cardiac$11400$ - translation to ελληνικό
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cardiac$11400$ - translation to ελληνικό

TERM USED IN CARDIAC PHYSIOLOGY THAT DESCRIBES THE VOLUME OF BLOOD BEING PUMPED BY THE HEART, IN PARTICULAR BY THE LEFT OR RIGHT VENTRICLE, PER UNIT TIME
Cardiac Output; Cardiac output, low; Cardiac output, high; Cardiac input; Combined cardiac output; Cardiac volume; High cardiac output; Low cardiac output
  • 330x330px
  • alt=Hierarchical summary of major factors influencing cardiac output.
  • Electrode array that measures Thoracic electrical bioimpedance (TEB)
  • Frank–Starling's law]], illustrating stroke volume (SV) as a function of preload
  • Diagram of Pulmonary artery catheter (PAC)
  • An illustration of how spirometry is done
  • A transoesophageal echocardiogram probe.
  • Doppler signal in the left ventricular outflow tract: Velocity Time Integral (VTI)

cardiac      
adj. καρδιακός
heart failure         
  • horizontal fissure]]. Yet, no obvious lung edema is seen. Overall, this indicates intermediate severity (stage II) heart failure.
  • Severe peripheral pitting edema
  • Signs and symptoms of severe heart failure
  • Siderophages (one indicated by white arrow) and pulmonary congestion, indicating left [[congestive heart failure]]
  • [[Kerley B lines]] in [[radiograph]] of acute cardiac decompensation. The short, horizontal lines can be found everywhere in the [[right lung]].
  • Model of a normal heart (left); and a weakened heart, with over-stretched muscle and dilation of [[left ventricle]] (right); both during [[diastole]]
FAILURE OF THE HEART TO PROVIDE SUFFICIENT BLOOD FLOW
Heart Failure; Cardiac failure; Congestive Heart Failure; Congestive heart disease; Congestive cardiac failure; Chronic heart failure; Left ventricular failure; Heart failure, congestive; Coronary Heart Failure; Congested heart failure; Cardiac insufficiency; Congestive heart failure; Right heart failure; LSHF; Systolic dysfunction; Left ventricular dysfunction; Left heart failure; Right-sided heart failure; Left-sided heart failure; Cardiac dysfunction; Heart strain; Right ventricular failure; ESC algorithm; ESC criteria; Cardiac congestion; Biventricular failure; Biventricular heart failure; Congestive heart failure (CHF); Class IV heart defect; Ventricular failure; Right sided heart failure; HFPeF; HFReF; Acute heart failure; Heart failure classification; Algorithms for diagnosis of heart failure; Causes of heart failure; Prevention of heart failure; Systolic heart failure; Heart failure with reduced ejection fraction; Decompensatio cordis; User:NikosGouliaros/sandbox Heart Failure
συγκοπή
heart disease         
  • 50px
  • Calcified heart of an older woman with cardiomegaly
  •  bibcode = 2013NatMa..12..576B }}</ref>
  • 5,272–10233}}{{refend}}
  • >7900}}
{{refend}}
  • More than 770}}
{{refend}}
CLASS OF DISEASES THAT INVOLVE THE HEART OR BLOOD VESSELS
Heart disease; Heart condition; Circulatory disease; Heart Disease; Cardio-vascular disease; Heart diesase; Cardiovascular diseases; Heart Diseases; Heart diseases; Cardiovascular disorders; Obstructive arterial disease; Cardiac disease; Cardiac Disease; Diet and heart disease; Diet and Heart Disease; Heart Disease, History; Cardiovascular Disease; Heart Condition; Heart disease and diet; Inflammatory heart disease; Heart problems; Heart problem; Cardiovascular risk; Cardiopathy; Cardiovascular events; Rare heart disease; Cardiac disorder; Cardio vascular disorder; Cardiac condition; Left main disease; Cardiovascular health; Cardiovascular conditions; Disorders of the Circulatory System; Cardio-vascular diseases; Cardiovascular disorder; Phosphorus and non-atherosclerotic heart disease; Draft:Phosphorus and non-atherosclerotic heart disease; Cardiovascular Disease Risk Factors and Prevention; Heart ailment; Vascular death; Cardiovascular dysfunction; Risk factors for cardiovascular disease; Risk factors for heart disease; Prevention of heart disease; Causes of cardiovascular disease; Causes of heart disease; Cardiovascular event; Cardiovascular morbidity; Prevention of cardiovascular disease; Treatment of heart disease; Epidemiology of cardiovascular disease; Cardiac mortality; Cardiovascular abnormalities; Circulatory disturbance; Cardiovascular effects of air pollution; Morbus Cordis; Socioeconomic status and cardiovascular disease; Genetic risk factors for cardiovascular disease; Heart complication; Heart complications; Cardiac event; Cardiac events; Heart event; Heart events; Heart disorder; Cardiac disorders; Cardiac complications; Cardiac complication; Cardiovascular complication; Cardiovascular complications; Cardiovascular problem; Cardiovascular problems; Cardiovascular issue; Cardiovascular issues; Cardiovascular condition; Mental health and cardiovascular disease; Depression and cardiovascular disease; Sleep and cardiovascular disease; Air pollution and cardiovascular disease; Genetics of cardiovascular disease; Genetics of heart disease; Diet and cardiovascular disease; Sex differences in cardiovascular disease; Dietary risk factors for cardiovascular disease
καρδιακό νόσημα

Ορισμός

cardiac arrest
(cardiac arrests)
A cardiac arrest is a heart attack. (MEDICAL)
= heart attack
N-VAR

Βικιπαίδεια

Cardiac output

In cardiac physiology, cardiac output (CO), also known as heart output and often denoted by the symbols Q {\displaystyle Q} , Q ˙ {\displaystyle {\dot {Q}}} , or Q ˙ c {\displaystyle {\dot {Q}}_{c}} , is the volumetric flow rate of the heart's pumping output: that is, the volume of blood being pumped by a single ventricle of the heart, per unit time (usually measured per minute). Cardiac output (CO) is the product of the heart rate (HR), i.e. the number of heartbeats per minute (bpm), and the stroke volume (SV), which is the volume of blood pumped from the left ventricle per beat; thus giving the formula:

C O = H R × S V {\displaystyle CO=HR\times SV}

Values for cardiac output are usually denoted as L/min. For a healthy individual weighing 70 kg, the cardiac output at rest averages about 5 L/min; assuming a heart rate of 70 beats/min, the stroke volume would be approximately 70 mL.

Because cardiac output is related to the quantity of blood delivered to various parts of the body, it is an important component of how efficiently the heart can meet the body's demands for the maintenance of adequate tissue perfusion. Body tissues require continuous oxygen delivery which requires the sustained transport of oxygen to the tissues by systemic circulation of oxygenated blood at an adequate pressure from the left ventricle of the heart via the aorta and arteries. Oxygen delivery (DO2 mL/min) is the resultant of blood flow (cardiac output CO) times the blood oxygen content (CaO2). Mathematically this is calculated as follows: oxygen delivery = cardiac output × arterial oxygen content, giving the formula:

D O 2 = C O × C a O 2 {\displaystyle D_{O2}=CO\times C_{a}O2}

With a resting cardiac output of 5 L/min, a 'normal' oxygen delivery is around 1 L/min. The amount/percentage of the circulated oxygen consumed (VO2) per minute through metabolism varies depending on the activity level but at rest is circa 25% of the DO2. Physical exercise requires a higher than resting-level of oxygen consumption to support increased muscle activity. In the case of heart failure, actual CO may be insufficient to support even simple activities of daily living; nor can it increase sufficiently to meet the higher metabolic demands stemming from even moderate exercise.

Cardiac output is a global blood flow parameter of interest in hemodynamics, the study of the flow of blood. The factors affecting stroke volume and heart rate also affect cardiac output. The figure at the right margin illustrates this dependency and lists some of these factors. A detailed hierarchical illustration is provided in a subsequent figure.

There are many methods of measuring CO, both invasively and non-invasively; each has advantages and drawbacks as described below.