Product Code Database
Dihydrocodeine is a semi-synthetic opioid analgesic prescribed for pain or severe dyspnea, or as an antitussive, either alone or compounded with paracetamol (acetaminophen) (as in co-dydramol) or aspirin. It was developed in Germany in 1908 and first marketed in 1911.
Commonly available as tablets, solutions, elixirs, and other oral forms, dihydrocodeine is also available in some countries as an injectable solution for deep subcutaneous and intra-muscular administration. As with codeine, intravenous administration should be avoided, as it could result in anaphylaxis and life-threatening pulmonary edema. In the past, dihydrocodeine suppositories were used. Dihydrocodeine is available in suppository form on prescription. Dihydrocodeine is used as an alternative to codeine and similarly belongs to step 2 of the Pain ladder.
It was first described in 1911 and approved for medical use in 1948. Dihydrocodeine was developed during the search for more effective cough medication, especially to help reduce the spread of tuberculosis, pertussis, and pneumonia in the years from c.a. 1895 to 1915. It is similar in chemical structure to codeine.
For use against pain, dihydrocodeine is usually formulated as tablets or capsules containing 15–16 mg or 30–32 mg with or without other active ingredients such as aspirin, paracetamol (acetaminophen), ibuprofen, or others.
Controlled release dihydrocodeine is available for both pain and coughing, as indicated below, as waxy tablets containing 60 to 120 mg of the drug. Some formulations, intended for use against coughing and the like, have other active ingredients such as antihistamines, decongestants and others.
Other oral formulations, such as packets of effervescent powder, sublingual drops, elixirs and the like are also available in many locations.
Injectable dihydrocodeine is most often given as a deep subcutaneous injection. Dihydrocodeine appears to be superior to tramadol in treating pain.
Itching and flushing and other effects of blood vessel dilation are also common side-effects, due to histamine release in response to the drug using one or more types of receptors in the CNS or other responses elsewhere in the body. First-generation antihistamines such as tripelennamine (Pyrabenzamine), clemastine (Tavist), hydroxyzine (Atarax), diphenhydramine (Benadryl), cyproheptadine (Periactin), brompheniramine (Dimetapp), chlorphenamine (Chlor-Trimeton), doxylamine (NyQuil) and phenyltoloxamine (Percogesic Original Formula) not only combat the histamine-driven side-effects, but are analgesic-sparing (potentiating) in various degrees. The antihistamine promethazine (Phenergan) may also have a positive effect on hepatic metabolism of dihydrocodeine as it does with codeine. Higher doses of promethazine may interfere with most other opioids with the exception of the pethidine family (Demerol and the like) by this or other unknown mechanisms.
As with all drugs, side-effects depend on the person taking the medication. They can range in severity from mild to extreme, from headaches to difficulty breathing.
Constipation is the one side-effect of dihydrocodeine and almost all opioids which is near-universal. It results from the slowing of peristalsis in the gut and is a reason dihydrocodeine, ethylmorphine, codeine, opium preparations, and morphine are used to stop diarrhoea and combat irritable bowel syndrome (IBS) in its diarrhoeal and cyclical forms as well as other conditions causing hypermotility or intestinal cramping. Opium/opioid preparations are used often as a last resort where pain is severe and the bowels are organically loose. It is generally better to treat IBS with a non psycho-tropic opioid such as loperamide hydrochloride which stays contained in the bowel, thereby not causing drowsy effects and allowing many people to work using machines etc. For IBS, hyoscine butylbromide (Butylscopolamine in the UK) and Mebeverine (Colofac) can be effective with or without an opium related compound.
Dihydrocodeine (DHC) is O-demethylated into dihydromorphine (DHM) by CYP2D6 and N-demethylated into nordihydrocodeine (NDHC) by CYP3A4, summarily yielding nordihydromorphine (NDHM). Dihydrocodeine and its metabolites Glucuronidation. Due to the multidirectional metabolism, as opposed to tramadol and codeine, CYP2D6 activity probably does not influence DHC analgesia. The analgesia is likely achieved by the action of DHC itself, as well as DHC-6-G. DHC appears not to differ between Poor metaboliser and extensive metabolizers in terms of its pain threshold and pupillary reaction effect in spite of major variation in DHM blood levels.
DHC-6-G is half as potent as DHC. DHM and DHM-6-G display the highest affinity to μ-opioid receptors, being 70 times as potent as DHC, whereas other metabolites display lesser affinity. DHM-6-G has similar potency as DHM, while DHM-3-G is considerably weaker. Action on δ-opioid receptor is 5-50 weaker compared to μ with the exception of DHC-6-G being twice as strong as DHC. 6-glucuronides possess lesser affinity towards κ-opioid receptors, albeit the affinity of DHC is comparable to codeine, DHM and morphine.
The primary compounds responsible for analgesia are DHC and DHC-6-G. Although some of the metabolites are far more potent, the concentration of NDHM and NDHM-6-G in urine were minimal, suggesting no significant role in pain relief.
After oral absorption, the drug is absorbed relatively rapidly with mean peak concentration at 1.7 hours. The mean half-life is 4 hours. The mean bioavailability of orally administered drug is 21%. Metabolite concentrations are high in relation to the parent drug, suggesting extensive first-pass metabolism. Dihydrocodeine tablets may possess an extended-release mechanism, lowering peak concentrations and increasing duration of action.
International treaties and the controlled-substances laws of most countries, such as the German Betäubungsmittelgesetz, regulate dihydrocodeine at the same level as codeine. Dihydrocodeine-based pharmaceuticals are especially used where chronic pain patients are able to have essentially OTC access to them provided they are registered with the provincial or national government as such a patient.
Controlled-release dihydrocodeine is a non-prescription item in some places, especially the 60 mg strength. A report by the Ivo Šandor Organisation in 2004 listed Andorra, Spain, Gibraltar and Austria as having varying degrees of access to these and other dihydrocodeine, nicocodeine and codeine products.
Dihydrocodeine is the parent drug of a series of moderately strong narcotics including, among others, hydrocodone, nicocodeine, nicodicodeine, thebaine and acetyldihydrocodeine. It is an original member and chemical base of a number of similar semi-synthetic such as acetyldihydrocodeine, dihydrocodeinone enol acetate, dihydroisocodeine, nicocodeine, and nicodicodeine.
Whereas converting codeine to morphine is a difficult and unrewarding task, dihydrocodeine can be converted to dihydromorphine with very high yields (over 95%). Dihydromorphine is widely used in Japan. The dihydromorphine can be quantitatively converted to hydromorphone using potassium tert butoxide.
Dihydrocodeine can be presumptively detected by the Froehde reagent.
In the United States, the most common analgesic brands with dihydrocodeine are: DHC Plus (16 and 32 mg), Panlor SS (32 mg), ZerLor (32 mg), Panlor DC (16 mg) and Synalgos DC (16 mg). These combination products also include paracetamol (acetaminophen) and caffeine. Aspirin is used in the case of Synalgos DC.
Dihydrocodeine is sometimes marketed in combination preparations with paracetamol as co-dydramol (BAN) to provide greater pain relief than either agent used singly (see Synergy § Drug synergy).
In the UK and other countries, 30 mg tablets containing only dihydrocodeine as the active ingredient are available, also a 40 mg Dihydrocodeine tablet is available in the UK as DF-118 Forte.
The original dihydrocodeine product, Paracodin, is an elixir of dihydrocodeine hydroiodide also available as a Tussionex-style suspension in many European countries.
In many European countries and elsewhere in the world, the most commonly found dihydrocodeine preparations are extended-release tablets made by encasing granules of the ingredient mixture, almost always using the bitartrate salt of dihydrocodeine, of four different sizes in a wax-based binder. The usual strengths are 60, 90, and 120 mg. Common trade names for the extended-release tablets are Didor Continus, Codidol, Codi-Contin, Dicodin (made in France and the major product containing the tartrate salt), Contugesic, DHC, and DHC Continus.
Dihydrocodeine is available in Japan as tablets which contain 2.5 mg of dihydrocodeine phosphate and caffeine, the decongestant d,l-methylephedrine HCl, and the antihistamine chlorpheniramine, and packets of granules which effervesce like Alka-Seltzer with 10 mg of dihydrocodeine with lysozyme and chlorpheniramine, marketed for OTC sale as New Bron Solution-ACE. These two formulations may have once contained phenyltoloxamine citrate as the antihistamine component.
Elsewhere in the Pacific Rim, Dicogesic in analogous to Glaxo/Smith-Kline's DF-118.
The manufacturer of New Bron Solution-ACE; SS Pharmaceutical Co., Ltd, also markets an ibuprofen with dihydrocodeine product called S.Tac EVE, which also includes d,l-methylephedrine HCl, chlorpheniramine, anhydrous caffeine, and vitamins B1 and C.
The Panlor series is manufactured by Pan-American Laboratories of Covington, Louisiana, and they also market several dihydrocodeine-based prescription cough syrups in the United States.
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