出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2017/03/10 11:53:28」(JST)
Radiocontrast agents are per definition of drugs, but lack therapeutic effects.Contrast medium is used to enhance the visibility of internal structures in X-ray-based imaging techniques such as computed tomography (CT), radiography,and fluoroscopy. Radiocontrast agents are typically iodine or barium compounds.
Magnetic resonance imaging (MRI) functions through different principles and thus utilizes different contrast agents. These compounds work by altering the magnetic properties of nearby hydrogen nuclei.
Radiocontrast agents used in X-ray examinations can be grouped based on its use.
Iodine-based contrast media are usually classified as ionic or non-ionic. Both types are used most commonly in radiology due to their relatively harmless interaction with the body and its solubility. Contrast media are primarily used to visualize vessels and changes in tissues on radiography and CT. Contrast media can also be used for tests of the urinary tract, uterus and fallopian tubes. It may cause the patient to feel as if he or she has urinated on him- or herself. It also puts a metallic taste in the mouth of the patient.
Modern intravenous contrast agents are typically based on iodine. This may be bound either in an organic (non-ionic) compound or an ionic compound. Ionic agents were developed first and are still in widespread use depending on the requirements, but may result in additional complications. Organic agents which covalently bind the iodine have fewer side effects as they do not dissociate into component molecules. Many of the side effects are due to the hyperosmolar solution being injected. i.e. they deliver more iodine atoms per molecule. The more iodine, the more "dense" the X-ray effect.
Organic iodine molecules used for contrast include iohexol, iodixanol and ioversol. Iodine-based contrast media are water-soluble. These contrast agents are sold as clear, colorless water solutions, with the concentration usually expressed as mg I/ml. Modern iodinated contrast agents can be used almost anywhere in the body. Most often they are used intravenously, but for various purposes they can also be used intraarterially, intrathecally (as in diskography of the spine) and intraabdominally – just about any body cavity or potential space.
Iodine contrast agents are used for the following:
Ionic contrast media typically, but not always, have higher osmolality and more side-effects.[citation needed]
Compound | Name | Type | Iodine content | Osmolality | |
---|---|---|---|---|---|
Ionic | diatrizoate (Hypaque 50) | Monomer | 300 mgI/ml | 1550 | High |
Ionic | metrizoate (Isopaque 370) | Monomer | 370 mgI/ml | 2100 | High |
Ionic | iothalamate (Conray) | 600-2400 | High | ||
Ionic | ioxaglate (Hexabrix) | Dimer | 320 mgI/ml | 580 | Low |
Non-ionic contrast media have lower osmolality and tend to have fewer side-effects.[citation needed]
Compound | Name | Type | Iodine content | Osmolality | |
---|---|---|---|---|---|
Non-ionic | iopamidol (Isovue 370) | Monomer | 370 mgI/ml | 796 | Low |
Non-ionic | iohexol (Omnipaque 350) | Monomer | 350 mgI/ml | 884 | Low |
Non-ionic | ioxilan (Oxilan 350) | Monomer | 350 mgI/ml | 695 | Low |
Non-ionic | iopromide (Ultravist 370) | Monomer | 370 mgI/ml | 774 | Low |
Non-ionic | iodixanol (Visipaque 320) | Dimer | 320 mgI/ml | 290 | Low |
Non-ionic | ioversol |
Barium sulfate is mainly used in the imaging of the digestive system. The substance exists as a water-insoluble white powder that is made into a slurry with water and administered directly into the gastrointestinal tract.
Barium sulfate, an insoluble white powder is typically used for enhancing contrast in the GI tract. Depending on how it is to be administered the compound is mixed with water, thickeners, de-clumping agents, and flavourings to make the contrast agent. As the barium sulfate doesn't dissolve, this type of contrast agent is an opaque white mixture. It is only used in the digestive tract; it is usually swallowed or administered as an enema. After the examination, it leaves the body with the feces.
As in the picture on the right where both air and barium are used together (hence the term "double-contrast" barium enema) air can be used as a contrast material because it is less radio-opaque than the tissues it is defining. In the picture it highlights the interior of the colon. An example of a technique using purely air for the contrast medium is an air arthrogram where the injection of air into a joint cavity allows the cartilage covering the ends of the bones to be visualized.
Before the advent of modern neuroimaging techniques, air or other gases were used as contrast agents employed to displace the cerebrospinal fluid in the brain while performing a pneumoencephalography. Sometimes called an "air study", this once common yet highly-unpleasant procedure was used to enhance the outline of structures in the brain, looking for shape distortions caused by the presence of lesions.
Carbon dioxide also has a role in angiography. It is low-risk as it is a natural product with no risk of allergic potential. However, it can be used only below the diaphragm as there is a risk of embolism in neurovascular procedures. It must be used carefully to avoid contamination with room air when injected. It is a negative contrast agent in that it displaces blood when injected intravascularly.
An older type of contrast agent, Thorotrast was based on thorium dioxide. While it provided excellent image enhancement, its use was abandoned since it turned out to be highly carcinogenic, unfortunately though not before having been administered to millions of patients prior to being disused.
Modern iodinated contrast agents - especially non-ionic compounds - are generally well tolerated.[1] The adverse effects of radiocontrast can be subdivided into type A reactions (e.g. thyreotoxicosis), and type B reactions (hypersensitivity reactions: allergy and non-allergy reactions [formerly called 'anaphylactoid reactions']).[2]
Anaphylactoid reactions occur rarely,[3][4][5] but can occur in response to injected as well as oral and rectal contrast and even retrograde pyelography. They are similar in presentation to anaphylactic reactions, but are not caused by an IgE-mediated immune response. Patients with a history of contrast reactions, however, are at increased risk of anaphylactoid reactions.[6][7] Pretreatment with corticosteroids has been shown to decrease the incidence of adverse reactions.[8][9]
Anaphylactoid reactions range from urticaria and itching, to bronchospasm and facial and laryngeal edema. For simple cases of urticaria and itching, an oral or intravenous antihistamine such as diphenhydramine is appropriate. For more severe reactions, including bronchospasm and facial or neck edema, albuterol inhaler, or subcutaneous or IV epinephrine, plus diphenhydramine may be needed. If respiration is compromised, an airway must be established prior to medical management.
Anaphylaxis to ionic (high osmolar) contrast agent injections occurred in two clusters of reactions on two occasions (1983 and 1987) in a single radiology clinic in London, Ontario. On each occasion, these anaphylactic reactions were associated with contamination of the injection by natural rubber components (disposable plastic syringes in the first case and rubber ampoule seals in the second case). The allergenic-toxic rubber leachate was MBT (mercaptobenzothiazole). This is a known allergen that becomes bound to plasma proteins, creating a hapten-protein complex – a signature mechanism in true IgE drug allergy and true anaphylactic reactions (not "anaphylactoid" reactions).
A Japanese syringe manufacturer, Terumo, implicated in syringe-related toxic laboratory cell culture effects in Australia in 1981, was instrumental in pro-actively making Japanese disposable syringes and ampoule seals free of natural rubber. Katayama's 1990 article in Radiology showed that a new type of nonionic (low osmolar) contrast agent was associated with significantly fewer severe life-threatening reactions than the older ionic (high osmolar) contrast agents.[10] By merchandizing the Katayama series reprints, manufacturers persuaded users worldwide to switch to the almost exclusive use of the expensive nonionic agents.
What was unknown to the Katayama researchers was that the ampoule seals of the "safer" nonionic contrast agents were made from artificial rubber, whereas the ionic agents were sealed with natural rubber. In 1987, it was the leaching of allergenic MBT from the rubber seals of ionic ampoules that caused a series of allergic reactions (including anaphylaxis) in a radiology office in Canada.[11] The worldwide hazard of MBT contamination of injections was unknown then and, as the World Health Organization reported it remains as an unknown hazard still – after three decades.[12]
The most significant study, proving that injections of ionic (high osmolar) agents are at least as safe as the newer, very expensive nonionics was published in Radiology in 1997.[13] Lasser did not comment that the marked drop in the incidence of severe reactions with ionic agents was related to the removal of natural rubber contamination from ionic ampoule seals.
The term "iodine allergy" should be omitted because this kind of allergy does not exist.[14] Seafood "allergy" is no contraindication for the use of iodinated contrast materials, because in seafood allergy the immune system is directed against the muscle protein tropomyosin. While iodine levels in seafood are higher than in non-seafood items, the consumption of the latter exceeds that of the former by far and there is no evidence that the iodine content of seafood is related to reactions to seafood.[15] Available data suggest that seafood allergy increases the risk of a contrast-mediated reaction by approximately the same amount as allergies to fruits or those with asthma.[16] In other words, over 85% of patients with seafood allergies will not have an adverse reaction to iodinated contrast.[15] Finally, there is no evidence that adverse skin reactions to iodine-containing topical antiseptics (e.g., povidone-iodine) are of any specific relevance to administration of I.V. contrast material.[15][17]
Contrast-induced nephropathy is defined as either a greater than 25% increase of serum creatinine or an absolute increase in serum creatinine of 0.5 mg/dL.[18]
A 2012 paper in the Journal of the American Medical Association reports that "Iodinated contrast media exposure is associated with subsequent development of incident hyperthyroidism and incident overt hypothyroidism."[19][20]
It has been recommended that metformin, an oral antidiabetic agent, be stopped for 48 hours following the intravascular administration of contrast media and that the use of metformin not be resumed until renal function has been shown to be normal. The reasoning is that if the contrast medium causes kidney failure (as happens rarely) and the person continues to take metformin (which is normally excreted by the kidneys), there may be a toxic accumulation of metformin, increasing the risk of lactic acidosis, a dangerous complication.[21]
However, guidelines published by the American College of Radiologists suggest this is not as important for patients who have normal renal function and no evidence of acute kidney injury. If renal impairment is found before administration of the contrast, metformin should be withheld for 48 hours following the procedure and until renal function has returned to normal.[22]
Previously, beta blockers have been assumed as risk factor for the acquisition of contrast medium-induced adverse reactions/hypersensitivity reactions. Due to recent investigations it became clear that beta blockers do not have the ability to increase the frequency of adverse reactions in concert with radiocontrast agents.[23]
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リンク元 | 「contrast agent」「contrast medium」「contrast material」 |
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