|Trade names||Dilaudid, Hydromorph Contin, others|
|Oral, intramuscular, intravenous, subcutaneous, intranasal, rectal, sublingual, transmucosal, buccal, intrathecal, transdermal (experimental)|
|Bioavailability||Oral: 30–35%, Intranasal: 52–58% IV/IM:100%|
|Elimination half-life||2–3 hours|
|Chemical and physical data|
|Molar mass||g·mol−1 285.343|
|3D model (JSmol)|
|Solubility in water||HCl salt: 333 mg/mL (20 °C)|
Hydromorphone, also known as dihydromorphinone, and sold under the brand name Dilaudid, among others, is a centrally-acting pain medication of the opioid class. It is made from morphine. Comparatively, hydromorphone is to morphine as hydrocodone is to codeine – it is a hydrogenated ketone thereof. In medical terms, it is an opioid analgesic, and in legal terms, a narcotic. Hydromorphone is commonly used in the hospital setting, mostly intravenously (IV) because its bioavailability is very low orally, rectally, and intranasally. Sublingual administration (under the tongue) is usually superior to swallowing for bioavailability and effects; however, hydromorphone is bitter and hydrophilic like most opiates, not lipophilic, so it is absorbed poorly and slowly through mouth membranes.
Hydromorphone is much more soluble in water than morphine and, therefore, hydromorphone solutions can be produced to deliver the drug in a smaller volume of water. The hydrochloride salt is soluble in three parts of water, whereas a gram of morphine hydrochloride dissolves in 16 ml of water; for all common purposes, the pure powder for hospital use can be used to produce solutions of virtually arbitrary concentration. When the powder has appeared on the street, this very small volume of powder needed for a dose means that overdoses are likely for those who mistake it for heroin or other powdered narcotics, especially those that have been cut (diluted) prior to consumption.
Very small quantities of hydromorphone are detected in assays of opium on rare occasions; it appears to be produced by the plant under circumstances and by processes which are not understood at this time. A similar process or other metabolic processes in the plant may very well be responsible for the very low quantities of hydrocodone also found on rare occasions in opium and alkaloid mixtures derived from opium. Dihydrocodeine, oxymorphol, oxycodone, oxymorphone, metopon, and possibly other derivatives of morphine and hydromorphone also are found in trace amounts in opium.
- 1 Side effects
- 2 Interactions
- 3 Pharmacology
- 4 Chemistry
- 5 History
- 6 Society and culture
- 7 References
- 8 External links
Adverse effects of hydromorphone are similar to those of other potent opioid analgesics, such as morphine and heroin. The major hazards of hydromorphone include dose-related respiratory depression, urinary retention, bronchospasm and sometimes circulatory depression. More common side effects include lightheadedness, dizziness, sedation, itching, constipation, nausea, vomiting, headache, perspiration, and hallucinations. These symptoms are common in ambulatory patients and in those not experiencing severe pain.
Simultaneous use of hydromorphone with other opioids, muscle relaxants, tranquilizers, sedatives, and general anesthetics can cause a significant increase in respiratory depression, progressing to coma or death. Taking benzodiazepines (such as diazepam) in conjunction with hydromorphone may increase side effects such as dizziness and difficulty concentrating. If simultaneous use of these drugs is required, dose adjustment can be done.
A particular problem that may occur with hydromorphone is accidental administration in place of morphine due to a mix-up between the similar names, either at the time the prescription is written or when the drug is dispensed. This has led to several deaths and calls for hydromorphone to be distributed in distinctly different packaging from morphine to avoid confusion.
Massive overdoses are rarely observed in opioid-tolerant individuals, but when they occur, they may lead to circulatory system collapse. Symptoms of overdose include respiratory depression, drowsiness leading to coma and sometimes to death, drooping of skeletal muscles, low heart rate and decreasing blood pressure. At the hospital, individuals with hydromorphone overdose are provided supportive care such as assisted ventilation to provide oxygen, gut decontamination using activated charcoal through a nasogastric tube. Opioid antagonists such as naloxone can also be administered concurrent with oxygen supplementation. Naloxone works by reversing the effects of hydromorphone. It is only administered in the presence of significant respiratory depression and circulatory depression.
Sugar cravings associated with hydromorphone use are the result of a glucose crash after transient hyperglycemia following injection or a less profound lowering of blood sugar over a period of hours, in common with morphine, heroin, codeine, and other opiates.
In the setting of prolonged use, high dosage, and/or kidney dysfunction, hydromorphone has been associated with neuroexcitatory symptoms such as tremor, myoclonus, agitation, and cognitive dysfunction. This toxicity is less than that associated with other classes of opioids such as the pethidine class of synthetics in particular.
Users of hydromorphone can experience painful symptoms if the drug is suspended. Some people cannot tolerate the symptoms which result in continuous drug use. Symptoms of opioid withdrawal are not easy to decipher. There are differences between drug-seeking behaviors and true withdrawal effects. Symptoms associated with hydromorphone withdrawal include:
- Abdominal pain
- Anxiety/panic attacks
- Goose bump skin
- Inability to enjoy daily activities
- Muscle and joint pain
- Runny nose and excessive secretion of tears
In the clinical setting excessive secretion of tears, yawning and dilation of pupils are helpful presentations in diagnosing opioid withdrawal. Hydromorphone is a rapid acting pain killer, however some formulations can last up to several hours; patients who stop taking this drug abruptly might experience withdrawal symptoms. These can start within hours of taking the last dose of hydromorphone and can last up to several weeks. Withdrawal symptoms in people who stopped taking the opioid can be managed by using opioids or non-opioid adjuncts. Methadone is an opioid commonly used for this kind of therapy. However, the selection of therapy should be tailored to each specific person. Methadone is also used for detoxification in people who have opioid addiction such as heroin or drugs similar to morphine. It can be given orally or intramuscularly. There is controversy regarding the use of opioids for people experiencing withdrawal symptoms since these agents can themselves cause relapse on patients when they suspend therapy. Clonidine is a non-opioid adjunct that can be used in situations where opioid use is not desired, such as in patients with high blood pressure.
CNS depressants may enhance the depressant effects of hydromorphone, such as other opioids, anesthetics, sedatives, hypnotics, barbiturates, benzodiazepines, phenothiazines, chloral hydrate, dimenhydrinate, and glutethimide. The depressant effect of hydromorphone may also be enhanced by monoamine oxidase inhibitors (MAO inhibitors) (including procarbazine), first-generation antihistamines (brompheniramine, promethazine, diphenhydramine, chlorphenamine), beta blockers, and alcohol. When combined therapy is contemplated, the dose should be reduced of one or both agents.
|0.47 nM||18.5 nM||24.9 nM||1:39:53|
Hydromorphone is a semi-synthetic μ-opioid agonist. As a hydrogenated ketone of morphine, it shares the pharmacologic properties typical of opioid analgesics. Hydromorphone and related opioids produce their major effects on the central nervous system and gastrointestinal tract. These include analgesia, drowsiness, mental clouding, changes in mood, euphoria or dysphoria, respiratory depression, cough suppression, decreased gastrointestinal motility, nausea, vomiting, increased cerebrospinal fluid pressure, increased biliary pressure, and increased pinpoint constriction of the pupils.
Hydromorphone is available in parenteral, rectal, subcutaneous, and oral formulations. It can also be administered via epidural or intrathecal injection. Hydromorphone has also been administered via nebulization to treat shortness of breath, but it is not used as a route for pain control due to low bioavailability.
Concentrated aqueous solutions of hydromorphone hydrochloride have a visibly different refractive index from pure water, isotonic 9‰ (0·9 per cent) saline and the like and especially when stored in clear ampoules and phials can acquire a slight clear amber discolouration upon exposure to light; this reportedly has no effect on the potency of the solution, but 14-dihydromorphinones such as hydromorphone, oxymorphone and relatives come with instructions to protect from light. Ampoules of solution which have developed a precipitate should be discarded.
Battery-powered intrathecal drug delivery systems are implanted for chronic pain when other options are ruled out, such as surgery and traditional pharmacotherapy, provided that the patient is considered a suitable fit in terms of any contraindications, both physiological and psychological.
An extended-release (once-daily) version of hydromorphone is available in the United States. Previously, an extended-release version of hydromorphone, Palladone, was available before being voluntarily withdrawn from the market after a July 2005 FDA advisory warned of a high overdose potential when taken with alcohol. As of March 2010, it is still available in the United Kingdom under the brand name Palladone SR, Nepal under the brand name Opidol, and in most other European countries.
The chemical modification of the morphine molecule to hydromorphone results in higher lipid solubility and greater ability to cross the blood–brain barrier to produce more rapid and complete central nervous system penetration. On a per milligram basis, hydromorphone is considered to be five times as potent as morphine; although the conversion ratio can vary from 4–8 times, five times is in typical clinical usage. The development of tolerance also can vary in among individuals.
Patients with renal abnormalities must exercise caution when dosing hydromorphone. In those with renal impairment, the half-life of hydromorphone can increase to as much as 40 hours. The typical half-life of intravenous hydromorphone is 2.3 hours. Peak plasma levels usually occur between 30 and 60 minutes after oral dosing.
The onset of action for hydromorphone administered intravenously is less than 5 minutes and within 30 minutes of oral administration (immediate release).
While other opioids in its class such as codeine or oxycodone are metabolized via CYP450 enzymes, hydromorphone is not. Hydromorphone is extensively metabolized in the liver to hydromorphone-3-glucoronide, which has no analgesic effects. As similarly seen with the morphine metabolite, morphine-3-glucoronide, a build-up in levels of hydromorphone-3-glucoronide can produce excitatory neurotoxic effects such as restlessness, myoclonus and hyperalgesia. Patients with compromised kidney function and older patients are at higher risk for metabolite accumulation.
Hydromorphone is made from morphine either by direct re-arrangement (made by reflux heating of alcoholic or acidic aqueous solution of morphine in the presence of platinum or palladium catalyst) or reduction to dihydromorphine (usually via catalytic hydrogenation), followed by oxidation with benzophenone in presence of potassium tert butoxide or aluminium tert butoxide (Oppenauer oxidation). The 6 ketone group can be replaced with a methylene group via the Wittig reaction to produce 6-Methylenedihydrodesoxymorphine, which is 80× stronger than morphine.
Changing morphine into hydromorphone increases its activity and, therefore, makes hydromorphone about eight times stronger than morphine on a weight basis, all other things being equal. Changed also is lipid solubility, contributing to hydromorphone's having a more rapid onset of action and alterations to the overall absorption, distribution, metabolism, and elimination profile as well as the side effect profile (in general, less nausea and itching) versus that of morphine. The semi-synthetic opiates, of which hydromorphone and its codeine analogue hydrocodone are among the best-known and oldest, include a huge number of drugs of varying strengths and with differences among themselves both subtle and stark, allowing for many different options for treatment.
Hydromorphone is made from morphine via catalytic hydrogenation and is also produced in trace amounts by human and other mammalian metabolism of morphine and occasionally appears in assays of opium latex in very small quantities, apparently forming in the plant in an unknown percentage of cases under poorly understood conditions.
Some bacteria have been shown to be able to turn morphine into closely related drugs including hydromorphone and dihydromorphine among others. The bacterium Pseudomonas putida serotype M10 produces a naturally occurring NADH-dependent morphinone reductase that can work on unsaturated 7,8 bonds, with result that, when these bacteria are living in an aqueous solution containing morphine, significant amounts of hydromorphone form, as it is an intermediary metabolite in this process; the same goes for codeine being turned into hydrocodone.
The process gave rise to various concentrations of hydromorphone, dihydromorphine, hydromorphinol, and oxymorphone during the experiments. Three paths were found: from morphine to hydromorphone with dihydromorphine as the penultimate step, from morphine to hydromorphone with morphinone as the penultimate step, and from morphine to hydromorphinol to hydromorphone.
Hydromorphone was first synthesized and researched in Germany by Knoll (first patent 1922) who introduced it to the mass market in 1926 under the brand name Dilaudid, indicating its derivation and degree of similarity to morphine (by way of laudanum)—compare Dicodid (hydrocodone), Dihydrin (dihydrocodeine), and Dinarkon (oxycodone). The brand name Dilaudid is more widely known than the generic term hydromorphone and, because of this, Dilaudid is often used generically to mean any form of hydromorphone.
Society and culture
Hydromorphone is known in various countries around the world by the brand names Hydal, Dimorphone, Sophidone LP, Dilaudid, Hydrostat, Hydromorfan, Hydromorphan, Hymorphan, Laudicon, Opidol, Palladone, Hydromorph Contin and others. An extended-release version of hydromorphone called Palladone was available for a short time in the United States before being voluntarily withdrawn from the market after a July 2005 FDA advisory warned of a high overdose potential when taken with alcohol. As of March 2010, it is still available in the United Kingdom under the brand name Palladone SR, Nepal under the brand name Opidol, and in most other European countries.
In the United States, the main drug control agency, the Drug Enforcement Administration, reports an increase in annual aggregate production quotas of hydromorphone from 766 kilograms (1,689 pounds) in 1998 to 3,300 kilograms (7,300 lb) in 2006, and an increase in prescriptions in this time of 289%, from about 470,000 to 1,830,000. The 2013 production quota was 5,968 kilograms (13,157 lb).
Like all opioids used for analgesia, hydromorphone is potentially habit-forming and is listed in Schedule II of the United States Controlled Substances Act of 1970 as well as in similar levels under the drugs laws of practically all other countries and is listed in the Single Convention On Narcotic Drugs. The DEA ACSCN for hydromorphone is 9150.
Hydromorphone is listed under the German Betäubungsmittelgesetz as a Betäubungsmittel in the most restricted schedule for medicinal drugs; it is similarly controlled in Austria (Suchtgift) under the SMG and the Swiss BetmG. The Misuse of Drugs Act 1971 (United Kingdom) and its French, Canadian, Australian, Italian, Czech, Croatian, Slovenian, Swedish, Polish, Spanish, Greek, Russian, and other laws similarly control it, as do virtually all other countries.
Use in executions
In 2009, Ohio approved the use of an intramuscular injection of 500 mg of hydromorphone and a supratherapeutic dose of midazolam as a backup means of carrying out executions when a suitable vein cannot be found for intravenous injection.
Hydromorphone and midazolam was injected intravenously to execute double-murderer Joseph Wood in Arizona on 24 July 2014. Wood was heavily sedated (surgical anesthesia) within four minutes from start but took almost two hours to transition to stage 4 (cessation of respiration) and death.
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