Summary of Anatomía | Sistema Cardiovascular | Inductivo a la Facultad de Medicina

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00:00:00 - 01:00:00

This video discusses the anatomy of the cardiovascular system, and explains the different parts of the system and their functions. It also covers the different types of veins and arteries, and the importance of oxygenating the blood. Finally, it gives an overview of the cardiology, and how the anatomy of the heart determines the position of bones in the body.

  • 00:00:00 In this YouTube video, Dr. Bruce Ames explains the anatomy and physiology of the cardiovascular system. He starts by discussing the waveform of the heart, and goes on to discuss blood vessels and the lymphatic system. He finishes the video by discussing clinical applications of the information. At the end of the day, it is up to the viewer to decide how much they absorb from the video. However, if they are interested, they can find the question about the embolism on Dr. Ames' YouTube channel, and see how viewers responded.
  • 00:05:00 Today's lesson is about the cardiovascular system, which includes the heart and blood vessels. We will be focusing on the main and largest vessels in the system, the arteries and veins, and how to understand them better. You will also be able to access special access to our classes for a month if you etiquet them on Instagram and Facebook. Good luck!
  • 00:10:00 In this video, an anatomy professor discusses the cardiovascular system, which includes the heart, blood vessels, and electrical system. He also covers the different types of veins and arteries. Students who have taken the course presencial will be able to answer some questions.
  • 00:15:00 The video discusses the anatomy of the cardiovascular system, starting with the heart and its two ventricles. The auricles are the smallest cameras in the system, while the ventricles are the largest. The heart is divided into a right ventricle and a left ventricle, and each ventricle has a different function- the right ventricle pumps blood to the body, while the left ventricle pumps blood to the lungs. The video also discusses the position of the body when studying anatomy, and explains how the position of the heart is used to determine the position of bones in the body. All of the participants are correctly answering questions about the heart, with the exception of a few who are answering questions about the left ventricle in the wrong position. The video ends with a brief explanation of the anatomy of the left ventricle, and a demonstration of how the position of the heart determines the position of bones in the body.
  • 00:20:00 This video explains the cardiovascular system with simplified images and blocks. You will understand the flow of blood better without all the anatomical structure, and understand the role of veins in blood flow. You will also learn about the heart's arteries and veins, and the heart's valves. In the end, you will be given specific names for each part of the heart, left-right, and top-bottom.
  • 00:25:00 In this video, cardiovascular anatomy is discussed, starting with the cardiovascular system's largest chamber, the heart, and moving on to the individual heart chambers. The difference between the heart's circulatory systems is highlighted, with the larger circulation going to the entire body via the larger arteries on the right side of the heart and the smaller circulation going to the lungs and other organs via the smaller veins on the left side. The importance of understanding these systems is emphasized, as improper function of these structures can lead to diseases such as heart attacks.
  • 00:30:00 In this video, the anatomy of the cardiovascular system is explained, starting with the cardiovascular system's basic structure and moving on to the different parts of the system. The different veins that are part of the cardiovascular system are described, and their functions are explained. The importance of oxygenating the blood is also discussed, and how the blood is transported to the different parts of the body through the veins is explained. Finally, a concept relating to the function of the cardiovascular system is discussed.
  • 00:35:00 This video discusses the cardiovascular system, and specifically the anatomy of the arteries and veins. The arteries and veins are named according to where they originate from - the arteries from the lungs, and the veins from the heart. The arteries and veins return to the heart via the pulmonary arteries and veins, respectively. The video explains that the larger and more muscular ventricles on the left side of the heart are responsible for more forceful blood ejection. The video ends with a brief explanation of the artery and vein system and their role in blood distribution.
  • 00:40:00 This video teaches the anatomy of the cardiovascular system, starting with the aorta. The video then moves on to show the different branches of the aorta, and how they connect to each other. It also explains the function of the various organs in the cardiovascular system. Finally, the video teaches the basics of cardiology, including the anatomy and function of the heart.
  • 00:45:00 The video introduces the cardiovascular system, which includes the heart and its four chambers. The heart pumps blood throughout the body and, when it contracts, expels the blood through the arteries. The blood is oxygenated and then drained from the heart through the veins. The cardiovascular system is illustrated with a simplified diagram. Next, the explanations of the various valves in the cardiovascular system are given. Finally, the video returns to the original diagram to describe the flow of blood through the system.
  • 00:50:00 The following video explains the anatomy of the cardiovascular system, starting with the pulmonary artery. They will notice that it now goes in the other direction, and that it will be more apparent in a full diagram. Overall, it's correct, but Ronaldo highlights the observation nicely. The three branches of the pulmonary artery are called the vena cava, the aorta, and the pulmonary vein. The circuit is called the circulatory system, and it consists of the following: 1. The heart, which receives blood from the vena cava and sends it out to the rest of the body. 2. The arteries, which carry oxygen-rich blood to the heart. 3. The veins, which take blood back to the heart. 4. The lungs, which take oxygen-rich blood from the veins and distribute it to the rest of the body. 5. The arteries and veins return to the lungs. 6. The heart pumps blood around the body. 7. The lungs and heart exchange oxygen. 8. The heart sends blood to the kidneys and the bladder. 9. The heart sends blood to the skin. 10. The heart sends blood to the
  • 00:55:00 The video discusses the anatomy of the cardiovascular system, and explains the valves that separate the ventricles and arteries. It also explains the terms "vascular" and "lunar." Finally, the video provides examples of the two types of valves.

01:00:00 - 02:00:00

This video provides an overview of the cardiovascular system, including the anatomy of the heart and the arteries that supply it with blood. It also discusses the importance of arterial blood flow, and explains the function of the heart's valves. Finally, it shows the nacimiento, or birth, of the heart's arteries, as well as the aorta, which is the largest of these arteries.

  • 01:00:00 The semi lunar sign (ideas) is named after the fact that if you look at it from one angle, you can see the shape of a half moon. The figures are curved, and make sense because they are both synonymous with the word "curved" and can be called that depending on the context. It might be easier to remember the name "semi lunars" but you are responsible for learning all of the synonyms. You don't know the textbook for the semester you're taking medical school, so you need to understand when these terms are being used. The word "pulmonary artery" and "pulmonary vein" have the same name, but their names are a bit more complicated to learn. "Pulmonary artery" is named after the color of its blood (pink), and "pulmonary vein" is named after the color of the sky (blue). Both of these arteries and veins are located in the right side of the chest. The cardiovascular system has two valves - the "pulmonary valve" and the "aortic valve". The pulmonary valve is located in the pulmonary artery, and the aortic valve is located in the aorta. These valves are important because
  • 01:05:00 In this video, a student demonstrates how to listen to and identify the sound of cardiovascular rhythms, which are similar to the sound of a beating heart. The student then demonstrates how to simulate the sound of cardiovascular rhythms by playing the sound of pom poms on a drum. The sounds of systole (the heart's pumping action) and diastole (the heart's relaxing action) can be heard as the pom poms hit the drum. A trained medical professional uses an EKG machine to listen to the patient's heart, and the student is able to identify the location of their heart's focus by noting the position of their chest and the orientation of their nipples. Finally, the student teaches others how to remember the location of their heart's focus by writing the words "aórtico" (aortic), "tricúspide" (triple bypass), "pulmonar" (pulmonary), and "mitral" (mitral valve) on their palm.
  • 01:10:00 The video introduces the cardiovascular system, discussing how the right and left ventricles pass blood between them. The tricuspid valve allows blood to flow in one direction, but not the other. The pulmonary artery and pulmonary vein are the divisions of the tricuspid valve. The heart passes blood first through the pulmonary artery, which is called the pulmonary trunk, and then through the pulmonary vein to the lungs. The video then goes on to discuss the heart's two lungs, the right and left, and how blood flows from the left lung to the right lung through the pulmonary artery and pulmonary vein. Finally, the video explains the aorta and its two branches, the aorta ascendente and aorta descendente.
  • 01:15:00 The video discusses the cardiovascular system, focusing on the anatomy of the aorta. The aorta is made up of three parts: the diafragma, the aorta torácica, and the callado de la aorta. Each part has its own name and functions. The aorta torácica is divided into three parts: the ascending aorta, the curve of the aorta, and the descending aorta. The video then goes on to discuss the different branches of the aorta, explaining the names and functions of each. Finally, the video offers a brief lesson on how to identify the branches of the aorta in the body.
  • 01:20:00 The video discusses the anatomy of the cardiovascular system, including the heart and its various vessels. It also introduces the concept of the tronco braquiocefálico, or "unique" braquiocefálicus trunk, which does not have an apellid (name). The video ends with a reminder for students that if they still have any questions, they can ask the presenter.
  • 01:25:00 The video discusses the cardiovascular system, focusing on the aorta and its branches. It explains that the aorta descends from the heart, giving rise to the lower extremities (legs), and then splits into two branches: the common iliac artery and the left and right ilíacas. The iliacas then branch off into several smaller arteries, including the common ilíaca, which supplies the abdomen and lower extremities. Finally, the aorta abdominal (which descends from the diaphragm) splits into two large branches, the left and right ilíacas. These branches then supply the various organs in the abdominal cavity.
  • 01:30:00 This video explains the anatomy of the cardiovascular system, including the aorta and abdominal organs. The aorta divides into two common iliac arteries, and these branches divide again into internal and external iliacs. The iliac arteries supply the pelvic region and in turn, inervate the thigh muscles. Finally, we look at the external iliac arteries, which supply the leg extremities. Once these arteries have been divided, they will eventually convert into the femoral (inferior) and abdominal (upper) arteries. Remember that the aorta abdominal will disappear once it becomes the femoral artery, and the external iliac arteries will become the femoral (inferior) and abdominal (upper) arteries.
  • 01:35:00 In this video, the different systems that make up the human body are discussed, including the cardiovascular system. The cardiovascular system is made up of the heart and the blood vessels. The blood vessels are divided into the cardiovascular system and the lymphatic system. The cardiovascular system is responsible for transporting blood throughout the body. The lymphatic system is responsible for cleaning the blood and removing toxins.
  • 01:40:00 The video discusses the cardiovascular system, including the anatomy of the heart and the arteries that supply it with blood. It also discusses the importance of arterial blood flow, and explains the function of the heart's valves. Finally, it shows the nacimiento, or birth, of the heart's arteries, as well as the aorta, which is the largest of these arteries.
  • 01:45:00 In this video, Dr. Armando López-Cruz explains the cardiovascular system in detail, including the blood flow through the system and the heart's electrical system. He also discusses the system's minor exceptions-namely, the need for oxygen in the heart-and concludes by discussing the vascular system in more detail. Finally, he shows a video of the heart's drainage system, showing how the blood flows towards the right auricle and then towards the left auricle.
  • 01:50:00 This video provides an overview of the cardiovascular system, including the heart's electrical system. It explains that the heart receives blood from the veins and pumps it around the body. It also shows the heart's basic structure - the right and left atria, the right and left ventricles, and the pulmonary artery and vein. The video then moves on to discuss the heart's electrical system, focusing on the atria and ventricles. Finally, it discusses the importance of the heart's main blood-pumping organ, the coronary artery.
  • 01:55:00 The following video provides a brief overview of the cardiovascular system, including the anatomy of the right auricle. The video then moves on to discuss the different names for the "nodal" structure located near the auricle, which includes the terms "sinoatrial node" and "atrial node." Finally, the video discusses the difference between the "sinoatrial node" and the "atrial node," and how these terms are used to refer to the auricle.

02:00:00 - 03:00:00

This video covers the anatomy of the cardiovascular system and the different types of ischemia (infarction) that can occur. It explains how to diagnose infarction and how it can lead to serious health problems, such as osteoporosis.

  • 02:00:00 The video discusses the different types of cardiac structures, including the nodal structure, the atrial structure, and the ventricular structure. The different sinonimos (synonyms) of these structures are explained, and the importance of being familiar with them is emphasized. It is stressed that students should not rely on tricks they learned in previous exams, but should instead study the different sinonimos in detail so that they can understand the concepts behind them. The concept of frequency of cardiac beats is also introduced, and it is noted that the human heart usually beats between 60 and 100 times per minute.
  • 02:05:00 This video explains the anatomy of the cardiovascular system and the different types of heart attacks. It covers the role of the "marcapasos" (or "marcapasos' heart), which is a small, orange node located in the heart that is responsible for automatic electrical impulse generation and 60-100 beats per minute heart rate. If this node is blocked, the heart may not be able to contract properly, leading to a heart attack.
  • 02:10:00 The heart doesn't have this frequency anymore, and a pacemaker will be needed in the future. They put a pacemaker-like device that has a cable and an electric spark, and sends electric impulses at 60 to 100 times per minute to mark the heart rate. The normal pacemaker is called a "marcapasos". If there is an infarction in this zone, the node dies, and without oxygen the tissue around it can't live either. So, this small piece of tissue can't live without oxygen, and if there is an infarction in the artery that supplies blood to this piece, it dies. This piece has to be replaced after it's died, and it can be done either surgically or with an artificial pacemaker. Sometimes the artificial pacemaker is enough, and sometimes surgery is necessary. There is always a risk that people will lose track of doctor Lazio, as he is an expert in neurosurgery. He will introduce them to the nervous system, which includes the autonomous system. This system regulates your automatic functions. The autonomic system is how the nervous system regulates your automatic functions. For example, what people are asking about - how high the heart rate is above 100 beats per
  • 02:15:00 This video is about the heart's electrical system and how it works. It explains how the auricular node, which is between the ears and the ventricles, emits small, automatic currents that travel through the muscle tissues to the auricles and then to the ventricles. This electrical system is important because it allows the heart to beat at a consistent rate, even when someone is not active.
  • 02:20:00 This video explains the anatomy of the cardiovascular system, focusing on the system's electrical components - namely, the heart's muscles. These muscles are composed of specialized fibers called "purkinje fibers." The video also covers the system's blood vessels and the role they play in delivering blood to and from the heart. Finally, the video summarizes the main features of the heart's circulatory system.
  • 02:25:00 This video explains the function of the cardiovascular system, including the role of the arterioles, capillaries, veins, and heart. It also covers how shock can occur and how the cardiovascular system can limit blood flow.
  • 02:30:00 The video discusses the difference between arteries and veins, and how arteries are generally larger and have a harder wall than veins. It also explains how veins are more suited for holding blood and how they can expand to accommodate larger objects. Finally, the video provides a brief explanation on how diabetes occurs and how the veins are involved.
  • 02:35:00 This video covers the anatomy of the cardiovascular system, focusing on the arterial and venous systems. The arterial system is made up of rigid blood vessels that are visible when viewed under a microscope. Venous systems, on the other hand, tend to collapse and form sacks, which are more visible when viewed in person. The students were also taught the different types of arteries and veins, as well as their respective valves. Next, they discussed the lymphatic system, which has similar layers to the cardiovascular system. Finally, the students learned about the vascular system in general and the different types of arteries and veins.
  • 02:40:00 The video discusses the anatomy of the cardiovascular system, discussing how two blood vessels (anastomoses) join together to form a circulatory system. When two blood vessels merge, they create branch arteries and veins. This is called an anastomosis. When arteries and veins merge, they divide and recombine until they reach a point where they no longer divide. This is an arterial endartery. When branches of arteries terminate, they are called arterial terminations. The video also discusses the importance of anastomosis, and how it can be important in terms of health.
  • 02:45:00 This video discusses the anatomy of the cardiovascular system, including the veins and their valves. It explains that some veins, such as the coronary veins, do not follow the same name as other veins, and that the aorta is the main artery in the body. It also discusses special veins, such as the vena basilar and median veins, and how they are examined during medical exams. Finally, the video discusses clinical issues, such as how veins may be affected by valve malfunction and how muscles may help to push blood upward in one direction.
  • 02:50:00 The video discusses the anatomical system of the cardiovascular system and its functions. Muscles are called "muscles" and you move around. When you walk, your walking muscles push blood forward and keep it moving. This is called "bombing" or "bumping". When veins carry blood back to the heart, they're called "venous valves". When these valves become damaged, blood flow can become blocked, leading to varicose veins. These veins can be very small, such as a cosmetic issue, or more serious, leading to ulcers. These ulcers can be quite difficult to heal and can cause circulatory problems. Finally, the video discusses varices in women and how they can develop, leading to a condition called "varices".
  • 02:55:00 This video explains the anatomy and physiology of the cardiovascular system, including the different types of ischemia (infarction) and how to diagnose them. It also covers the term "infarto," which refers to an occlusion of the blood vessels in the lungs. In a case study, an elderly woman with osteoporosis fractured her hip after falling, and was left immobile for two weeks due to the blood clotting in her legs.

03:00:00 - 03:30:00

This video covers the anatomy of the cardiovascular system and how to perform an inductive procedure at the medical school. It also discusses how to diagnosing a coagulation event and the treatments available.

  • 03:00:00 This video presents the anatomy of the cardiovascular system and describes how a coagulation event can occur. It also describes how to diagnosing a coagulation event and the treatments available.
  • 03:05:00 This video discusses the difference between a derrame and a stroke, and the correct terminology to use for describing a person's medical condition. A derrame is not always correct, and the correct term is "accident cerebrovascular." A stroke is a complication of a brain aneurysm, and an embolism is a condition in which a clot forms in a blood vessel. In this video, we discuss embolism cerebral, which is a cerebral vascular event combining the words "embroilation cerebral vascular," "stroke," and "accident cerebrovascular." The video also describes common terms for stroke and brain aneurysm, and explains which one is most likely to cause injury to the brain if it occurs.
  • 03:10:00 This video discusses the anatomy of the cardiovascular system, including the system's electrical system and how it can go wrong. It also discusses how hypertension can predispose someone to embolisms, and how to recognize and treat these injuries.
  • 03:15:00 This video covers the anatomy and physiology of the cardiovascular system and discusses the relationship between the cardiovascular system and the lymphatic system. It also covers the symptoms and signs of cardiovascular disorders, including infarcts (heart attacks), heart surgery, and cerebrovascular accidents.
  • 03:20:00 The video discusses the anatomy and physiology of the cardiovascular system, and explains how ganglios lymphatic cells can be inflamed. It also discusses the importance of diagnosing cancer in women, and the potential for metastasis when cancer is found. Finally, it provides tips for assessing cardiovascular risk in patients.
  • 03:25:00 This video discusses the cardiovascular system and its various components, and how to identify and treat coagulopathy (clots in the blood). There is a lot of information covered, so if you're interested in learning more about cardiovascular health, this is a good video to watch.
  • 03:30:00 The video discusses the cardiovascular system, and how to perform an inductive procedure at the medical school.

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