Dr. Ignaz Semmelweis, aged 42 in 1860 copperplate engraving by Jen? Doby
Semmelweis Ignác Fülöp
July 1, 1818
|Died||August 13, 1865 (aged 47)|
|Citizenship||Kingdom of Hungary|
|Alma mater||University of Vienna|
University of Budapest
|Known for||Introducing hand disinfection standards, in obstetrical clinics, from 1847|
|Mária Weidenhofer (1837-1910) |
(married in 1857)
Ignaz Philipp Semmelweis[A] (German: ['na:ts 'z?ml?va?s]; Hungarian: Semmelweis Ignác Fülöp; 1 July 1818 - 13 August 1865) was a Hungarian physician and scientist, now known as an early pioneer of antiseptic procedures. Described as the "saviour of mothers", Semmelweis discovered that the incidence of puerperal fever (also known as "childbed fever") could be drastically cut by the use of hand disinfection in obstetrical clinics. Puerperal fever was common in mid-19th-century hospitals and often fatal. Semmelweis proposed the practice of washing hands with chlorinated lime solutions in 1847 while working in Vienna General Hospital's First Obstetrical Clinic, where doctors' wards had three times the mortality of midwives' wards. He published a book of his findings in Etiology, Concept and Prophylaxis of Childbed Fever.
Despite various publications of results where hand washing reduced mortality to below 1%, Semmelweis's observations conflicted with the established scientific and medical opinions of the time and his ideas were rejected by the medical community. He could offer no acceptable scientific explanation for his findings, and some doctors were offended at the suggestion that they should wash their hands and mocked him for it. In 1865, the increasingly outspoken Semmelweis supposedly suffered a nervous breakdown and was committed to an asylum by his colleagues. He died 14 days later after being beaten by the guards, from a gangrenous wound on his right hand which might have been caused by the beating. Semmelweis's practice earned widespread acceptance only years after his death, when Louis Pasteur confirmed the germ theory, and Joseph Lister, acting on the French microbiologist's research, practised and operated using hygienic methods, with great success.
Ignaz Semmelweis was born on 1 July 1818 in Tabán, a neighbourhood of Buda, Hungary, today part of Budapest. He was the fifth child out of ten of the prosperous grocer family of József Semmelweis and Teréz Müller.
Of German ancestry, his father was an ethnic German (hienc, stem from Heanzenland, a German term for the historical Western-Hungary) born in Kismarton, then part of Hungary, now Eisenstadt, Austria. He achieved permission to set up a shop in Buda in 1806[B] and, in the same year, opened a wholesale business for spices and general consumer goods.[C] The company was named Zum weißen Elefanten (At the White Elephant) in Meindl-Haus in Tabán (today's 1-3, Apród Street, Semmelweis Museum of Medical History). By 1810, he was a wealthy man and married Teréz Müller, daughter of the coachbuilder Fülöp Müller.
Ignaz Semmelweis began studying law at the University of Vienna in the autumn of 1837, but by the following year, for reasons that are no longer known, he had switched to medicine. He was awarded his doctor of medicine degree in 1844. Later, after failing to obtain an appointment in a clinic for internal medicine, Semmelweis decided to specialize in obstetrics. His teachers included Carl von Rokitansky, Joseph ?koda and Ferdinand von Hebra.
Semmelweis was appointed assistant to Professor Johann Klein in the First Obstetrical Clinic of the Vienna General Hospital on July 1, 1846.[D] A comparable position today in a United States hospital would be "chief resident." His duties were to examine patients each morning in preparation for the professor's rounds, supervise difficult deliveries, teach students of obstetrics and be "clerk" of records.
Maternity institutions were set up all over Europe to address problems of infanticide of illegitimate children. They were set up as gratis institutions and offered to care for the infants, which made them attractive to underprivileged women, including prostitutes. In return for the free services, the women would be subjects for the training of doctors and midwives.
Two maternity clinics were at the Viennese hospital. The First Clinic had an average maternal mortality rate of about 10% due to puerperal fever. The Second Clinic's rate was considerably lower, averaging less than 4%. This fact was known outside the hospital. The two clinics admitted on alternate days, but women begged to be admitted to the Second Clinic, due to the bad reputation of the First Clinic. Semmelweis described desperate women begging on their knees not to be admitted to the First Clinic. Some women even preferred to give birth in the streets, pretending to have given sudden birth en route to the hospital (a practice known as street births), which meant they would still qualify for the child care benefits without having been admitted to the clinic. Semmelweis was puzzled that puerperal fever was rare among women giving street births. "To me, it appeared logical that patients who experienced street births would become ill at least as frequently as those who delivered in the clinic. [...] What protected those who delivered outside the clinic from these destructive unknown endemic influences?"
Semmelweis was severely troubled that his First Clinic had a much higher mortality rate due to puerperal fever than the Second Clinic. It "made me so miserable that life seemed worthless". The two clinics used almost the same techniques, and Semmelweis started eliminating all possible differences, including even religious practices. The only major difference was the individuals who worked there. The First Clinic was the teaching service for medical students, while the Second Clinic had been selected in 1841 for the instruction of midwives only.
|First clinic||Second clinic|
|Year||Births||Deaths||Rate (%)||Births||Deaths||Rate (%)|
He excluded "overcrowding" as a cause, since the Second Clinic was always more crowded and yet the mortality was lower. He eliminated climate as a cause because the climate was the same.
Semmelweis' breakthrough occurred in 1847, following the death of his good friend Jakob Kolletschka, who had been accidentally poked with a student's scalpel while performing a post mortem examination. Kolletschka's own autopsy showed a pathology similar to that of the women who were dying from puerperal fever. Semmelweis immediately proposed a connection between cadaveric contamination and puerperal fever.
He proposed that he and the medical students carried "cadaverous particles" on their hands[E] from the autopsy room to the patients they examined in the First Obstetrical Clinic. This explained why the student midwives in the Second Clinic, who were not engaged in autopsies and had no contact with corpses, saw a much lower mortality rate.
The germ theory of disease had not yet been accepted in Vienna. Thus, Semmelweis concluded some unknown "cadaverous material" caused childbed fever. He instituted a policy of using a solution of chlorinated lime (calcium hypochlorite) for washing hands between autopsy work and the examination of patients. He did this because he found that this chlorinated solution worked best to remove the putrid smell of infected autopsy tissue, and thus perhaps destroyed the causal "poisonous" or contaminating "cadaveric" agent hypothetically being transmitted by this material.
The result was the mortality rate in the First Clinic declined 90%, and was then comparable to that in the Second Clinic. The mortality rate in April 1847 was 18.3%. After hand washing was instituted in mid-May, the rates in June were 2.2%, July 1.2%, August 1.9% and, for the first time since the introduction of anatomical orientation, the death rate was zero in two months in the year following this discovery.
Semmelweis's hypothesis, that there was only one cause, that all that mattered was cleanliness, was extreme at the time, and was largely ignored, rejected, or ridiculed. He was dismissed from the hospital for political reasons and harassed by the medical community in Vienna, being eventually forced to move to Budapest.
Semmelweis was outraged by the indifference of the medical profession and began writing open and increasingly angry letters to prominent European obstetricians, at times denouncing them as irresponsible murderers. His contemporaries, including his wife, believed he was losing his mind, and in 1865, nearly twenty years after his breakthrough, he was committed to the Landesirrenanstalt Döbling (provincial lunatic asylum). He died there of septic shock only 14 days later, possibly as the result of being severely beaten by guards. Semmelweis's practice earned widespread acceptance only years after his death, when Louis Pasteur further developed the germ theory of disease, offering a theoretical explanation for Semmelweis's findings. He is considered a pioneer of antiseptic procedures.
Semmelweis's observations conflicted with the established scientific and medical opinions of the time. The theory of diseases was highly influenced by ideas of an imbalance of the basic "four humours" in the body, a theory known as dyscrasia, for which the main treatment was bloodlettings. Medical texts at the time emphasized that each case of disease was unique, the result of a personal imbalance, and the main difficulty of the medical profession was to establish precisely each patient's unique situation, case by case.
The findings from autopsies of deceased women also showed a confusing multitude of physical signs, which emphasized the belief that puerperal fever was not one, but many different, yet unidentified, diseases.
The rejection of Semmelweis's empirical observations is often traced to belief perseverance, the psychological tendency of clinging to discredited beliefs. Also, some historians of science argue that resistance to path-breaking contributions of obscure scientists is common and "constitutes the single most formidable block to scientific advances."
As a result, his ideas were rejected by the medical community. Other, more subtle, factors may also have played a role. Some doctors, for instance, were offended at the suggestion that they should wash their hands, feeling that their social status as gentlemen was inconsistent with the idea that their hands could be unclean.[F]
Semmelweis's results lacked scientific explanation at the time. That became possible only in the 1860s and 1870s, when Louis Pasteur, Joseph Lister, and others further developed the germ theory of disease.
During 1848, Semmelweis widened the scope of his washing protocol, to include all instruments coming in contact with patients in labour, and used mortality rates time series to document his success in virtually eliminating puerperal fever from the hospital ward.
Toward the end of 1847, accounts of the work of Semmelweis (as well as the similar conclusions of Holmes, working in America) began to spread around Europe. Semmelweis and his students wrote letters to the directors of several prominent maternity clinics describing their recent observations. Ferdinand von Hebra, the editor of a leading Austrian medical journal, announced Semmelweis's discovery in the December 1847 and April 1848 issues of the medical journal. Hebra claimed that Semmelweis's work had a practical significance comparable to that of Edward Jenner's introduction of cowpox inoculations to prevent smallpox.
In late 1848, one of Semmelweis's former students wrote a lecture explaining Semmelweis's work. The lecture was presented before the Royal Medical and Surgical Society in London and a review published in The Lancet, a prominent medical journal.[G] A few months later, another of Semmelweis's former students published a similar essay in a French periodical.
As accounts of the dramatic reduction in mortality rates in Vienna were being circulated throughout Europe, Semmelweis had reason to expect that the chlorine washings would be widely adopted, saving tens of thousands of lives. Early responses to his work also gave clear signs of coming trouble, however. Some physicians had clearly misinterpreted his claims. James Young Simpson, for instance, saw no difference between Semmelweis's groundbreaking findings and the idea presented in an 1843 paper by Oliver Wendell Holmes that childbed fever was contagious (i.e. that infected persons could pass the infection to others). Indeed, initial responses to Semmelweis's findings were that he had said nothing new.
In fact, Semmelweis was warning against all decaying organic matter, not just against a specific contagion that originated from victims of childbed fever themselves. This misunderstanding, and others like it, occurred partly because Semmelweis's work was known only through secondhand reports written by his colleagues and students. At this crucial stage, Semmelweis himself had published nothing. These and similar misinterpretations continued to cloud discussions of his work throughout the century.
Some accounts emphasize that Semmelweis refused to communicate his method officially to the learned circles of Vienna, nor was he eager to explain it on paper.
In 1848, a series of tumultuous revolutions swept across Europe. The resulting political turmoil would affect Semmelweis's career. In Vienna on 13 March 1848 students demonstrated in favor of increased civil rights, including trial by jury and freedom of expression. The demonstrations were led by medical students and young faculty members and were joined by workers from the suburbs. Two days later in Hungary, demonstrations and uprisings led to the Hungarian Revolution of 1848 and a full-scale war against the ruling Habsburgs of the Austrian Empire. In Vienna, the March demonstration was followed by months of general unrest.
No evidence indicates Semmelweis was personally involved in the events of 1848. Some of his brothers were punished for active participation in the Hungarian independence movement, and the Hungarian-born Semmelweis likely was sympathetic to the cause. Semmelweis's superior, professor Johann Klein, was a conservative Austrian, likely uneasy with the independence movements and alarmed by the other revolutions of 1848 in the Habsburg areas. Klein probably mistrusted Semmelweis.
When Semmelweis's term was about to expire, Carl Braun also applied for the position of "assistant" in the First Clinic, possibly at Klein's own invitation. Semmelweis and Braun were the only two applicants for the post. Semmelweis's predecessor, Franz Breit, had been granted a two-year extension. Semmelweis's application for an extension was supported by Joseph ?koda and Carl von Rokitansky and by most of the medical faculty, but Klein chose Braun for the position. Semmelweis was obliged to leave the obstetrical clinic when his term expired on March 20, 1849.
The day his term expired, Semmelweis petitioned the Viennese authorities to be made docent of obstetrics. A docent was a private lecturer who taught students and who had access to some university facilities. At first, because of Klein's opposition, Semmelweis's petition was denied. He reapplied, but had to wait until 10 October 1850 (more than 18 months), before finally being appointed docent of 'theoretical' obstetrics. The terms refused him access to cadavers and limited him to teaching students by using leather-fabricated mannequins only. A few days after being notified of his appointment, Semmelweis left Vienna abruptly and returned to Pest. He apparently left without so much as saying good-bye to his former friends and colleagues, a move that might have offended them. According to his own account, he left Vienna because he was "unable to endure further frustrations in dealing with the Viennese medical establishment".
During 1848-1849, some troops from the Habsburg-ruled Austrian Empire thwarted the Hungarian independence movement, executed or imprisoned its leaders and in the process destroyed parts of Pest. Semmelweis, upon arriving from the Habsburg Vienna in 1850, likely was not warmly welcomed in Pest.
On 20 May 1851, Semmelweis took the relatively insignificant, unpaid, honorary head-physician position of the obstetric ward of Pest's small Szent Rókus Hospital. He held that position for six years, until June 1857. Childbed fever was rampant at the clinic; at a visit in 1850, just after returning to Pest, Semmelweis found one fresh corpse, another patient in severe agony, and four others seriously ill with the disease. After taking over in 1851, Semmelweis virtually eliminated the disease. During 1851-1855, only eight patients died from childbed fever out of 933 births (0.85%).
Despite the impressive results, Semmelweis's ideas were not accepted by the other obstetricians in Budapest. The professor of obstetrics at the University of Pest, Ede Flórián Birly, never adopted Semmelweis's methods. He continued to believe that puerperal fever was due to uncleanliness of the bowel. Therefore, extensive purging was the preferred treatment.
After Birly died in 1854, Semmelweis applied for the position. So did Carl Braun--Semmelweis's nemesis and successor as Johann Klein's assistant in Vienna--and Braun received more votes from his Hungarian colleagues than Semmelweis did. Semmelweis was eventually appointed in 1855, but only because the Viennese authorities overruled the wishes of the Hungarians, as Braun did not speak Hungarian. As professor of obstetrics, Semmelweis instituted chlorine washings at the University of Pest maternity clinic. Once again, the results were impressive.
Semmelweis declined an offer in 1857 to become professor of obstetrics at the University of Zurich. The same year, Semmelweis married Mária Weidenhofer (1837-1910), 19 years his junior and the daughter of a successful merchant in Pest. They had five children.
Semmelweis's views were much more favorably received in the United Kingdom than on the continent, but he was more often cited than understood. The British consistently regarded Semmelweis as having supported their theory of contagion. A typical example was W. Tyler Smith, who claimed that Semmelweis "made out very conclusively" that "miasms derived from the dissecting room will excite puerperal disease." One of the first to respond to Semmelweis's 1848 communications was James Young Simpson, who wrote a stinging letter. Simpson surmised that the British obstetrical literature must be totally unknown in Vienna, or Semmelweis would have known that the British had long regarded childbed fever as contagious and would have employed chlorine washing to protect against it.
In 1856, Semmelweis's assistant Josef Fleischer reported the successful results of hand washing activities at St. Rochus and Pest maternity institutions in the Viennese Medical Weekly (Wiener Medizinische Wochenschrift). The editor remarked sarcastically that it was time people stopped being misled about the theory of chlorine washings. Two years later, Semmelweis finally published his own account of his work in an essay entitled "The Etiology of Childbed Fever".[H] Two years after that, he published a second essay, "The Difference in Opinion between Myself and the English Physicians regarding Childbed Fever".[I] In 1861, Semmelweis finally published his main work Die Ätiologie, der Begriff und die Prophylaxis des Kindbettfiebers (German for "The Etiology, Concept and Prophylaxis of Childbed Fever").[J] In his 1861 book, Semmelweis lamented the slow adoption of his ideas: "Most medical lecture halls continue to resound with lectures on epidemic childbed fever and with discourses against my theories. [...] In published medical works my teachings are either ignored or attacked. The medical faculty at Würzburg awarded a prize to a monograph written in 1859 in which my teachings were rejected".[K]
In a textbook, Carl Braun, Semmelweis's successor as assistant in the first clinic, identified 30 causes of childbed fever; only the 28th of these was cadaverous infection. Other causes included conception and pregnancy, uremia, pressure exerted on adjacent organs by the shrinking uterus, emotional traumata, mistakes in diet, chilling, and atmospheric epidemic influences.[L]
Despite this opposition, Braun, who was Assistant in the First Division in the period April 1849 to Summer 1853, maintained a relatively low mortality rate in the First Division, roughly consistent with the rate Semmelweis himself achieved, as mortality rates in the period April 1849 to end 1853 show. These results suggest that Braun continued, assiduously, to require the chlorine washings.
At a conference of German physicians and natural scientists, most of the speakers rejected his doctrine, including the celebrated Rudolf Virchow, who was a scientist of the highest authority of his time. Virchow's great authority in medical circles contributed potently to Semmelweis' lack of recognition.Ede Flórián Birly, Semmelweis's predecessor as Professor of Obstetrics at the University of Pest, never accepted Semmelweis's teachings; he continued to believe that puerperal fever was due to uncleanliness of the bowel.August Breisky, an obstetrician in Prague, rejected Semmelweis's book as "naïve" and he referred to it as "the Koran of puerperal theology". Breisky objected that Semmelweis had not proved that puerperal fever and pyemia are identical, and he insisted that other factors beyond decaying organic matter certainly had to be included in the etiology of the disease.Carl Edvard Marius Levy, head of the Copenhagen maternity hospital and an outspoken critic of Semmelweis's ideas, had reservations concerning the unspecific nature of cadaverous particles and that the supposed quantities were unreasonably small. In fact, Robert Koch later used precisely this fact to prove that various infecting materials contained living organisms which could reproduce in the human body; that is, since the poison could be neither chemical nor physical in operation, it must be biological.
It has been contended that Semmelweis could have had an even greater impact if he had managed to communicate his findings more effectively and avoid antagonising the medical establishment, even given the opposition from entrenched viewpoints.
Beginning in 1861, Semmelweis suffered from various nervous complaints. He suffered from severe depression and became absentminded. He turned every conversation to the topic of childbed fever.
After a number of unfavorable foreign reviews of his 1861 book, Semmelweis lashed out against his critics in a series of open letters.[M] They were addressed to various prominent European obstetricians, including Späth, Scanzoni, Siebold, and to "all obstetricians". They were full of bitterness, desperation, and fury and were "highly polemical and superlatively offensive", at times denouncing his critics as irresponsible murderers or ignoramuses. He also called upon Siebold to arrange a meeting of German obstetricians somewhere in Germany to provide a forum for discussions on puerperal fever, where he would stay "until all have been converted to his theory."
In mid-1865, his public behaviour became exasperating and embarrassing to his associates. He also began to drink immoderately; he spent progressively more time away from his family, sometimes in the company of a prostitute; and his wife noticed changes in his sexual behavior. On July 13, 1865, the Semmelweis family visited friends, and during the visit Semmelweis's behavior seemed particularly inappropriate.
The exact nature of Semmelweis's affliction has been a subject of some debate. According to K Codell Carter, in his biography of Semmelweis, the exact nature of his affliction cannot be determined:
It is impossible to appraise the nature of Semmelweis's disorder. ... It might have been Alzheimer's disease, a type of dementia, which is associated with rapid cognitive decline and mood changes. It might have been third-stage syphilis, a then-common disease of obstetricians who examined thousands of women at gratis institutions, or it might have been emotional exhaustion from overwork and stress.
In 1865, János Balassa wrote a document referring Semmelweis to a mental institution. On July 30, Ferdinand Ritter von Hebra lured him, under the pretense of visiting one of Hebra's "new Institutes", to a Viennese insane asylum located in Lazarettgasse (Landes-Irren-Anstalt in der Lazarettgasse). Semmelweis surmised what was happening and tried to leave. He was severely beaten by several guards, secured in a straitjacket, and confined to a darkened cell. Apart from the straitjacket, treatments at the mental institution included dousing with cold water and administering castor oil, a laxative. He died after two weeks, on August 13, 1865, aged 47, from a gangrenous wound, due to an infection on his right hand which might have been caused by the struggle. The autopsy gave the cause of death as pyemia--blood poisoning.
Semmelweis was buried in Vienna on August 15, 1865. Only a few people attended the service. Brief announcements of his death appeared in a few medical periodicals in Vienna and Budapest. Although the rules of the Hungarian Association of Physicians and Natural Scientists specified that a commemorative address be delivered in honor of a member who had died in the preceding year, there was no address for Semmelweis; his death was never even mentioned.
János Diescher was appointed Semmelweis's successor at the Pest University maternity clinic. Immediately, mortality rates increased sixfold to 6%, but the physicians of Budapest said nothing; there were no inquiries and no protests. Almost no one--either in Vienna or in Budapest--seems to have been willing to acknowledge Semmelweis's life and work.
His remains were transferred to Budapest in 1891. On 11 October 1964, they were transferred once more to the house in which he was born. The house is now a historical museum and library, honoring Ignaz Semmelweis.
Semmelweis' advice on chlorine washings was probably more influential than he realized. Many doctors, particularly in Germany, appeared quite willing to experiment with the practical hand washing measures that he proposed--although virtually everyone rejected his basic and ground-breaking theoretical innovation: that the disease had only one cause, lack of cleanliness.Gustav Adolf Michaelis, a professor at a maternity institution in Kiel, replied positively to Semmelweis' suggestions, but eventually committed suicide, feeling responsible for the death of his own cousin, whom he had examined after she gave birth.
Only belatedly did his observational evidence gain wide acceptance; more than twenty years later, Louis Pasteur's work offered a theoretical explanation for Semmelweis' observations: the germ theory of disease. As such, the Semmelweis story is often used in university courses with epistemology content, e.g. philosophy of science courses--demonstrating the virtues of empiricism or positivism and providing a historical account of which types of knowledge count as scientific (and thus accepted) knowledge, and which do not. C. Hempel, just to mention one, dedicated the first pages of his Philosophy of Natural Science to Semmelweis, arguing that the latter's method is typical of contemporary scientific research, in that the doctor framed a series of hypothesis, verifying them through falsifying experiments in accordance with Hempel's deductive-nomological model. It has been seen as an irony that Semmelweis' critics considered themselves positivists, but even positivism suffers problems in the face of theories which seem magical or superstitious, such as the idea that "corpse particles" might turn a person into a corpse, with no causal mechanism being stipulated, after a simple contact. To his contemporaries, Semmelweis seemed to be reverting to the speculative theories of earlier decades that were so repugnant to his positivist contemporaries.
The so-called Semmelweis reflex--a metaphor for a certain type of human behaviour characterized by reflex-like rejection of new knowledge because it contradicts entrenched norms, beliefs, or paradigms--is named after Semmelweis, whose ideas were ridiculed and rejected by his contemporaries.
Other legacies of Semmelweis include:
Wir glaubten diese Chlorwaschungs-Theorie habe sich längst überlebt; die Erfahrungen und statistischen Ausweisse der meisten geburtshilflichen Anstalten protestieren gegen ubige Anschanung; es wäre an der Zeit sich von dieser Theorie nicht weiter irreführen zu lassen.
Only the clinical facts proved him right during his lifetime; the triumph of bacteriology which began after his death made him not only the "savior of mothers" but also a genial ancestor of bacteriology.
The new gold coin with a face value of 50 Euro has a portrait of the celebrated doctor himself together with the staff of Aesculapius, which is the logo for the entire series. The reverse has a bird's-eye view of the old General Hospital in Vienna, where Semmelweis was stationed in the childbirth clinic. An insert to the right shows a doctor and a student in the act of disinfecting their hands before examining a patient.