The Beat Goes On: The Story of Five Ageless Cardiac Drugs.

This article traces the history of 5 cardiac drugs-Aspirin, Atropine, Digitalis, Nitroglycerine, and Quinidine-that have been in continuous use for centuries and some for longer. Four of the 5 started life as botanicals and 4 have as also served widely varied functions far removed from their current purposes. Collectively, they have played a role in the history of royalty, religious leaders, assassinations and military campaigns in addition to their place in medical therapy. Their present clinical status has evolved from long-term clinical observation without the need for controlled clinical trials, detailed statistical analyses or FDA approvals. This review of their background illustrates the varied means by which markedly different substances from widely separated sources can come together to participate in the management of circulatory disorders.

Nitroglycerine and sodium trioxodinitrate: from the discovery to the preconditioning effect.

The history began in the 19th century with Ascanio Sobrero (1812-1888), the discoverer of glycerol trinitrate (nitroglycerine, NTG), and with Angelo Angeli (1864-1931), the discoverer of sodium trioxodinitrate (Angeli's salt). It is likely that Angeli and Sobrero never met, but their two histories will join each other more than a century later. In fact, it has been discovered that both NTG and Angeli's salt are able to induce a preconditioning effect. As NTG has a long history as an antianginal drug its newly discovered property as a preconditioning agent has also been tested in humans. Angeli's salt properties as a preconditioning and inotropic agent have only been tested in animals so far.

The role of nitric oxide in vascular headache.

Shortly after the invention of nitroglycerin (NTG), it was noticed that this substance is capable of inducing a violent headache. Only recently, it became known that this was due to the release of nitric oxide (NO) by NTG. As the molecular mechanism of migraine pain remains to be determined, NTG, being pro-drug for NO, has been used to study the aetiology and pathophysiology of migraine. Such studies with NTG- and also histamine-induced headaches, have led to propose that NO may be the causative molecule in migraine pain. The evidence supporting the role of NO in migraine is discussed, e.g. substances capable of inducing experimental vascular headache do so with NO as the common mediator, while drugs with antimigraine activity inhibit NO and the cascade of intracellular reactions triggered by NO. The importance of NO as a potential initiator of the migraine attack opens new directions for the pharmacological treatment of migraine and other vascular headaches.

Alfred Nobel--his life and work.

December 2001 marks 100 years since the first Nobel prizes were awarded. But who was Alfred Nobel, and how and why were the prizes that bear his name established?

History of headache research in Denmark.

Headache research in Denmark started with the description in 1949 by Dalsgaard-Nielsen of the percutaneous nitroglycerin test. In 1976 Jes Olesen started The Copenhagen Acute Headache Clinic and from that time modern headache research began in Denmark. Specific changes in regional cerebral blood flow during attacks of migraine with aura, spreading oligaemia, were described for the first time in 1980. The first headache classification with operational diagnostic criteria was published in 1988 and used in a Danish population study from 1989. The lifetime prevalence of migraine was 8% in men and 25% in women. An intravenous nitroglycerin test was introduced in 1989 and has been developed as an experimental headache model. In 1993 it was suggested by Jes Olesen et al. that NO supersensitivity could be a possible molecular mechanism of migraine pain. Recent genetic studies have supported the distinction between migraine with aura and migraine without aura. From the middle of the 1980s the pathophysiology of tension-type headache has been investigated and recent results indicate central sensitization in patients with chronic tension-type headache.

A short history of nitroglycerine and nitric oxide in pharmacology and physiology.

1. Nitroglycerine (NG) was discovered in 1847 by Ascanio Sobrero in Turin, following work with Theophile-Jules Pelouze. Sobrero first noted the 'violent headache' produced by minute quantities of NG on the tongue. 2. Constantin Hering, in 1849, tested NG in healthy volunteers, observing that headache was caused with 'such precision'. Hering pursued NG ('glonoine') as a homeopathic remedy for headache, believing that its use fell within the doctrine of 'like cures like'. 3. Alfred Nobel joined Pelouze in 1851 and recognized the potential of NG. He began manufacturing NG in Sweden, overcoming handling problems with his patent detonator. Nobel suffered acutely from angina and was later to refuse NG as a treatment. 4. During the mid-19th century, scientists in Britain took an interest in the newly discovered amyl nitrite, recognized as a powerful vasodilator. Lauder Brunton, the father of modern pharmacology, used the compound to relieve angina in 1867, noting the pharmacological resistance to repeated doses. 5. William Murrell first used NG for angina in 1876, although NG entered the British Pharmacopoeia as a remedy for hypertension. William Martindale, the pharmaceutical chemist, prepared '...a more stable and portable preparation': 1/100th of a grain in chocolate. 6. In the early 20th century, scientists worked on in vitro actions of nitrate-containing compounds although little progress was made towards understanding the cellular mode of action. 7. The NG industry flourished from 1900, exposing workers to high levels of organic nitrites; the phenomena of nitrate tolerance was recognized by the onset of 'Monday disease' and of nitrate-withdrawal/overcompensation by 'Sunday Heart Attacks'. 8. Ferid Murad discovered the release of nitric oxide (NO) from NG and its action on vascular smooth muscle (in 1977). Robert Furchgott and John Zawadski recognized the importance of the endothelium in acetylcholine-induced vasorelaxation (in 1980) and Louis Ignarro and Salvador Moncada identified endothelial-derived relaxing factor (EDRF) as NO (in 1987). 9. Glycerol trinitrate remains the treatment of choice for relieving angina; other organic esters and inorganic nitrates are also used, but the rapid action of NG and its established efficacy make it the mainstay of angina pectoris relief.

[Significance of cognitive processes in drug research in the 19th century--exemplified by nitroglycerin]. / Die Bedeutung kognitiver Prozesse in der Arzneimittelforschung im 19. Jahrhundert--Das Beispiel Nitroglycerin.

The history of the discovery and development of drugs is replete with examples where chance and "serendipity" have resulted in important advances of knowledge. In the case of nitroglycerin it can be shown that what appears to have been a chance discovery was actually the result of a sequence of selective perceptions by, and cognitive processes in individual researchers. The sources allow insight into various stages of the development of nitroglycerin, starting with the chemical synthesis as an explosive in 1846 and the first use in humans in 1847 to the discovery of a useful coronary drug. Homeopathic medicine contributed significantly to this process. Thus, the history of nitroglycerin is an example of an exchange of knowledge between otherwise separate realms of sectarian and orthodox medicine in the second half of the 19th century.

Historical aspects of nitrate therapy.

The exciting story of the development of nitrates as drugs in clinical medicine is briefly reviewed. Glyceryl trinitrate (nitroglycerin) was synthesised by Sombrero in 1847. Amyl nitrite was discovered a few years later and was used by Guthrie in 1859. The first report on the action of glyceryl trinitrate and amyl nitrite was published by Brunton in 1867, and further papers were published by Murell in 1879. Organic nitrates appeared in the 1930s. Krantz and co-workers synthesised and used mannide dinitrate, which was longer acting than the nitrates that had been used previously. Research on a similar drug, isosorbide dinitrate, was initiated by Porjé in Stockholm. The drug was first marketed in Sweden in 1946. Isosorbide dinitrate was independently synthesised in the United States by Harris and colleagues in the 1950s. The drug was used fairly extensively on both sides of the Atlantic. However, there was a temporary decrease in popularity around 1970 when Needleman and colleages reported oral nitrates to be of questionable value, as they underwent rapid biotransformation during first-pass metabolism in the liver. This opinion was later altered and today the drug enjoys worldwide acceptance in different formulations. Also, in recent years one of the active metabolites, isosorbide 5-mononitrate, has been marketed as an effective antianginal drug.