Tag: inferior vena cava

The human body's venous system plays a crucial role in returning deoxygenated blood from the peripheries back to the heart, ensuring efficient circulation and nutrient distribution. This intricate network of veins, illustrated in the anterior view of major systemic veins, highlights key pathways that support vital physiological functions, from oxygen transport to waste removal.

The human heart is a remarkable organ, tirelessly pumping blood to sustain life through a complex circulatory system. This diagram illustrates the key structures involved in blood circulation, offering a clear view of how oxygen-rich and oxygen-poor blood flows between the heart and lungs. Understanding these components is essential for grasping the fundamentals of cardiovascular anatomy and physiology.

The coronal CT image of a 19-year-old patient with tricuspid atresia, treated with a bidirectional Glenn shunt and Fontan procedure, provides a detailed view of the altered cardiac anatomy and surgically modified circulation. This medical image is an essential resource for medical students, radiologists, and cardiologists aiming to understand the structural changes associated with tricuspid atresia and the outcomes of these palliative procedures. By examining the labeled anatomical features, this guide offers a comprehensive exploration of the heart’s condition and the impact of surgical interventions on long-term circulation.

The diagram illustrating a heart with tricuspid atresia and its transformation following a Fontan procedure offers a detailed comparison of congenital heart defect anatomy and surgical correction. This medical image serves as a vital educational tool for medical students, cardiologists, and healthcare professionals aiming to understand the structural challenges of tricuspid atresia and the surgical strategies employed to improve circulation. By examining the labeled parts, this guide provides a comprehensive exploration of the heart’s condition before and after the procedure, highlighting the clinical significance of this intervention.

The human circulatory system is a remarkable network that ensures the continuous flow of oxygen-rich and oxygen-depleted blood throughout our body. This intricate system, centered around the heart, plays a vital role in maintaining life by delivering essential nutrients and oxygen to every cell while removing waste products. The image illustrates the complex pathway of blood circulation, showing how blood moves between the heart, lungs, and various body parts.