|Born||13 May 1883|
|Died||19 February 1962 (aged 78)|
Miami, Florida, U.S.
|Alma mater||University of Athens|
University of Munich
|Awards||Lasker-DeBakey Clinical Medical Research Award (1950)|
|Fields||Zoology, Pathology, Biology, Microscopy|
New York Hospital
University of Miami
Georgios Nikolaou Papanikolaou (or George Papanicolaou /ˌpæpəˈnɪkəlaʊ/; Greek: Γεώργιος Ν. Παπανικολάου [papanikoˈlau]; 13 May 1883 – 19 February 1962) was a Greek physician, zoologist and microscopist who was a pioneer in cytopathology and early cancer detection, and inventor of the "Pap smear".
After studying medicine in Greece and Germany, he emigrated in 1913 to the United States. He first reported that uterine cancer cells could be detected in vaginal smears in 1928, but his work was not widely recognized until the 1940s. An extensive trial of his techniques was carried out in the early 1950s. In 1961, he was invited to the University of Miami to lead and develop the Papanicolaou Cancer Research Institute there.
Life and career
Born in Kymi, Greece, Papanikolaou attended the University of Athens, where he studied literature, philosophy, languages and music. Urged by his father, he pursued a medical degree, which he received in 1904. Afterwards, he was conscripted into military service. When his obligation ended in 1906, he returned to Kymi to practice medicine with his father. In 1907, he began studying in Germany under Ernst Haeckel at the University of Jena for one semester before moving to University of Freiburg, where he was supervised by August Weismann. Again he left after one semester, this time to join University of Munich, from which he graduated with a PhD in zoology in 1910. Afterwards, Papanikolaou returned to Athens and married Andromachi Mavrogeni, who later became his laboratory assistant and research subject. He then departed for Monaco, where he worked for the Oceanographic Institute of Monaco, participating in the Oceanographic Exploration Team of Prince Albert I of Monaco (1911). In 1913, along with his wife, he immigrated to New York in order to work in the department of Pathology of New York Hospital and the Department of Anatomy at the Cornell Medical College of Cornell University.
Papanikolaou was also inspired by the philosophy of Immanuel Kant and Friedrich Nietzsche, Arthur Schopenhauer and Johann Wolfgang von Goethe, writing papers on philosophical matters for an Athenian literary quarterly. Nietzsche's philosophical thought was particularly crucial in shaping his character.
He first reported that uterine cancer could be diagnosed by means of a vaginal smear in 1928, but the importance of his work was not recognized until the publication, together with Herbert F. Traut (1894–1963), of Diagnosis of Uterine Cancer by the Vaginal Smear in 1943. The book discusses the preparation of vaginal and cervical smears, physiologic cytologic changes during the menstrual cycle, the effects of various pathological conditions, and the changes seen in the presence of cancer of the cervix and of the endometrium of the uterus. He thus became known for his invention of the Papanicolaou test, commonly known as the Pap smear or Pap test, which is used worldwide for the detection and prevention of cervical cancer and other cytologic diseases of the female reproductive system. He served
In 1961, he moved to Miami, Florida, to develop the Papanicolaou Cancer Research Institute at the University of Miami, but died there on 19 February 1962 due to a myocardial infarction. His wife Andromachi "Mary" Papanikolaou continued his work at the Papanicolaou Cancer Research Institute after his death, and died in Miami in October 1982.
In 1914, Papanikolaou and his wife worked at the Department of Anatomy at the Cornell Medical College of Cornell University and contributed to the histological and physiological changes associated with the oestrus cycle in the guinea pig. In 1917, Papanikolaou along with Charles R. Stockard demonstrated that, in the guinea pig, the histologic cyclic changes that occur in the reproductive tract during the estrus cycle also occur in the vaginal mucosa and can be detected by cytologic examination of vaginal smears. This technique (termed the Papanicolaou technique) was groundbreaking and also facilitated the discovery of an ovarian hormone.
Papanikolaou later began examining the human reproductive system. In 1920, he realized that he could tell the difference between normal and malignant cells on the cervix by viewing smears on a slide under a microscope. In 1925, with funds from the National Research Council and the Maternal Health Committee, Papanikolaou recruited 12 hospital staff volunteers, together with a number of pregnant gynecological and surgical patients, for a systematic study of cervical cell morphology. The participants were regurarly tested to determine normal hormonal changes and to diagnose early pregnancy. Upon examination of a slide made from a smear of one of the participant's vaginal fluid, Papanikolaou discovered that abnormal cancer cells could be plainly observed under a microscope. "The first observation of cancer cells in the smear of the uterine cervix," he later wrote, "gave me one of the greatest thrills I ever experienced during my scientific career."
In 1928, Papanikolaou told an incredulous audience of physicians about the noninvasive technique of gathering cellular debris from the lining of the vaginal tract and smearing it on a glass slide for microscopic examination as a way to identify cervical cancer. That year, he had undertaken a study of vaginal fluid in women, in hopes of observing cellular changes over the course of a menstrual cycle. In female guinea pigs, Papanicolaou had already noticed cell transformation and wanted to corroborate the phenomenon in human females. It happened that one of Papanikolaou's human subjects was suffering from uterine cancer.
At a 1928 medical conference in Battle Creek, Michigan, Papanikolaou introduced his low-cost, easily performed screening test for early detection of cancerous and precancerous cells. However, this potential medical breakthrough was initially met with skepticism and resistance from the medical community. Papanicolaou's next communication on the subject did not appear until 1941 when, with gynecologist Herbert Traut, he published a paper on the diagnostic value of vaginal smears in carcinoma of the uterus. This was followed two years later by an illustrated monograph based on a study of over 3,000 cases. In 1954, he published another memorable work, the Atlas of Exfoliative Cytology, thus creating the foundation of the modern medical specialty of cytopathology. The complete works of Papanicolaou as the founder of exfoliative cytology include 5 books and 158 original articles, all of which are summarised in his monographs.
The Romanian physician Aurel Babeș made similar discoveries in the cytologic diagnosis of cervical cancer. He discovered that if a platinum loop (rather than a cotton swab, as used by Papanikolaou and by modern doctors) was used to collect cells from a woman's cervix, and the cells were then dried on a slide and stained, it could be determined if cancer cells were present. This was the first screening test to diagnose cervical and uterine cancer. Babeș presented his findings to the Romanian Society of Gynaecology in Bucharest on 23 January 1927. His method of cancer diagnosis was published in a French medical journal, La Presse Médicale, on 11 April 1928, but Papanicolaou wasn't aware of his research . On the other hand, Babes was aware of Papanikolaou's studies. Moreover, the medical community has established that the two techniques are different in their design. Babeș' technique of preparing, staining and examining vaginal smears was substantially different from Papanicolaou's and would never have lent itself to mass screening for cervical cancer without modification. Recent scientific papers have analyzed the ways that Babeș's method was different from Papanikolaou's and note that the paternity of the Pap test belongs solely to Papanicolaou.
Although a few scholars believe that Babeș was the "true" pioneer in the cytologic diagnosis of cervical cancer, Papanikolaou is still widely considered the pioneer in the field by mainstream scholarship. In Romania, cervical testing is referred to as the Méthode Babeș-Papanicolaou in honor of both scientists.
Awards and honors
Papanikolaou was nominated for a Nobel Prize 5 times but won none. This was probably due to the fact that the prize is rarely awarded for diagnostic tools, as well as due to the fact that a death of one of Papanicolaou's great admirers, who was a member of the Nobel Prize Committee, occurred around that time and also due to the committee's reluctance to award a Nobel Prize for another cancer discovery following a former embarrassing award in 1926 to Johannes Febiger, who claimed that worms caused cancer. Nevertheless, Papanikolaou received many other prestigious prizes and awards for his discoveries, such as the Albert Lasker Award for Clinical Medical Research (the American equivalent to the Nobel Prize in Physiology), which he received in 1950. In total, he received hundreds of honorary awards.
These include honorary awards by the American Academy of Arts and Sciences, the Association of American Medical Colleges and the American Cancer Society. In 1949, the Medical School of the University of Athens named Papanikolaou an honorary doctorate, while the Academy of Athens in November 1957 proclaimed him an honorary member. In 1962, he was also posthumously given an award by the United Nations, after being nominated by the World Health Organization.
In 1958, "The Papanicolaou Award", the highest award given by the American Society of Cytopathology, was established in honor of Papanikolaou and awarded annually since.
In 1978, Papanikolaou's work was honored by the U.S. Postal Service with a 13-cent stamp for early cancer detection.
Between 1995 and 2001, his portrait appeared on the obverse of the Greek ₯10,000 banknote, until its replacement by the euro.
On 13 May 2019, the 136th anniversary of his birth, a Google Doodle featuring Papanikolaou was shown in North America, parts of South America, and parts of Europe and Israel.
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The method by Babes was radically different from that by Papanicolaou. Dr. Papanicolaou should receive the credit for the use of exfoliative cytology, the wet fixation, the staining technique, the systematic classification of cells with intermediate stages between the normal and the cancerous cell, and the envisioning that the method could be applied to large numbers of women in the cancer-bearing period of life to detect cervical cancer in its early stages, i.e., the "Pap test" as is commonly employed.
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- ^ Papanicolaou Award
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- "Guide to collection of Dr. Papanikolaou's Papers" (PDF). Weill Cornell Medical Center Archives..
- 1883 births
- 1962 deaths
- People from Euboea (regional unit)
- Greek oncologists
- Greek pathologists
- Greek inventors
- Members of the Academy of Athens (modern)
- Recipients of the Lasker-DeBakey Clinical Medical Research Award
- National and Kapodistrian University of Athens alumni
- University of Jena alumni
- University of Freiburg alumni
- Ludwig Maximilian University of Munich alumni
- Weill Medical College of Cornell University faculty
- NewYork–Presbyterian Hospital physicians
- University of Miami faculty
- Greek emigrants to the United States
- 20th-century Greek physicians
- 20th-century inventors
- 19th-century Greek Americans