Opium, alkaloids derivatives

The Opiates. The International Narcotics Control Board—Vienna, tracks the tick production of narcotic dmgs and annually estimates world requkements for the United Nations. Thek most recent pubHcation (100) points out that more than 95% of the opium for Hcit medical and scientific purposes is produced by India and, in a declining trend, only about 600 t was utilized in 1988. This trend appears to be due to the fact that the United States, the largest user of opium for alkaloid extraction, reduced the amount of opium being imported from about 440 t in 1986 to 249 t in 1987 and 224 t in 1988. The United States used about 48 t of morphine (2, R = H) in 1988, most (about 90%) being converted to codeine (2, R = CH3) and the remainder being used for oral adrninistration to the terminally ill (about 2 t) and for conversion to other materials of minor commercial import which, while clearly alkaloid-derived, are not naturally occurring. 

The processes used in the manufacture of morphine are believed to be still based on that described by the Scottish chemist Gregory,in 1833, with improvements devised by Anderson. A description has been published by Schwyzer, who also deals with the manufactme of codeine, narcotine, cotarnine, and the commercially important morphine derivatives, diamorphine (diacetylmorphine), and ethylmorphine (morphine ethyl ether). More recently Barbier has given an account of processes, based on long experience in the preparation of alkaloids from opium. Kanewskaja has described a process for morphine, narcotine, codeine, thebaine and papaverine, and the same bases are dealt with by Chemnitius, with the addition of narceine, by Busse and Busse, and by Dott. It is of interest to note that a number of processes for the extraction and separation of opium alkaloids have been protected by patent in Soviet Russia. ... 

The Pharmacology of the Opium Alkaloids, by Krueger, Eddy and Sumwalt, which covers the period 1800 to 1942, and gives a comprehensive survey of pharmacological observations on the alkaloids of opium and their derivatives, with an exhaustive bibliography of over 10,000 titles. 

Some substances, e. g. penicillin and pyrazolinone derivatives, are poorly detected by iodine staining with detection limits of 2-4 pg substance per chromatogram zone [6, 7]. The limits for lipids and for opium alkaloids lie with 50-500 ng [8] in the middle nanogram range [9]. 

Iodine addition to the ter- [13] tiary nitrogen of the opium alkaloids and to the OCH3 group of the brucine with formation of an o-quinone derivative, probably ring opening in the case of phenylbutazone, ketazone and trimethazone detection by IR... 

Note It is possible to differentiate amino acids by color on the basis of the markedly different shades produced [2, 3]. Proline and hydroxyproline, that only react weakly with ninhydrin, also yield pink-red colored derivatives [2]. Ergot alkaloids and LSD are detected by spraying with 10% hydrochloric add and then heating to 110°C for 20 min after they have been treated with the reagent [9]. Ergot alkaloids and LSD yield red to purple zones when treated in this manner other alkaloids, e.g. reserpine, emetine, quinine, strychnine, pilocarpine, atropine, scopolamine, cocaine and opium alkaloids, do not give a reaction [9]. 

Rice, K.C. (1980) Synthetic Opium Alkaloids and Derivatives. A Short Total Synthesis of (ib)-Dihydrothebainone, ( )-Dihydrocodeinone, and ( )-Nordihydrocodemone as an Approach to a Practical Synthesis of Morphine, Codeine, and Congeners. Journal of Organic Chemistry, 45, 3135-3137. 

There are two types of pharmaceutically important derivatives (a) Compounds with a hydroxyl substituent at position 14, such as in oxycodone and the antagonists naloxone and naltrexone, and (b) Diels-Alder adducts such as etorphine and buprenorphine, where the latter compounds are all derived from another opium alkaloid, (—)-thebaine (12) (Scheme 5.10). Because thebaine is a rather scarce alkaloid, several syntheses have been investigated. Quite recently, Australian scientists have been able to modify P. somniferum in such a way that thebaine is now a main alkaloid, so that it is becoming better available [28],... 

In the first place, the structure of the target molecule is submitted to a rational analysis in order to perceive the most significant structural features, and it may be useful to use different types of molecular models at this point. It should be remembered that a molecular structure has "thousand faces" and finding the most convenient perspective may greatly simplifly the synthetic problem. The synthesis of opium alkaloids, for instance, is much simplified if one realises that they are, in fact, derivatives of benzyltetrahydroisoquinoline (18) (see Scheme 3.8). This was indeed the inspired intuition of Sir Robert Robinson which led to the structural elucidation of morphine (19) and to a first sketch of the biogenetic pathway [22], and later on to the biomimetic synthesis of thebaine 20 [23] [24]. 

Apomorphine hydrochloride (44 Apokyn Bertek, 2004), is a semisynthetic derivative of opium alkaloid morphine (43) isolated from poppy (Papaver somniferum), and it has long been known for its erectile activity at the effective dose of 2-6 mg physicians discovered the effect over 100 years ago, but found the drug, at a much higher dose (ca. 200 mg), to be more suitable for poison victims as an emetic because it also causes serious nausea and vomiting. Apomorphine exerts its erectile effect at the central nervous system the drug has been found to be a non-selective dopamine agonist which activates both Di-like and D2-like... 

The most widely used agonists in medical practice are the opium alkaloids morphine and codeine. However, semisynthetic derivatives (hydromorphone, oxymorphone, hydrycodon, oxycodone), whose use is even preferred in certain cases, and strong, purely synthetic compounds (methadone, meperidin, fentanyl, sufentanyl, and others) have found wide use. 

The most known narcotics are the opium alkaloids such as morphine, codeine, thebaine, papaverine, noscapine and their derivatives and modified compounds such as nalmorphine, apomorphine, apomopholcodine, dihydrocodeine, hydro-morphone and heroine, also known as diamorphine. Synthetic narcotics share the structural skeleton of morphine and include dextromethorphan, pentazocine, phenazocine meperidine (pethidine), phentanyl, anfentaitil, remifentalin, methadone, dextropropoxyphene, levoproxyphene, dipipanone, dextromoramide, meptazinol and tramadol. Thebaine derivatives are also modified narcotics and include oxycodone, oxymorphone, etorphine, buprenorphine, nalbuphine, naloxone or naltrexone. Narcotics can be semi-synthesized or totally synthesized from the morphine and thebaine model. The compounds serve various purposes in clinical practise. 

Reticuline (38), one of the most important intermediates in the biosynthesis of opium alkaloids, has been synthesized in racemic form (Scheme 7) (78). 6-Methoxy-7-benzyloxyisoquinoline (39), prepared from O-benzylisovanillin via a modified Pomeranz-Fritsch isoquinoline synthesis, was treated with benzoyl chloride and potassium cyanide to obtain Reissert compound 40. Alkylation of the anion generated from 40 with 3-benzyloxy-4-methoxybenzyl chloride gave the corresponding 1-substituted Reissert compound 41 which was hydrolyzed in alkaline medium to 1-benzylisoquinoline derivative 42. Quatemarization of 42 with methyl iodide followed by sodium borohydride reduction and debenzylation led to ( )-reticuline (38) in about 25% overall yield from 39. 

Dams et al. [19] determined seven different opium alkaloids and derivatives in seized heroin using fast LC-MS analysis. Analytes were separated in 5 min on a monolithic silica column with a gradient elution system and an optimized flow of 5 mL/min. Detection was carried out using a sonic spray ion source [20] a modified ESI source were ionization is achieved using a nebulizer gas at sonic speed instead of applying an electrical field. 

Chemical Class-. Natural opium alkaloid phenanthrene derivative... 

Brand Name(s) Astramorph PF, Avinza, DepoDur, Duramorph PF, Infumorph, Kadian, M-Eslon, MS Contin, MSIR, MS/S, Oramorph SR, Rapi-Ject, RMS, Roxanol, Roxanol-T Chemical Class Natural opium alkaloid phenanthrene derivative... 

Buprenorphine is a semi-synthetic derivative of thebaine, one of the opium alkaloids. It is approximately 30 times as potent as morphine. A dose of 0.3 mg intramuscularly has a duration of analgesic action of 6-18 h. Buprenorphine is also effective sublingually. The average bio-availability by this route is about 55%, but absorption is slow and the time to achieve peak plasma concentrations is variable, with a range of 90-360 min. The onset of action is rather slow (5-15 min) after both intramuscular and intravenous administration, possibly due to slow receptor association. Buprenorphine binds to and dissociates from the p receptor very slowly, which may account for its low potential for physical abuse. It also means that buprenorphine-induced respiratory depression is difficult to reverse with naloxone, even with very high doses. Doxapram may in these circumstances be useful. Drowsiness and dizziness are the most common side effects, although they rarely... 

Opium alkaloids and derived phenanthrene alkaloids codeine, morphine, (Avinza, Kadian, MSContin, Roxanol), hydromorphone (Dilaudid), oxymorphone (Numorphan), oxycodone (dihydroxycodeinone, a component of Oxycotin, Oxydose, Oxyfast, Percodan, Percocet, Roxicodone, Tylox)... 

Opium has been known and used for 4000 years or more. In recent times, attempts have been made at governmental and international levels to control the cultivation of the opium poppy, but with only limited success. In endeavours to reduce drug problems involving opium-derived materials, especially heroin, where extremely large profits can be made from smuggling relatively small amounts of opium, much pharmaceutical production has been replaced by the processing of the bulkier poppy straw . The entire plant tops are harvested and dried, then extracted for their alkaloid content in the pharmaceutical industry. Poppy straw now accounts for most of the medicinal opium alkaloid production, but there is still... 

The opium alkaloids, which are obtained from Papaver somniferum, contain two groups of compounds compounds with phenanthrene derivatives, consisting of morphine, codeine, and thebaine and compounds with isoquinoline derivatives, consisting of papaverine and noscapine. 

Noscapine (Nectadon ), 2-methyl-8-methoxy-6,7-methylenedioxy-l-(6,7-di-methoxy-3-phtha-lidyl)-l,2,3,4-tetrahydroisoquinoline, is also one of the isoquinoline derivatives present in opium. Next to morphine, it is the most abundant of the opium alkaloids, present to the extent of 6% in the seed capsules. This drug was formerly known as narcotine but, because it is neither chemically nor pharmacologically related to the narcotics, is more appropriately designated as noscapine. 

Raw opium is harvested from the seed pod of the opium poppy. As many as 50 substances called alkaloids can then be derived from opium, and the opium can be further processed. Alkaloids are naturally occurring plant products that possess some pharmacological activity, and are found in other plants as well as opium poppies. Cocaine and nicotine are examples of alkaloids derived from the coca plant and the tobacco plant,... 

The alkaloids derived from opium are collectively known as opiates. Morphine, codeine, and thebaine are well-known opium derivatives. Paregoric is an opium tincture (opium in an alcohol mixture). 

---