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Frog test
The frog test is a pregnancy testing method relying on frogs to show the pregnancy status of women. Provided that immunological pregnancy tests were not yet developed before 1960s, women living a century ago relied on urine-based pregnancy tests using different animals, ranging from mice to frogs. Nowadays, the advancement in medical technology has enabled women to accurately check their pregnancy status by using 'pee-on-a-stick' pregnancy test kits at home. Before these accessible and convenient test kits were invented, scientists strived to discover a way in spotting pregnancy-related hormones by a natural, simple test, where animals were often included as clinical tools to facilitate the process. The frog test or frog pregnancy test is one of the past prevalent pregnancy scanning methods.
Throughout history, there have been different frog tests with the aim of indicating the pregnancy status of women. The most well known frog test, is the Hogben test, which is a pregnancy testing method prevalent throughout the 1940s to 1960s, by using the underlying principle of hormones and its subsequent biological response in both genders of certain frog species. The Galli-Mainini test is another frog test developed based on similar principles.
Widespread export and traffic in African clawed frogs used for these tests is believed to have been the primary cause of the intercontinental spread of chytridiomycosis.
Background
Human chorionic gonadotrophin (hCG) is a hormone that is produced when a woman is pregnant, and this is because the placenta is responsible for its production. It takes approximately 9 days for the fertilized egg to move from the fallopian tubes to the uterus, where it implants itself into the walls of the uterus. Then, the placenta will begin to develop and release hCG into the mother's bloodstream, which can get passed into the urine. It takes around 6 days after the implantation of the fertilized egg, or just after the first menstrual period is missed, to detect hCG levels in the blood. The pee-on-a-stick pregnancy test only detects the presence of hCG, and cannot measure the level of hCG in the blood. Therefore, they can be used as a screening for pregnancy, however the level of hCG can also provide information about the pregnancy. Normally, the hCG level increases and peaks at the first 14 weeks of pregnancy, and no hCG is detected after the delivery of the baby. The amount of hCG can also reflect the pregnancy. Less hCG is released in a single pregnancy. Similarly, more hCG is released if the mother is carrying triplets, than if she is carrying twins. hCG blood tests can also screen for birth defects.
In an individual, hCG should not be present unless they are pregnant. However, hCG can also be produced by germ cell tumours, which are tumours from eggs or sperms. The hCG test can be used to screen for uterus cancer, or a molar pregnancy, which is when there is abnormal placental growth in the uterus. The hCG test can also be done after a miscarriage to ensure that a molar pregnancy is not present. In men, the hCG test can be used to screen for the presence of testicular cancer.
Hogben test
The Hogben test, named after the British zoologist Lancelot Hogben, was one of the most reliable and rapid pregnancy tests from the 1940s to the 1960s. The urine samples were injected into African clawed frogs. The Hogben test uses female frogs, unlike the Galli-Mainini test which uses male frogs.
Hogben's earlier works revolved around pituitary hormones and frogs. One day, Hogben and his team observed that the skin colour of the adult frogs was dependent on their growing environment. The colour ranges from a dark environment which led to black skin colour, to a light environment where light-coloured frogs were found. Hogben hypothesized this interesting phenomenon by the result of the pituitary gland's presence. Hogben validated his hypothesis by proving that the removal of the pituitary gland would result in the white skin colour of frogs regardless of their growing environment. More significantly, during his study of the frog pituitary gland, he discovered female frogs would ovulate, after the injection of ox pituitary gland extracts into its dorsal lymph sac, which created a basis for his future discovery.
While Hogben was carrying on with his work when he moved to South Africa in 1927, where his research revolved around injecting Xenopus laevis with ox' pituitary gland extracts, he accidentally discovered that Xenopus frogs would ovulate within a day if they were injected with pituitary extracts, as they were very sensitive to any hormonal changes. During this period, scientists knew that women contained pituitary hormones in their urine, and Hogben came to a realization that perhaps the presence of pituitary hormones in pregnant women's urine could also be detected through an ovulating response in these frogs. Upon this unearthing, Hogben and another animal geneticist Francis Albert Eley Crew spent two years developing a way to raise and maintain these frogs in a lab setting, which led to a twenty-year boom in Hogben tests, which were claimed to be nearly 100% accurate.
Testing procedures for the Hogben test
The Hogben test procedure consisted of injecting a sample of women's urine into the skin on the back of the frog, specifically into the dorsal lymph sac. Around 12 hours later, results could be seen. If the woman was pregnant, then the frog would be ovulating, and a small cluster of eggs could be seen at the rear end of the frog. Interestingly, the same could be observed in the male species of Xenopus laevis as well, and they were seen to produce sperm upon injection of a pregnant woman's urine. This mechanism is due to the pituitary hormone human chorionic gonadotropin (hCG), which is present only in a pregnant woman's urine. If the woman is not pregnant, no sperm or egg would be produced from the male or female frog respectively.
Advantages
Previous pregnancy tests, called A-Z tests or rabbit tests, were troublesome and time-consuming. They consisted of injecting women's urine twice a day, for three days, into mice or rabbits. Then, the mice would have to be killed and scientists would examine if the mice had enlarged ovaries. This ovary growth is due to the hCG. Hogben tests were soon more popular and performed more widely than the A-Z tests because results could be seen in less than a day, and yielded highly accurate results. Moreover, Hogben tests did not involve killing the frogs, so each frog could be reused again, unlike in the A-Z tests where the rodents would have to be killed to examine ovary enlargement. Xenopus laevis were also easier to maintain than rodents, and raising them came at a lower cost. This efficient and reliable Hogben test was used till the development of an even simpler and animal-free pregnancy test in the late 1960s.
Development of applications
The frog test had been a highly dependable pregnancy testing method since the 1930s until the immunological test was presented in the 1960s.Pharmacists would inject the female's early urine sample into the frogs and confirm their pregnancy with the spawning of eggs within 18 hours. However, there was a critical prerequisite for accurately performing the test. Women should wait for a few more days after the mark of their late menstruation. As the test was incredibly helpful and considerably time-effective, many countries started to import Xenopus laevis, which contributed to the spread of this species across Europe, Australia, Asia, North America, and almost everywhere around the globe.
Today, Hogben's test has become obsolete, however, it has made Xenopus frogs an important model and organism in the scientific community, and the Xenopus species are used to study a wide variety of diseases. Even the tadpoles of the Xenopus species have been incorporated as an organism used in the study of developmental biology, such as in frog-based diagnostic tools of polycystic kidney disease.
Galli-Mainini test
Carlos Galli Mainini (1914–1961), who also specialized in endocrinology, tried to improve on the existing Hogben's test, which took over 12 hours for early screening of pregnancy. After making the observation that male frogs or toads generate spermatozoa after long contact with female frogs, the gonadotropic hormone would be secreted from the females' bodies. He realized the female frogs used in Hogben's test could be replaced by South American male frogs or toads. Women's urine could be injected into the adult male frog's dorsal lymph sac. The gonadotropic hormone in the urine of pregnant women, after injection, would lead to the release of sperms from the frogs.
This new testing method became widely used as it was even more efficient, with only 3 hours of waiting time for the results. He found different species suitable for this experiment, mostly indigenous frogs from Israel, like the European green toad, marsh frog, and European tree frog.
A-Z Test | Rabbit Test/ Friedman Test | Hogben Test | Galli-Mainini Test | |
---|---|---|---|---|
Developer | German gynecologists Selmar Aschheim and Bernhard Zondek | Maurice Friedman and Maxwell Edward Lapham | Lancelot Thomas Hogben | Galli Mainini |
Year of Discovery | 1927 | 1931 | 1930 | 1947 |
Mechanism of Action | identify hCG presence in pregnant women urine | |||
Procedure | Inject woman urine into immature female mice | Inject women urine to rabbits intravenously | Inject the female's early urine sample into the dorsal sac of frogs | |
Indication of positive test result | Upon dissection of mice, enlargement of ovaries and follicular maturation could be observed | Upon dissection of rabbits, enlargement of ovaries and follicularmaturation could be observed | A cluster of millimeter-sized, black-and-white spheres, which were eggs, ejected from frogs | Ejection of the spermatozoa of male toads |
Animal used | Mice | Rabbit | African clawed frog | mature toads- male toads (Bufo arenarum Hensel) |
Duration of test | A few days after injection of urine | Approximately 48 hours after injection | 5–18 hours after injection | After the 5th hour of injection |
Advantages | Reliable with error rate < 2% | Reliable | Reliable (99.8% accuracy), no frogs being killed, time-effective | Reliable, Rapid Response |
Drawbacks | Killing of mice, long waiting time for results | Expensive, multiple rabbits killed if results are inconclusive, long waiting time for results | Women have to wait for a few days after the mark of their late menstruation to perform the test | Not all species of male toads could be used |
Similar to the Hogben test, a small amount of the women's urine would be injected into the dorsal lymph sac of the male frog. Pregnant women contain the hormone human chorionic gonadotrophin in their urine. Therefore the presence of this hormone in the urine injected into the male frog, would cause the frog to release sperm within three hours. The sperm cells can be seen under a microscope. This procedure is painless for the frog, and the frog can be reused for another test after 2 weeks.
After the suggestions of male frog species for pregnancy tests, researchers had been working on the validation of the accuracy of the test, by ruling out other possible sources that led to the presence of mature living spermatozoa in male frogs' urine. It was found that dry northern leopard frogs would be especially sensitive to distilled water and less sensitive to the gonadotropic hormone. Some further methods to improve accuracy were also suggested.