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Perfusion is the passage of fluid through the circulatory system or to an organ or a tissue,American Psychological Association (APA): perfusion. (n.d.). Dictionary.com Unabridged (v 1.1). Retrieved March 20, 2008, from Dictionary.com website: http://dictionary.reference.com/browse/perfusion usually referring to the delivery of to a bed in tissue. Perfusion may also refer to fixation via perfusion, used in histological studies. Perfusion is measured as the rate at which blood is delivered to tissue, or volume of blood per unit time (blood flow) per unit tissue mass. The is m3/(s·kg), although for human organs perfusion is typically reported in ml/min/g. The word is derived from the French verb perfuser, meaning to "pour over or through". All animal tissues require an adequate blood supply for and . Poor perfusion (malperfusion), that is, , causes health problems, as seen in cardiovascular disease, including coronary artery disease, cerebrovascular disease, peripheral artery disease, and many other conditions.

Tests verifying that adequate perfusion exists are a part of a patient's assessment process that are performed by or emergency personnel. The most common methods include evaluating a body's color, , condition (dry/soft/firm/swollen/sunken/etc), and .

During major surgery, especially cardiothoracic surgery, perfusion must be maintained and managed by the health professionals involved, rather than left to the body's alone. As the lead surgeons are often too busy to handle all control by themselves, specialists called manage this aspect. There are more than one hundred thousand perfusion procedures annually.

Discovery
In 1920, was awarded the Nobel Prize in Physiology or Medicine for his discovering the mechanism of regulation of in . Krogh was the first to describe the adaptation of blood perfusion in muscle and other organs according to demands through the opening and closing of and .

Malperfusion
Malperfusion can refer to any type of incorrect perfusion though it usually refers to hypoperfusion. The meaning of the terms "overperfusion" and "underperfusion" is relative to the average level of perfusion that exists across all the tissues in an individual body. Perfusion levels also differ from person to person depending on metabolic demand.

Examples follow:

  • tissues are considered overperfused because they normally are receiving more blood than the rest of tissues in the organism; they need this blood because they are constantly working.
  • In the case of skin cells, extra blood flow in them is used for of a body. In addition to delivering , blood flow helps to heat in a body by redirecting warm blood closer to its surface where it can help to cool a body through and thermal dissipation.
  • Many types of , and especially certain types, have been described as "hot and bloody" because of their overperfusion relative to the body overall.

Overperfusion and underperfusion should not be confused with hypoperfusion and hyperperfusion, which relate to the perfusion level relative to a tissue's current need to meet its metabolic needs. For example, hypoperfusion can be caused when an or that supplies blood to a volume of tissue becomes blocked by an , causing either no blood or at least not enough blood to reach the tissue. Hyperperfusion can be caused by , producing of a body part. Malperfusion, also called poor perfusion, is any type of incorrect perfusion. There is no official or formal dividing line between hypoperfusion and ; sometimes the latter term refers to zero perfusion, but often it refers to any hypoperfusion that is bad enough to cause .

Measurement
In equations, the symbol Q is sometimes used to represent perfusion when referring to . However, this terminology can be a source of confusion since both cardiac output and the symbol Q refer to flow (volume per unit time, for example, L/min), whereas perfusion is measured as flow per unit tissue mass (mL/(min·g)).

Microspheres
Microspheres that are labeled with radioactive isotopes have been widely used to measure perfusion since the 1960s. Radioactively labeled particles are injected into the test subject and a radiation detector measures radioactivity in tissues of interest.Studies of the Circulation with Radioactive Microspheres., Wagner et al, Invest. Radiol., 1969. 4(6): pp. 374–86. Microspheres are used in radionuclide angiography, a method of diagnosing heart problems.

In the 1990s, methods for using microspheres became a common substitute for radioactive particles.

Nuclear medicine
Perfusion of various tissues can be readily measured with nuclear medicine methods which are mainly positron emission tomography (PET) and single photon emission computed tomography (SPECT). Various radiopharmaceuticals targeted at specific organs are also available, some of the most common are:
  • 99mTc labelled and ECD for brain perfusion (rCBF) studied with SPECT
  • 99mTc labelled and Sestamibi for myocardial perfusion imaging with SPECT
  • 133Xe-gas for absolute quantification of brain perfusion (rCBF) with SPECT
  • 15O-labeled water for brain perfusion (rCBF) with PET (absolute quantification is possible when measuring arterial radioactivity concentration)
  • 82Rb-chloride for measuring myocardial perfusion with PET (absolute quantification is possible)

Magnetic resonance imaging
Two main categories of magnetic resonance imaging (MRI) techniques can be used to measure tissue perfusion .
  • The first is based on the use of an injected that changes the magnetic susceptibility of blood and thereby the MR signal which is repeatedly measured during bolus passage.Huettel, S. A.; Song, A. W.; McCarthy, G. (2009), Functional Magnetic Resonance Imaging (2 ed.), Massachusetts: Sinauer,
  • The other category is based on arterial spin labelling (ASL), where arterial blood is tagged before it enters into the tissue being examined and the amount of labelling that is measured and compared to a control recording obtained without spin labelling.

Computed tomography (CT)
Brain perfusion (more correctly transit times) can be estimated with contrast-enhanced computed tomography.L. Axel. "Cerebral blood flow determination by rapid-sequence computed-tomography: theoretical analysis". Radiology 137: 679–86, December 1980

Thermal diffusion
Perfusion can be determined by measuring the total thermal diffusion and then separating it into thermal conductivity and perfusion components. is usually measured continuously in time. It is necessary to stop the measurement periodically to cool down and reassess the thermal conductivity.

See also
  • — continuous external pressure impairs perfusion
  • Cerebral perfusion pressure

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