Medical Terminology
... – Blood pressure- the force is at its highest when the ventricles contract, forcing blood out of the heart and into the arteries. Then there is a drop in pressure as the ventricles refill with blood for the next heartbeat Measured with a device called sphygmomanometer ...
... – Blood pressure- the force is at its highest when the ventricles contract, forcing blood out of the heart and into the arteries. Then there is a drop in pressure as the ventricles refill with blood for the next heartbeat Measured with a device called sphygmomanometer ...
File
... – Teeny, tiny blood vessels that connect to arteries and veins – Nutrients and gas can pass through the capillaries from the blood to the cells that need them ...
... – Teeny, tiny blood vessels that connect to arteries and veins – Nutrients and gas can pass through the capillaries from the blood to the cells that need them ...
Circulatory system
... – Second number (lower number ALWAYS) is the lowest arterial pressure while the ventricles are relaxing (DIASTOLIC) ...
... – Second number (lower number ALWAYS) is the lowest arterial pressure while the ventricles are relaxing (DIASTOLIC) ...
A and P lesson 7 - Calthorpe Park Moodle
... (do not worry about your actual reading – several factors can affect blood pressure readings) What is happening to the heart during the systolic (higher top reading) and diastolic (lower bottom reading) ...
... (do not worry about your actual reading – several factors can affect blood pressure readings) What is happening to the heart during the systolic (higher top reading) and diastolic (lower bottom reading) ...
Chapter 37 Circulatory System Respiratory System
... enclosed in protective tissue called pericardium Contractions pump blood through the C. S. average 72 times/min The heart has its own blood supply through the coronary arteries bark scorpion venom Heart is divided in the middle by the septum ...
... enclosed in protective tissue called pericardium Contractions pump blood through the C. S. average 72 times/min The heart has its own blood supply through the coronary arteries bark scorpion venom Heart is divided in the middle by the septum ...
Circulatory System
... • Coronary (KOR uh ner ee) circulation, is the flow of blood to and from the tissue of the heart. • When the coronary circulation is blocked, oxygen and nutrients cannot reach all the cells of the heart. This can result in a heart attack. ...
... • Coronary (KOR uh ner ee) circulation, is the flow of blood to and from the tissue of the heart. • When the coronary circulation is blocked, oxygen and nutrients cannot reach all the cells of the heart. This can result in a heart attack. ...
The Very Basic`s of Pacing
... Intermittent episodes of slow and fast rates from the SA node or atria ...
... Intermittent episodes of slow and fast rates from the SA node or atria ...
PDF - Revista Colombiana de Anestesiología
... of when to terminate resuscitation becomes more difficult because the rhythm diagnosis is confusing and the patients alternate from one rhythm to another.22,23 Rating scales have been designed for this purpose, in order to define do-notresuscitate codes and others to determine the neurological progn ...
... of when to terminate resuscitation becomes more difficult because the rhythm diagnosis is confusing and the patients alternate from one rhythm to another.22,23 Rating scales have been designed for this purpose, in order to define do-notresuscitate codes and others to determine the neurological progn ...
monitoring with instrumentation
... Respiratory rate should be 8 – 20 breaths /min for the average patient (avg = 10-12 bpm). Small patient may need more breaths. You can ventilate the patient by closing the pop – off valve, squeezing the bag to inflate the lungs. NEVER SQUEEZE THE BAG ...
... Respiratory rate should be 8 – 20 breaths /min for the average patient (avg = 10-12 bpm). Small patient may need more breaths. You can ventilate the patient by closing the pop – off valve, squeezing the bag to inflate the lungs. NEVER SQUEEZE THE BAG ...
Perioperative Management of Geriatric Patients with End
... associated with significant hemodynamic deterioration, uremia secondary to renal insufficiency, and prior anticoagulant and antiplatelet therapy. If a major surgical procedure is planned, the anesthesiologist should plan for large-bore intravenous or central venous access and a transfusion system su ...
... associated with significant hemodynamic deterioration, uremia secondary to renal insufficiency, and prior anticoagulant and antiplatelet therapy. If a major surgical procedure is planned, the anesthesiologist should plan for large-bore intravenous or central venous access and a transfusion system su ...
Arrhythmias: Hyperfunction
... up there doc reviews ecko, while nurses are hooking me up with ivs, dr comes in and says may have major heart damage but will wait until cath on monday. monday comes have cath a surgeon comes in with cardiolisgist telling us i have over half my heart damaged may need transplant, cardioligist says th ...
... up there doc reviews ecko, while nurses are hooking me up with ivs, dr comes in and says may have major heart damage but will wait until cath on monday. monday comes have cath a surgeon comes in with cardiolisgist telling us i have over half my heart damaged may need transplant, cardioligist says th ...
please print clearly
... of attendance will be given at the conclusion of the day. Participants are encouraged to submit this conference content to their licensing/certification board for contact hours. ...
... of attendance will be given at the conclusion of the day. Participants are encouraged to submit this conference content to their licensing/certification board for contact hours. ...
LO2 – Ionic currents that generate cardiac action potentials
... LO1. Contrast the typical action potential in a ventricular muscle and a pacemaker cell. LO2. Explain how ionic currents contribute to the five phases of the cardiac action potential. Apply this information to explain differences in shapes of the action potentials of different cardiac cells. LO3. Ex ...
... LO1. Contrast the typical action potential in a ventricular muscle and a pacemaker cell. LO2. Explain how ionic currents contribute to the five phases of the cardiac action potential. Apply this information to explain differences in shapes of the action potentials of different cardiac cells. LO3. Ex ...
AP Biology CardioVascular System Study Guide
... 1. Describe the shape and location of the human heart. 2. What are the functions of the chamber walls, the valves and the large vessels of the heart? 3. Describe the location of the atria and ventricles of the heart. 4. Explain the function of the interatrial and the interventricular septa. 5. What ...
... 1. Describe the shape and location of the human heart. 2. What are the functions of the chamber walls, the valves and the large vessels of the heart? 3. Describe the location of the atria and ventricles of the heart. 4. Explain the function of the interatrial and the interventricular septa. 5. What ...
Slide 1
... • Pressure is released slowly and the examiner listens with a stethoscope • The first sound heard is recorded as the systolic pressure • The pressure when sound disappears is recorded as the diastolic pressure • What causes the sounds? ...
... • Pressure is released slowly and the examiner listens with a stethoscope • The first sound heard is recorded as the systolic pressure • The pressure when sound disappears is recorded as the diastolic pressure • What causes the sounds? ...
Instrumentation Quality Control
... The air kerma accumulated at a specific point in space relative to the fluoroscopic gantry (the interventional reference point) during a procedure. CD does not include tissue backscatter and is measured in Gy. CD is sometimes referred to as cumulative air kerma. J Vasc Interv Radiol 2004; 15:423–429 ...
... The air kerma accumulated at a specific point in space relative to the fluoroscopic gantry (the interventional reference point) during a procedure. CD does not include tissue backscatter and is measured in Gy. CD is sometimes referred to as cumulative air kerma. J Vasc Interv Radiol 2004; 15:423–429 ...
full release - University Hospitals Newsroom
... more than 40 outpatient health centers and 200 physician offices in 15 counties throughout northern Ohio. The system’s flagship academic medical center, University Hospitals Cleveland Medical Center, located on a 35-acre campus in Cleveland’s University Circle, is affiliated with Case Western Reserv ...
... more than 40 outpatient health centers and 200 physician offices in 15 counties throughout northern Ohio. The system’s flagship academic medical center, University Hospitals Cleveland Medical Center, located on a 35-acre campus in Cleveland’s University Circle, is affiliated with Case Western Reserv ...
circandresp
... The heart is broken into four chambers - each top chamber is called an atrium, "the holding chamber" while the bottom chambers are called ventricles, "the pumping chamber". Hence, each side of the heart has its own system - a right heart and a left heart. Each side consist of an atrium and a ventric ...
... The heart is broken into four chambers - each top chamber is called an atrium, "the holding chamber" while the bottom chambers are called ventricles, "the pumping chamber". Hence, each side of the heart has its own system - a right heart and a left heart. Each side consist of an atrium and a ventric ...
Syncope
... 3) afterload (systemic vascular resistance) (the pipes). Children are particularly dependent upon adequate intravascular volume, and when volume depleted, they peripherally vasoconstrict to maintain stroke volume. The myocardium in infants is "stiff" and plays little role in increasing cardiac outpu ...
... 3) afterload (systemic vascular resistance) (the pipes). Children are particularly dependent upon adequate intravascular volume, and when volume depleted, they peripherally vasoconstrict to maintain stroke volume. The myocardium in infants is "stiff" and plays little role in increasing cardiac outpu ...
Amphibians
... Double-loop in amphibians allows more oxygen to travel to tissues: heart lungs heart body This is possible because of the pulmonary veins, which carry oxygen rich blood from the lungs to the heart The amphibian heart is 3-chambered: Right & left atrium – separated by the septum One ventricle – ...
... Double-loop in amphibians allows more oxygen to travel to tissues: heart lungs heart body This is possible because of the pulmonary veins, which carry oxygen rich blood from the lungs to the heart The amphibian heart is 3-chambered: Right & left atrium – separated by the septum One ventricle – ...
Presentation Support Materials (Online Handouts)
... b. Repaired functionally two-ventricle congenital heart disease c. Repaired tetralogy of Fallot and tetralogy-like variants d. Transposition of the great arteries following atrial-level (Mustard or Senning) palliation e. Fontan palliation of functionally univentricular heart f. ...
... b. Repaired functionally two-ventricle congenital heart disease c. Repaired tetralogy of Fallot and tetralogy-like variants d. Transposition of the great arteries following atrial-level (Mustard or Senning) palliation e. Fontan palliation of functionally univentricular heart f. ...
58. Regulation of Cardiac Output
... 75. Coronary Artery Disease (CAD) Coronary Circulation Endothelium impermeable Myocardium too thick for diffusion Receives blood during diastole Blood flow adjusted to match heart’s requirements CAD Pathology in coronary arteries Insufficient flow in times of need ...
... 75. Coronary Artery Disease (CAD) Coronary Circulation Endothelium impermeable Myocardium too thick for diffusion Receives blood during diastole Blood flow adjusted to match heart’s requirements CAD Pathology in coronary arteries Insufficient flow in times of need ...
here - HKU
... ventricle • Atrial pressure is higher than ventricular, so AV valves open • Blood flows from the atria into the ventricles • Blood flow pushes the valve leaflets flat against the ventricular walls so they do not impede the flow • Ventricles fill with blood (ready for the next contraction) 3. Atria A ...
... ventricle • Atrial pressure is higher than ventricular, so AV valves open • Blood flows from the atria into the ventricles • Blood flow pushes the valve leaflets flat against the ventricular walls so they do not impede the flow • Ventricles fill with blood (ready for the next contraction) 3. Atria A ...