Avicenna's Canon of Medicine: a review of analgesics and anti-inflammatory substances

Introduction

Abu Ali al-Ḥusain Ebn Abdullah Ebn Sina (980 –1037 AD), known in the West as Avicenna, was a Persian physician who is known as the most influential medical writers in the medieval period. Between the thirteenth to the seventeenth centuries, Avicenna held a high place in Western medical studies, ranking as an acknowledged supremacy. His works had a crucial impact on the modern medicine and at some universities continued to be used for teaching up to the nineteenth century (Brentjes, 1980 ▶; Weisser, 2011 ▶).

About 100 dissertations were written by Avicenna. Among them, Qanoon-fel-teb (The Canon), originally written in the Arabic, is an immeasurable encyclopedia of medicine that represents all the medical sciences of the time. The Canon was translated into several languages, including Latin, Persian, English, Indian, Chinese, Hebrew, German, and French (Hakim Syed Zillur Rahman, 2004 ▶; Weisser, 2011 ▶). The Canon, translated first into Latin (Canon medicinae) by Gerard of Cremona, was the main medical textbook in several universities in Europe between 11^th to 17^th centuries (Moosavi, 2009 ▶). Sir William Osler, one of the four founding professors of Johns Hopkins Hospital, noted the Canon as "the most famous medical textbook ever written; a medical bible for a longer time than any other work" (Osler, 1972 ▶).

Avicenna (1988) ▶ divided the Canon into five books:

1. The first book describes different scope of medicine, the elements, the temperaments, the humors, physiological and anatomical principles, and general therapeutic procedures.

2. The second book explains several plant-, animal-, and mineral-derived drugs, in alphabetical order, with an essay on their properties and side-effects.

3. The third book describes an organ-based classification of the diagnosis and treatment of different diseases.

4. The fourth book defines general medical problems that affect the whole body, such as obesity, poisonous bites, and fever.

5. The fifth book contains numerous compound receipts.

Eight hundred drugs and 650 recipes of different compounds from various sources are listed in the Canon, with extensive comments on the effectiveness of each drug or recipe (Danielle, 2008 ▶). Several clinical and experimental studies support the use of some traditional Persian medicines noted by Avicenna in the Canon for the treatment of different diseases. However, most medicinal substances prescribed by Avicenna remain largely unexamined (Gorji, 2003 ▶). The anti-inflammatory and analgesic medicaments are a heterogeneous group of substances, which share definite remedial actions and side effects. The search for new pharmacologically active anti-inflammatory and analgesic drugs offered by medieval medical literatures has led to the discovery of some clinically useful drugs. These compounds, during the last two centuries, have played a crucial role as effective remedies of various human diseases as well as in understanding of basic pathophysiology of some diseases (Gorji and Khaleghi Ghadiri, 2001 ▶; Gorji and Khaleghi Ghadiri, 2002 ▶; Khaleghi Ghadiri and Gorji, 2004 ▶; Vakili and Gorji, 2007 ▶; Bayan et al., 2013 ▶). Despite progress in the development of therapy in recent years, effective and potent anti-inflammatory and analgesic drugs are still required for the treatment of different diseases. The aim of the present study was to provide a descriptive review of all anti-inflammatory and analgesic drugs noted in the Canon of Avicenna. Data for this review were provided by searches of different sections of this book translated in Persian (Avicenna, 1988 ▶). It is hoped that this manuscript will help further research into the clinical benefits of these compounds for treatment of inflammatory diseases.

Anti-inflammatory and analgesic drugs

Avicenna (1988) ▶ describes the signs and symptoms (pain, swelling, redness, fever, impaired functions, etc.) of different inflammatory diseases (such as pneumonia, rhinitis, otitis, dermatitis, etc.) and their treatment with several substances with different modes of action. These drugs were advised to use as prophylactic or therapeutic. Many of these drugs were prescribed for different inflammatory disease, although some of those were advised for a certain disorder. The strategies for treatment of pain and inflammation were divided into the measures of acute and chronic diseases.

Furthermore, these drugs were classified for treatment of mild, moderate, or severe conditions in each disorder. It is also noted that some of these drugs in certain conditions act as anti-inflammatory of analgesic drugs, in other condition my provoke pain or inflammation. The anti-inflammatory and analgesic drugs listed in the Canon include plants, animal products, and minerals. Avicenna emphasized the importance of the dose and the route of administration and defined a schedule for drug application. Drugs were also taken via skin, oral, nasal, or rectal routes as well as by inhalation (Table).

Some of the medicaments suggested by Avicenna for treatment of inflammation and pain are well-recognized dugs in modern medicine. Many of these compounds are under experimental or clinical investigations for their probable therapeutic effects. However, most of these drugs remain largely unexamined.

Well recognized anti-inflammatory and analgesic drugs

Papaver somniferum

Opium (Papaver somniferum) was advised for treatment of arthralgia, sciatica, gout, muscle pain and nerve injury, otitis, blepharitis, urogenital pain, abdominal pain, uterine pain, colic, postoperative pain, and chronic pain in the Canon. In 1680, Sydenham was noted opium: "Among the remedies which it has pleased Almighty God to give to man to relieve his sufferings, none is so universal and so efficacious as opium" (Yaksh and Wallace, 2011 ▶).

Administration of opiate in Europe increased rapidly in the 18th century (Miller and Tran, 2000 ▶). Opium and its derivatives have been used as the most widely analgesics for severe pain since the early 1800s (Hamilton and Baskett, 2000 ▶). Nowadays, application of several opioids is considered effective for the treatment of various forms of headaches (Gorji and Khaleghi Ghadiri 2001 ▶), postoperative pain (Hamilton and Baskett, 2000 ▶), neuropathic pain (Berrios et al., 2008 ▶), and different chronic pain syndromes (Vallejo et al., 2011 ▶). Opium also plays a crucial role in our understanding of basic mechanism of pain (Lipman, 1990 ▶).

Salix spp.

In the Canon, administration of willow oil (Salix spp.) was recommended for treatment of headache, osteitis, ophthalmitis, orbital injury, liver disorders and jaundice, and dysmenorrhea. In the first half of the 19th century salicin, the principal active constituent of willow oil was extracted from the willow bark and later salicylic acid was obtained. Today, the synthetically produced preparations of salicylic acid are well-known analgesic, anti-inflammatory and antipyretic drug (Amann and Peskar, 2002 ▶).

Acetylsalicylic acid is recommended as an analgesic and prophylactic in different types of headaches [4], and alleviates dysmenorrhea (Pendergrass et al., 1985 ▶). Furthermore, it has been suggested that regular aspirin use (more than 15 times per month) may be associated with a lower prevalence of non-alcoholic fatty liver disease among men and older patients (Shen et al., 2014 ▶).

Curcuma longa

Curcuma (Curcuma longa) is advised for treatment of different inflammatory diseases and pain in the Canon. Promising effects of curcuma have been reported in patients with various pro-inflammatory diseases, including oncologic disorders, cardiovascular disease, rheumatologic diseases, chronic anterior uveitis, gastrointestinal inflammatory diseases (Crohn's disease, ulcerative proctitis and colitis, irritable bowel disease, pancreatitis, gastric inflammation as well as ulcer, and cholecystitis), lupus nephritis, ischemic brain injuries, and acquired immunodeficiency syndrome (Gupta et al., 2013 ▶; Tamaddonfard, 2013 ▶; Arshami et al., 2013 ▶; Ghosh et al., 2014 ▶).

Cannabis sativa

Cannabis (Cannabis sativa) was prescribed for the alleviation of severe headache as well as treatment for degenerative bone and joint diseases, ophthalmitis, general edema, infectious wounds, gout, and uterine pain. The major active component of cannabis, tetrahydrocannabinols, in addition to other constituents of cannabis has been shown to possess anti-nociceptive properties (Wilson and Nicoll, 2002 ▶).

Cannabinoids alleviate pain by the activation of a brainstem circuit that is required for opioid-mediated analgesia, and modulate basal nociceptive thresholds through the activation of the rostral ventromedial medulla [8]. It has been suggested that cannabinoids may act as an analgesic in migraine pain by inhibition of spreading depression phenomenon (Kazemi et al., 2012 ▶). Different constituents of cannabis have been suggested to be useful in the treatment of intervertebral disc degeneration (Silveira et al., 2014 ▶), endometriosis (Sanchez et al., 2012 ▶), and breast cancer (Behrend, 2013 ▶). Cannabis has been suggested to be used to treat patients with cancer who do not adequately treated with other analgesics and anti-emetics (Nauck et al., 2004 ▶).

Allium sativum

Garlic (Allium sativum) was recommended by Avicenna in his book for treatment of acute inflammation, chronic and malignant wounds, arthritis and gout, sciatica, common cold, headache, earache, severe eye pain, acute cough, lung disease with hematemesis, gastroenteritis, and liver diseases. Anti-inflammatory effect is a well-known property of this plant. Garlic and its bioactive components protect the hepatocytes from several toxic agents and act as antimicrobial, antifungal, and antiviral substances (Bayan et al., 2014 ▶). Diallyl disulfide, a major organosulfur compound in garlic oil, has been shown to a useful substance in treatment of respiratory inflammation (Shin et al., 2013 ▶). Administration of garlic have been suggested for treatment of common cold (Allan and Arroll, 2014 ▶), arterial occlusive disease (Jepson et al., 2013 ▶), migraine headache (Roussos and Hirsch, 2014 ▶; Marschollek et al., 2014 ▶), and prevention of different tumors (Bayan et al., 2014 ▶).

Medicaments under investigation for their probable anti-inflammatory and analgesic effects

Matricaria chamomilla

Avicenna advised to use chamomile (Matricaria chamomilla) for treatment of headache, edema, conjunctivitis, jaundice, chronic fever, lithiasis, amenorrhea, toothache, and muscle tightness. Chamomile is recommended to relieve itching and inflammation and facilitate healing of peristomal skin lesions in patients undergone the gastrointestinal or urinary surgeries (Charousaei et al., 2011 ▶).

The fluid extract from chamomile reduced pain of aphthous ulcers in patients suffering from recurrent aphthous stomatitis (Ramos-e-Silva et al., 2006 ▶). It is hypothesized that chamomile flavonoids and polyphenols due to its anti-inflammatory properties via the inhibition of pro-inflammatory biomarkers in macrophages, inhibition of endogenous prostaglandin E2 levels, and reduction of nitric oxide values may alleviate migraine pain (Zargaran et al., 2014 ▶). Chamomile modulates phase I and phase II drug metabolizing enzymes in the liver (Maliakal and Wanwimolruk, 2001 ▶), improves endometrial tissue arrangements (Farideh et al., 2010 ▶), and alleviate pain and edema present in various inflammatory conditions (Tomić et al., 2014 ▶) in animal experiments. The anti-inflammatory effect of chamomile is suggested to be mainly due its essential oils, such as bisabololand, chamazulene and matricin, possibly via inhibition of histamine release and the production of prostaglandin (Safayhi et al., 1994 ▶; Miller et al., 1996 ▶; Srivastava et al., 2010 ▶).

Malus orientalis

Apple (Malus orientalis) is advised for treatment of acute general edema, muscle pain, abscess, otitis, purulent wounds, toothache, chronic cough and pneumonia, abdominal pain, and intestinal inflammation as well as for prevention of headache by Avicenna. The apple contains polyphenols with a large variability in their structures, which are stored in vacuoles and chromoplasts (Francini and Sebastiani, 2013 ▶). Antioxidant reactions of phytochemicals inhibit the oxidation of harmful substances and act as radical catcher. Reactive oxygen species are noxious in a large amount and cause cell damage by reaction with lipids, proteins and deoxyribonucleic acid (Mladenka et al., 2010 ▶). Secondary plant metabolites and polyphenols have anti-inflammatory, anti-carcinogenic, anti-microbial, anti-oxidant, and anti-thrombotic effects (Scalbert et al., 2005 ▶; Jelodarian et al., 2013 ▶). Apple polysaccharide extract is suggested to prevent colitis-associated colon cancer via the inhibition of TLR4/MD2-mediated signaling and the inhibition of NF-κB-mediated inflammatory signaling pathways (Zhang et al., 2015 ▶). Apple flavonols in combination with fish oil inhibited the production of pro-inflammatory mediators and significantly improved blood lipid profiles in rats with diet-induced hyperlipidemia and lipopolysaccharide-induced acute inflammation (Sekhon-Loodu et al., 2014 ▶).

High-flavonoid apple was associated with decreases in the transcription levels of inflammation-linked genes for interleukin-2 receptor, chemokine receptor 2, chemokine ligand 10, and chemokine receptor 10 as well as in production of prostaglandin E2 (Espley et al., 2014 ▶).

Boswellia serrata

In medieval Persian, frankincense (Boswellia serrata) was advised for treatment of abscess, wounds and malignant tumors, skin rashes, dermatitis, nausea and vomiting, gastrointestinal inflammation, and arthritis. Several experimental studies have shown that frankincense possesses anti-inflammatory, analgesic, antimicrobial, hepatoactive, and anti-proliferative effect (Abdel-Tawab et al., 2011 ▶).

The resinous part of Boswellia serrata possesses several anti-inflammatory substances, including mono-, di-, tri-, tetra-, and four major pentacyclic triterpenic acids (Siddiqui, 2011 ▶). Oral administration of Boswellia serrata gum resin extract significantly reduced the levels of several inflammatory mediators (interleukins 1β and 6, tumor necrosis factor-α, Interferon gamma, and prostaglandin E2), and increased interleukin-10.

The protective effect of frankincense against rheumatoid arthritis is suggested evident due to the decrease in arthritis scoring and bone histology in a collagen induced arthritis model in rats (Umar et al., 2014 ▶). Aflapin, a novel Boswellia-derived anti-inflammatory product, significantly inhibited interleukins 1β-induced death of human primary chondrocytes and improves production of glycosaminoglycan in human chondrocytes (Sengupta et al., 2011 ▶).

Cinnamomum camphora

Camphor (Cinnamomum camphora) is advised for treatment of headache and arthralgia as well as against inflammation in different organs. Camphor inhibited heat-sensitive transient receptor potential vanilloid subtype 1 (TRPV1) and several other related channels, which may underlie the analgesic effects of camphor (Xu et al., 2005 ▶). Camphor activated cultured primary keratinocytes (contained heat-activated receptors), and this effect was abolished in TRPV3 null mice (Moqrich et al., 2005 ▶).

Phytochemical investigation of Myrrh (Commiphera myrrha) has resulted in identification of more than 300 secondary metabolites which have exhibited a wide-range of pharmacological properties that are effective in treatment of inflammatory and infection diseases.

The bioactive steroids guggulsterones have been suggested as a potent inhibitory component on tumor cells and inflammation (Shen et al., 2012 ▶). Lavender (Lavendula stoechas) is believed to have a variety of therapeutic and curative properties in the Canon. In a placebo-controlled clinical trial, inhalation of lavender oil was suggested as an effective and safe treatment in acute management of migraine attacks (Sasannejad et al., 2012 ▶). Lavender inhibited some inflammatory processes, such as lipopolysaccharide-induced inflammatory reaction (Koulivand et al., 2013 ▶).

Ethanolic and aqueous extracts of saffron (Crocus sativus), another analgesic and anti-inflammatory drug mentioned in the Canon, have been suggested as a useful substances in treatment of different kinds of neuropathic pain and acetaminophen toxicity (Amin and Hosseinzadeh, 2012 ▶; Omidi et al., 2014 ▶.

Several strategies have been used for development of new drugs. One of these strategies is the use, development and improvement of existing medicines, like natural healing substances, which have been used long to treat the illnesses in traditional medicine. Although some of anti-inflammatory and analgesic substances advised by Avicenna in the Canon are used by modern medicine, the exact mechanism of their action as well as biochemical and pharmacological values needs more investigations. Several other drugs are still unexamined, which have the potential for further investigations and discovery of new drugs against inflammatory diseases and pain.