A Chronology for the Identification and Disclosure of Adverse Effects of Succinylcholine.

BACKGROUND: New therapies are created to address specific problems and enjoy popularity as they enter widespread clinical use. Broader use can reveal unknown adverse effects and impact the life cycle significantly. Succinylcholine, a depolarizing neuromuscular blocker, was the product of decades of research surrounding the ancient compound, curare. It was introduced into practice in the 1950s by Burroughs Wellcome and Company (BW Co) and was welcomed due to its rapidly acting muscle relaxation effects. Global clinical use revealed adverse effects, both minor and major, in particular, hyperkalemia and malignant hyperthermia. We investigated when practitioners and the manufacturer became aware of these adverse effects, how information about these side effects was disseminated, and whether the manufacturer met the regulatory requirements of the time, specifically regarding the timely reporting of adverse effects. SOURCES: Primary literature search using online and archived documents was conducted at the Wood Library-Museum of Anesthesiology, Schaumburg, IL. We consulted documents submitted by BW Co to federal authorities, through the Freedom of Information Act (FOIA), Food and Drug Administration (FDA) reports, promotional advertisements, package inserts, published articles, and textbooks. RESULTS: Initial clinical testing in humans in 1952 found no adverse effects on cardiovascular or respiratory systems. Fasciculations and myalgia were early side effects described in case reports in 1952. Large-scale clinical trials in 1953 found abnormally long recovery times among some patients; the discovery of abnormal pseudocholinesterase enzyme activity was not fully demonstrated until the early 1960s. Bradycardia was first reported in 1957 in children, and in 1959 in adults. In 1960, animal studies reported a transient increase in plasma potassium; further experiments in 1969 clearly demonstrated succinylcholine-induced hyperkalemia in burn patients. Malignant hyperthermia was first described in 1966. Similar cases of elevated temperatures and muscle rigidity were described globally but the underlying mechanism was not elucidated until the 1990s. Standard anesthesia textbooks did not report major side effects of succinylcholine until 1960 and included newly documented side effects with each edition. BW Co's packaging contained warnings as early as the 1950s but were later updated in 1962 and beyond to reflect the newly discovered hyperkalemia and malignant hyperthermia. CONCLUSION: Particularly given the regulatory environment of the time, BW Co appropriately reported the adverse effects of succinylcholine after market entry; it updated promotional and packaging material in a timely manner to reflect newly discovered adverse effects. The toxicity, though alarming and put clinicians on alert, did not seem to heavily impact succinylcholine's use, given its various desirable properties. It is still a choice muscle relaxant used today, although there are efforts to develop superior agents to replace succinylcholine.

Daniel Bovet, Nobelist: muscle relaxants in anaesthesia : The role played by two neglected protagonists.

In 1957, Professor Daniel Bovet received the Nobel Prize in Physiology or Medicine for his studies on various compounds including the muscle relaxants gallamine and succinylcholine that became very useful in anaesthesia. Textbooks credit Professor Bovet for the discovery of these drugs. However, although he indeed did discover their pharmacological character, the actual syntheses were made by Ernest Fourneau and Reid Hunt, respectively; sadly, these two scientists have largely been ignored. In this paper, a brief biography of Bovet is presented along with some of his more notable accomplishments. Particular emphasis has been placed on gallamine and succinylcholine along with their history. In an attempt to undo the "injustice" dealt to both Fourneau and Hunt, brief accounts of their history, story and character are provided.

[Muscle relaxants]. / Muskelrelakserende midler.

BACKGROUND: Muscle relaxants were introduced into clinical anaesthesia for the first time in 1942. The purpose of this article is to provide an overview of the history of muscle relaxants, their mode of action and their role in current anaesthetic practice. MATERIAL AND METHOD: The review is based on clinical experience, own research and a non-systematic literature search using PubMed. RESULTS: A muscle relaxant is either suxamethonium (curacit) or one of many curare compounds. One of the curare drugs was brought to Europe from South America in the 1700 s and the active substance (called d-tubocurarine) was isolated in 1935. This type of drug paralyses striated muscles that are under voluntary control by interfering with the normal signalling system between nerve and muscle. Muscle relaxants provide optimal relaxation of skeletal muscles during surgical procedures, an effect that otherwise may require the use of high doses of anaesthetic drugs. However, muscle relaxants are not anaesthetic drugs, do not affect consciousness and have no pain relieving effect. A muscle relaxant that works optimally in all clinical settings has unfortunately not been developed so far. INTERPRETATION: Muscle relaxants are generally safe drugs when used appropriately, but especially suxamethonium may have serious side effects. A muscle relaxant is regularly used during induction of anaesthesia, but less during surgery, because modern anaesthetics possess some muscle relaxing effect.