomy will surely improve the understanding of the morphological details of both normal and malformed hearts. In addition, by permitting assessment in projections with which modern-day cardiologists and cardiac surgeons are conversant, it is likely to improve clinical decision-making. We illustrate here its potential utility in the morphologic assessment of the atrial septum and its deficiencies, along with malformations of the ventricular outflow tracts, including common arterial trunk.

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Section: Virtual Cardiac Dissection Using a Personal Computermentioning

confidence: 99%

A new low-cost method of virtual cardiac dissection of computed tomographic datasets

2019

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“…However, it can provide insufficient spatial resolution for detailed anatomical analyses. With rapid technical improvements, including a significant reduction in radiation exposure and improved temporal resolution, the higher spatial resolution provided by cardiac computed tomography can work as a complementary tool to cardiac magnetic resonance imaging and three-dimensional echocardiography for the periprocedural assessment of the highly complicated morphology of congenital heart disease ( Figure 7 and Figure 8 ) [ 38 ].…”

Section: Representative Imagesmentioning

confidence: 99%

Stereogram of the Living Heart, Lung, and Adjacent Structures

2022

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Innovations in invasive cardiovascular diagnostics and therapeutics, not only limited to transcatheter approaches but also involving surgical approaches, are based on a precise appreciation of the three-dimensional living heart anatomy. Rapid advancements in three-dimensional cardiovascular imaging technologies in the 21st century have supported such innovations through the periprocedural assessment of the clinical anatomy of the living heart. However, even if high-resolution volume-rendered images are reconstructed, they cannot provide appropriate depth perception when displayed and shared on a two-dimensional display, which is widely used in clinical settings. Currently, images reconstructed from clinical datasets can visualize fine details of the cardiovascular anatomy. Therefore, this is an optimal time for cardiologists and cardiac surgeons to revisit the classic technology, stereopsis, and obtain bonus information from carefully reconstructed clinical images. Using anaglyphs or cross/uncross-fusion of paired images, striking depth perception can be readily obtained without the need for expensive equipment. This conventional technique, when applied to high-resolution volume-rendered images, may help in obtaining appropriate diagnostics, choosing optimal therapeutics, securing procedural success, and preventing complications. Furthermore, it can be used for anatomical education. In this review, we demonstrate multiple stereoscopic images reconstructed from cardiac computed tomographic datasets and discuss their clinical and educational implications.

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“…To this end, the literature was reviewed and showed that most studies address the need for exploring the arrangement of abdominal organs in greater detail, with some even stating that they will give the “precise arrangement” of these viscera [ 12 ]. However, these very papers frequently provide no more detail than the organ laterality [ 13 , 14 ].…”

Section: Abdominal Heterotaxy and Cardiac Isomerism–vibha Shajimentioning

confidence: 99%

Congenitally Malformed Hearts: Aspects of Teaching and Research Involving Medical Students

Pickin

Castle

Shaji

et al. 2021

JCDD

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To appreciate congenital heart disease fully, a detailed understanding of the anatomical presentation, as well as the physiology, is required. This is often introduced at an advanced stage of training. Professor Anderson has been influential in the Clinical Anatomy Intercalated BSc programme at the University of Birmingham, in particular in his teaching on Sequential Segmental Analysis. This article describes the experiences of the latest cohort of students on this programme, who undertook varying research projects using the Birmingham Cardiac Archive, with the guidance of Professor Anderson. The projects outlined include various aspects of isomerism, encompassing both the cardiac and abdominal manifestations, as well as details of congenitally corrected transposition of the great arteries and prenatally diagnosed right aortic arch and double arch. These studies all aimed to increase the knowledge base of their respective cardiac malformations and provide a basis for further research.

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Isomerism in the setting of the so-called “heterotaxy”: The usefulness of computed tomographic analysis

Cited by 14 publications

References 26 publications

A new low-cost method of virtual cardiac dissection of computed tomographic datasets

A new low-cost method of virtual cardiac dissection of computed tomographic datasets

Stereogram of the Living Heart, Lung, and Adjacent Structures

Congenitally Malformed Hearts: Aspects of Teaching and Research Involving Medical Students

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