Circulatory System - NCLEX-PN
Card 0 of 340
What is the average amount of blood in the adult body?
What is the average amount of blood in the adult body?
Tap to see back →
The average adult body contains 4.5-6 liters of blood, depending on size and gender. Blood volume (BV) can be calculated by the following formula, given the hematocrit (HC) and plasma volume (PV):
The average adult body contains 4.5-6 liters of blood, depending on size and gender. Blood volume (BV) can be calculated by the following formula, given the hematocrit (HC) and plasma volume (PV):
The most common free plasma proteins include all of the following except .
The most common free plasma proteins include all of the following except .
Tap to see back →
The three main types of proteins in the blood are albumin, globulin, and fibrinogen. Major histocompatibility complex is not a free plasma protein, but rather a class of proteins found on the surface of all nucleated cells (MHC class I) and on the surface of certain immune cells known as antigen-presenting cells (MHC class II). They play an important part in immune function by displaying foreign antigens for communication between leukocytes.
The three main types of proteins in the blood are albumin, globulin, and fibrinogen. Major histocompatibility complex is not a free plasma protein, but rather a class of proteins found on the surface of all nucleated cells (MHC class I) and on the surface of certain immune cells known as antigen-presenting cells (MHC class II). They play an important part in immune function by displaying foreign antigens for communication between leukocytes.
Which of the following blood cells is anucleate (lacking a nucleus)?
Which of the following blood cells is anucleate (lacking a nucleus)?
Tap to see back →
The only anucleate blood cells are erythrocytes, or red blood cells. These cells are created with nuclei, but each daughter cell will then lose its nucleus in order to create more suface area for hemoglobin to bind oxygen and for easier passage through narrow capillaries.
The only anucleate blood cells are erythrocytes, or red blood cells. These cells are created with nuclei, but each daughter cell will then lose its nucleus in order to create more suface area for hemoglobin to bind oxygen and for easier passage through narrow capillaries.
How does parasympathetic innervation affect the heart?
How does parasympathetic innervation affect the heart?
Tap to see back →
Sympathetic innervation will decrease the heart rate, which will automatically decrease the cardiac output 
Sympathetic innervation will decrease the heart rate, which will automatically decrease the cardiac output
Parasympathetic innervation of the heart is primarily controlled by what nerve?
Parasympathetic innervation of the heart is primarily controlled by what nerve?
Tap to see back →
The vagus nerve provides the main parasympathetic innervation of the heart. The recurrent laryngeal nerve, a branch of the vagus nerve, innervates the majority of the intrinsic muscles of the larynx. The cardiac nerve is part of the sympathetic innervation of the heart.
The vagus nerve provides the main parasympathetic innervation of the heart. The recurrent laryngeal nerve, a branch of the vagus nerve, innervates the majority of the intrinsic muscles of the larynx. The cardiac nerve is part of the sympathetic innervation of the heart.
What coronary artery supplies left atrium and left ventricle?
What coronary artery supplies left atrium and left ventricle?
Tap to see back →
The majority of blood supply to the left atrium and left ventricle is provided by the left coronary artery. The septal branches and left circumflex artery are smaller divisions of this main artery. The posterior descending artery supplies the posterior one-third of the interventricular septum.
The majority of blood supply to the left atrium and left ventricle is provided by the left coronary artery. The septal branches and left circumflex artery are smaller divisions of this main artery. The posterior descending artery supplies the posterior one-third of the interventricular septum.
A nurse is performing an abdominal exam and notices a strong pulse in the abdomen just above the umbilicus. She is most likely palpating what blood vessel?
A nurse is performing an abdominal exam and notices a strong pulse in the abdomen just above the umbilicus. She is most likely palpating what blood vessel?
Tap to see back →
The nurse is most likely palpating the abdominal aorta. This vessel is large, generally 2.5-4 cm in diameter, and a strong pulse can often be felt on palpation. The femoral artery is also an area where a pulse may be felt, but it is only palpable in the mid-inguinal point of the inner thigh. The exterior iliac artery branches off of the abdominal aorta below the umbilicus, and the inferior mesenteric artery is a minor artery and is not generally palpable on examination.
The nurse is most likely palpating the abdominal aorta. This vessel is large, generally 2.5-4 cm in diameter, and a strong pulse can often be felt on palpation. The femoral artery is also an area where a pulse may be felt, but it is only palpable in the mid-inguinal point of the inner thigh. The exterior iliac artery branches off of the abdominal aorta below the umbilicus, and the inferior mesenteric artery is a minor artery and is not generally palpable on examination.
Which of the following is not a function of the lymphatic system?
Which of the following is not a function of the lymphatic system?
Tap to see back →
The lymphatic system has several roles in the body, including drainage of interstitial fluid from tissues, transportation and activation of lymphocytes, and absorption and transportation of dietary fats. Red blood cells, however, are unable to enter lymph vessels, and so the lymphatic system does not participate in any type of gas exchange.
The lymphatic system has several roles in the body, including drainage of interstitial fluid from tissues, transportation and activation of lymphocytes, and absorption and transportation of dietary fats. Red blood cells, however, are unable to enter lymph vessels, and so the lymphatic system does not participate in any type of gas exchange.
What organ of the lymphatic system is the site of T-cell maturation?
What organ of the lymphatic system is the site of T-cell maturation?
Tap to see back →
T-cell maturation occurs in the thymus, a small organ located in the upper part of the mediastinum, between the heart and the sternum. Mature T cells then may either circulate in the lymph or blood or reside in lymph nodes. The spleen is not a site of T cell maturation, though it does have other important immune functions, such as the production of antibodies and the removal of antibody-coated pathogens. The cisterna chyli is a part of the lymphatic system that is involved in lipid digestion.
T-cell maturation occurs in the thymus, a small organ located in the upper part of the mediastinum, between the heart and the sternum. Mature T cells then may either circulate in the lymph or blood or reside in lymph nodes. The spleen is not a site of T cell maturation, though it does have other important immune functions, such as the production of antibodies and the removal of antibody-coated pathogens. The cisterna chyli is a part of the lymphatic system that is involved in lipid digestion.
Digestive fat is absorbed through what specialized lymphatic vessels of the small intestine?
Digestive fat is absorbed through what specialized lymphatic vessels of the small intestine?
Tap to see back →
Dietary fat is absorbed via lacteals, small lymph vessels contained within the body of the intestinal villi. Microvilli, tiny projections covering the surface of the villi, help with the absorption of minerals, vitamins, and other micronutrients. The cisterna chyli is a dilated pouch at the lower end of the thoracic duct that serves as a collection point for fatty chyle from the intestinal lacteals.
Dietary fat is absorbed via lacteals, small lymph vessels contained within the body of the intestinal villi. Microvilli, tiny projections covering the surface of the villi, help with the absorption of minerals, vitamins, and other micronutrients. The cisterna chyli is a dilated pouch at the lower end of the thoracic duct that serves as a collection point for fatty chyle from the intestinal lacteals.
Which of the following is the proper unit of measurement for blood pressure?
Which of the following is the proper unit of measurement for blood pressure?
Tap to see back →
The proper unit when recording a patient's blood pressure is mmHg, or millimeter of mercury. This is derived from a historical measurement of how many millimeters of mercury in a mercury manometer were able to be elevated by a particular pressure. Due to it's toxicity, are longer used in medical equipment, though the 
unit remains in use.
The proper unit when recording a patient's blood pressure is mmHg, or millimeter of mercury. This is derived from a historical measurement of how many millimeters of mercury in a mercury manometer were able to be elevated by a particular pressure. Due to it's toxicity, are longer used in medical equipment, though the
A patient has a 49 year history of hypertension. Which part of the heart would be most enlarged on echocardiogram?
A patient has a 49 year history of hypertension. Which part of the heart would be most enlarged on echocardiogram?
Tap to see back →
The left ventricle is the most commonly enlarged heart structure seen in chronic hypertension. The left ventricle must overcome the afterload of the arterial system by becoming hypertrophied. As a result, the heart gets remodeled to overcome the systemic high blood pressures. The left ventricle directly pumps blood from the heart to the systemic circuit.
The left ventricle is the most commonly enlarged heart structure seen in chronic hypertension. The left ventricle must overcome the afterload of the arterial system by becoming hypertrophied. As a result, the heart gets remodeled to overcome the systemic high blood pressures. The left ventricle directly pumps blood from the heart to the systemic circuit.
When drawing blood, the client tells the nurse that she is a universal recipient. The nurse knows this to mean that the patient has which type of blood?
When drawing blood, the client tells the nurse that she is a universal recipient. The nurse knows this to mean that the patient has which type of blood?
Tap to see back →
AB positive is a universal recipient, meaning a patient with AB positive type blood can receive a blood transfusion using any type of blood.
AB positive is a universal recipient, meaning a patient with AB positive type blood can receive a blood transfusion using any type of blood.
What is the average lifespan of an erythrocyte?
What is the average lifespan of an erythrocyte?
Tap to see back →
The average lifespan of a red blood cell is 4 months, after which it is phagocytosed by macrophages the spleen, liver, or lymph nodes. White blood cells, on the other hand, live for only about 3-4 days.
The average lifespan of a red blood cell is 4 months, after which it is phagocytosed by macrophages the spleen, liver, or lymph nodes. White blood cells, on the other hand, live for only about 3-4 days.
What hormone stimulates the casting of new red blood cells?
What hormone stimulates the casting of new red blood cells?
Tap to see back →
The casting of new red blood cells is stimulated by the hormone erythropoietin (EPO), released from the kidneys. Recall that all blood cells are made in the bone marrow. This hormone may increase as much as 1000 fold in times of oxidative stress.
Thyroxine is T4, the most biologically active form of thyroid hormone. Vasopressin, or anti-diuretic hormone, is part of the body's fluid-balance system. Luteinizng hormone is a hormone of the reproductive tract: in females it triggers ovulation, while in males it stimulates Leydig cells to produce testosterone.
The casting of new red blood cells is stimulated by the hormone erythropoietin (EPO), released from the kidneys. Recall that all blood cells are made in the bone marrow. This hormone may increase as much as 1000 fold in times of oxidative stress.
Thyroxine is T4, the most biologically active form of thyroid hormone. Vasopressin, or anti-diuretic hormone, is part of the body's fluid-balance system. Luteinizng hormone is a hormone of the reproductive tract: in females it triggers ovulation, while in males it stimulates Leydig cells to produce testosterone.
Where is erythropoietin produced?
Where is erythropoietin produced?
Tap to see back →
Erythropoietin is produced by the peritubular interstitial cells of the kidney. These cells are very sensitive to tissue oxygen pressure. When oxygen demand increases, erythropoietin is released, stimulating the casting (hematopoiesis) of new red blood cells in bone marrow.
Supraoptic and paraventricular cells of the hypothalamus are the site of vasopressin (antidiuretic hormone) production. Lactotroph cells in the pituitary gland are responsible for the production of prolactin. Zona fasciculata cells of the adrenal glands produce cortisol.
Erythropoietin is produced by the peritubular interstitial cells of the kidney. These cells are very sensitive to tissue oxygen pressure. When oxygen demand increases, erythropoietin is released, stimulating the casting (hematopoiesis) of new red blood cells in bone marrow.
Supraoptic and paraventricular cells of the hypothalamus are the site of vasopressin (antidiuretic hormone) production. Lactotroph cells in the pituitary gland are responsible for the production of prolactin. Zona fasciculata cells of the adrenal glands produce cortisol.
Every heme group in hemoglobin encloses an atom of what element?
Every heme group in hemoglobin encloses an atom of what element?
Tap to see back →
Each heme group in hemoglobin encloses a single iron atom in the center of a protoporphyrin, a tetrapyrrol composed of four pyrrole rings linked together by four methyl groups, two vinyl groups, a methane bridge, and two propinoic acid side chains.
Each heme group in hemoglobin encloses a single iron atom in the center of a protoporphyrin, a tetrapyrrol composed of four pyrrole rings linked together by four methyl groups, two vinyl groups, a methane bridge, and two propinoic acid side chains.
Neutrophils make up what percent of white blood cells in the blood?
Neutrophils make up what percent of white blood cells in the blood?
Tap to see back →
Neutrophils are the most common type of white blood cell, making up 55-70% of the total white blood cell population in the average blood sample.
Neutrophils are the most common type of white blood cell, making up 55-70% of the total white blood cell population in the average blood sample.
Eosinophils make up what percent of the average white blood cell count?
Eosinophils make up what percent of the average white blood cell count?
Tap to see back →
Eosinophils are the leukocytes that are largely responsible for response to parasitic infections and allergies. They make up 1-3% of the average white blood cell count. They form the second smallest population of white blood cells, after basophils, which normally make up less than 1% of white blood cells in whole blood.
Eosinophils are the leukocytes that are largely responsible for response to parasitic infections and allergies. They make up 1-3% of the average white blood cell count. They form the second smallest population of white blood cells, after basophils, which normally make up less than 1% of white blood cells in whole blood.
Lymphocytes (natural killer cells, T helper cells, and B cells) make up what percentage of white blood cells?
Lymphocytes (natural killer cells, T helper cells, and B cells) make up what percentage of white blood cells?
Tap to see back →
Lymphocytes are the second most common class of white blood cells, making up 26-33% of white blood cells.
Lymphocytes are the second most common class of white blood cells, making up 26-33% of white blood cells.