Transporting Metabolic Waste like Carbondioxide to the Lungs

Maria Prei*

Department of Cardiology, Harvard Medical School, Boston, USA

*Corresponding Author:
Maria Prei
Department of Cardiology,
Harvard Medical School, Boston,
USA,
E-mail: mariaprei@gmail.com

Received date: May 01, 2023, Manuscript No. IPJHCR-23-17583; Editor assigned date: May 03, 2023, PreQC No. IPJHCR-23-17583 (PQ); Reviewed date: May 13, 2023, QC No. IPJHCR-23-17583; Revised date: May 23, 2023, Manuscript No. IPJHCR-23-17583 (R); Published date: June 01, 2023, DOI: 10.36648/2576-1455.7.02.49

Citation: Prei M (2023) Transporting Metabolic Waste like Carbondioxide to the Lungs. J Heart Cardiovasc Res Vol.7 No.2: 49

Visit for more related articles at Journal of Heart and Cardiovascular Research

Description

The heart is divided into four chambers in humans, other mammals, and birds: upper left and right atria and bottom left and right ventricles. The right atrium and ventricle are commonly referred to as the right heart, while their left counterparts are referred to as the left heart. Fish, on the other hand, have two chambers, an atrium and a ventricle, whereas reptiles have three. The heart is a muscular organ that pumps blood through the circulatory system's blood arteries. Pumped blood transports oxygen and nutrients to the body while also transporting metabolic waste like carbon dioxide to the lungs. The heart in humans is about the size of a closed fist and is placed in the middle compartment of the chest, between the lungs. The right atrium gets low-oxygen blood from the systemic circulation, which enters from the superior and inferior venae cavae and flows to the right ventricle. Due to cardiac valves that prevent backflow, blood flows in one direction through a healthy heart.

Pulmonary Circulation

The pericardium, a protective sac that also contains a tiny amount of fluid, surrounds the heart. Epicardium, myocardium, and endocardium are the three layers that make up the heart's wall. It is then pushed into the pulmonary circulation, where it gets oxygen and emits carbon dioxide through the lungs. A collection of pacemaker cells in the sinoatrial node regulates the heart's pumping rhythm. The resting heart rate is around 72 beats per minute. Exercise temporarily raises the rate, but in the long run, it lowers the resting heart rate, which is beneficial to heart health. As of 2008, cardiovascular diseases (CVD) were the leading cause of death worldwide, accounting for 30% of all deaths. More than three-quarters of these are caused by coronary artery disease and stroke. These generate a current that travels through the atrioventricular node and along the heart's conduction system, causing the heart to contract.The oxygenated blood then returns to the left atrium, flows through the left ventricle, and is pushed into the systemic circulation via the aorta, where it is utilised and converted into carbon dioxide. Smoking, being overweight, not getting enough exercise, having high cholesterol, having high blood pressure, and having controlled diabetes are all risk factors. The human heart is located in the mediastinum, between the thoracic vertebrae T5 and T8, at the level of the thoracic vertebrae T5 and T8.

Echocardiography

The pericardium is a double-membraned sac that surrounds the heart and connects it to the mediastinum. The front surface of the heart is hidden behind the sternum and rib cartilages, whereas the rear surface is near the vertebral column. Several significant blood arteries, including the venae cavae, aorta, and pulmonary trunk, attach to the upper region of the heart. Cardiovascular disorders are often asymptomatic, but they can produce chest pain or shortness of breath. A medical history, listening to heart sounds with a stethoscope, ECG, echocardiography, and ultrasound are all used to diagnose heart. Cardiologists are specialists who specialize on cardiac disorders, though therapy may entail a variety of medical specialties. The mass of an adult heart is 250–350 grammes (9–12 oz). The heart is commonly described as being the size of a fist: 12 cm (5 in) long, 8 cm (3.5 in) wide, and 6 cm (2.5 in) thick; however, this description is debatable because the heart is likely to be significantly larger. Due to the impact of exercise on the heart muscle, which is similar to the response of skeletal muscle, welltrained athletes can have substantially larger hearts. At the level of the third costal cartilage, the upper half of the heart is placed. The greatest component of the heart is normally somewhat offset to the left side of the chest (though it may be displaced to the right on rare occasions) and is thought to be on the left since the left heart is stronger and larger because it pumps blood to all regions of the body. Because the heart is located between the lungs, the left lung is smaller than the right lung and has a cardiac notch in its border to allow the heart to pass through. The heart is cone-shaped, with an upward-facing base and a downward-facing apex.

Select your language of interest to view the total content in your interested language

Viewing options

Flyer image

Share This Article