Parenteral route intramuscular

Iron salts occasionally cause gastrointestinal irritation, nausea, vomiting, constipation, diarrhea, headache, backache, and allergic reactions. The stools usually appear darker (black). Iron dextran is given by the parenteral route Hypersensitivity reactions, including fatal anaphylactic reactions, have been reported with the use of this form of iron. Additional adverse reactions include soreness, inflammation, and sterile abscesses at the intramuscular (IM) injection site Intravenous (IV) administration may result in phlebitis at the injection site When iron is administered via the IM route, a brownish discoloration of tlie skin may occur. Fhtients with rheumatoid arthritis may experience an acute exacerbation of joint pain, and swelling may occur when iron dextran is administered. 

The chapter covers end points in the same order they appear within the Discussion of Health Effects by Route of Exposure section, by route (inhalation, oral, dermal) and within route by effect. Human data are presented first, then animal data. Both are organized by duration (acute, intermediate, chronic). In vitro data and data from parenteral routes (intramuscular, intravenous, subcutaneous, etc.) are also considered in this chapter. If data are located in the scientific literature, a table of genotoxicity information is included. 

Parenteral administration of drugs by intravenous (IV), intramuscular (IM), or subcutaneous (SC) routes is now an established and essential part of medical practice. Advantages for parenterally administered drugs include the following rapid onset, predictable effect, predictable and nearly complete bioavailability, and avoidance of the gastrointestinal (GI) tract and, hence, the problems of variable absorption, drug inactivation, and GI distress. In addition, the parenteral route provides reliable drug administration in very ill or comatose patients. 

There are a number of special concerns about the safety of materials that are routinely injected (parenterally administered) into the body. By definition, these concerns are all associated with materials that are the products of the pharmaceutical and (in some minor cases) medical device industries. Such parenteral routes include three major ones IV (intravenous), IM (intramuscular), and SC (subcutaneous) and a number of minor routes (such as intra-arterial) that are not considered here. 

Bolus intravenous, intramuscular, or subcutaneous injections can be administered by a single person by securing the animal s arm through the cage bars (Mazue and Richez, 1982). For safety considerations, many investigators prefer to have the animal physically restrained by a second person before the injection is given. Arterial injections (via the femoral artery) as well as limited or continuous intravenous infusion (via catheterization of the femoral or jugular vein) are other less commonly used parenteral routes in the monkey. 

In endemic areas malaria should always be considered and, if possible, checked by blood film analysis otherwise empiric antimalarial treatment may be indicated (see section on malaria). Empiric treatment should further cover the spectrum of bacterial agents likely to cause septic infections in the particular patient. The potentially fatal course of septic disease requires an antibiotic regimen that is rapidly lethal for the causative agent, and preferably attains adequate levels at the site of infection quickly. Therefore, treatment regimens usually include a combination of two (sometimes three) antibiotics that are given by a parenteral route (intramuscularly or preferably by intravenous infusion). 

Calcitonin (Miacalcin, Miacalcin Nasal Spray) is a synthetic 32-amino acid polypeptide that is identical to salmon calcitonin. Salmon calcitonin is more potent than human calcitonin because of its higher affinity for the human calcitonin receptor and its slower metabolic clearance. Administration is by subcutaneous or intramuscular injection or by nasal spray. The absorption of the nasal form is slower than that of the parenteral routes. 

Some of the dosage formulations available for protein pharmaceuticals are listed in Table 5.7. An examination of Table 5.7 reveals that no protein drug up until this time has been formulated for oral administration. Most protein drugs are administered by means of injection (parenteral administration). Parenteral administration includes intravenous, intra-arterial, intracardiac, intraspinal or intrathecal, intramuscular, intrasynovial, intracuta-neous or intradermal, subcutaneous injections, and injection directly into a dermal lesion (e.g., a wart). The parenteral route of administration requires a much higher standard of purity and sterility than oral administration. It also may require trained... 

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