Abstract
In the context of the reproductive system, the names of Fallopius and de Graaf are widely known to students working in this now distinctive field of physiology. However, it is historians rather than physiologists who are perhaps best placed to appreciate the remarkable good fortune of Fallopius (Gabriele Fallopio 1523–1562) in the sphere of medical discovery. Almost a contemporary of Andreas Vesalius at Padua, he was at first a pupil of this distinguished anatomist and yet it was to be the name of Fallopius — and not that of his master — which would lend itself to quite specialised portions of the female genital tract. How did this situation arise? The history of earlier endeavours appears in part to be one of misinterpretation coupled with a too-willing acceptance of the dogma handed down the ages. Instead of reviewing this saga in detail, a task which itself could lead to the writing of a weighty volume, only a few highlights and personalities are touched upon in the following pages. The objective has been to pave the way for the more substantial contents of subsequent chapters.
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References
Andersen DH (1927a) Lymphatics of the Fallopian tube of the sow. Contrib Embryol Carneg Instn 19:135–148
Andersen DH (1927b) The rate of passage of the mammalian ovum through various portions of the Fallopian tube. Am J Physiol 82:557–569
Andersen DH (1928) Comparative anatomy of the tubo-uterine junction. Histology and physiology in the sow. Am J Anat 42:255–305
von Baer KE (1827) De ovi mammalium et hominis genesi. Leipzig
Barry M (1843) Spermatozoa observed within the mammiferous ovum. Phil Trans Roy Soc B 133:33
Bischoff TLW (1842) Entwicklungsgeschichte des Kanincheneies. Braunschweig
Bischoff TLW (1854) Entwicklungsgeschichte des Rehes. Gießen
Blundell J (1819) Experiments on a few controverted points respecting the physiology of generation. Med Chir Soc Trans 10:245–272
Bodemer CW (1969) History of the mammalian oviduct. In: Hafez ESE, Blandau RJ (eds) The mammalian oviduct. University of Chicago Press, Chicago, pp 3–26
Borland RM, Biggers JD, Lechene CP, Taymor ML (1980) Elemental composition of fluid in the human Fallopian tube. J Reprod Fertil 58:479–482
Brenner R (1969a) The biology of oviductal cilia. In: Hafez ESE, Blandau RJ (eds) The mammalian oviduct. University of Chicago Press, Chicago, pp 203–229
Brenner R (1969b) Renewal of oviduct cilia during the menstrual cycle in the Rhesus monkey. Fertil Steril 20:599–611
Brundin J (1964) The distribution of noradrenaline and adrenaline in the Fallopian tube of the rabbit. Acta Physiol Scand 62:156–159
Corner GW (1921) Abnormalities of the mammalian embryo occurring before implantation. Contrib Embryol Carneg Instn 13:61–66
Corner GW (1923) Cyclic variation in uterine and tubal contraction waves. Am J Anat 32:345–351
Coutinho EM, Maia H (1971) The contractile response of the human uterus, Fallopian tubes and ovary to prostaglandins in vivo. Fertil Steril 22:539–543
Cruickshank W (1797) Experiments in which, on the third day after impregnation, the ova of rabbits were found in the Fallopian tubes; and on the fourth day after impregnation in the uterus itself; with the first appearance of the foetus. Phil Trans Roy Soc 87:197–214
De Graaf R (1672) De mulierum organis generationi inservientibus. Leyden
Estes WL Jr (1924) Ovarian implantation. Surg Gynecol Obstet 38:394–398
Estes WL Jr, Heitmeyer PL (1934) Pregnancy following ovarian implantation. Am J Surg 24:563–580
Fallopius G (1561) Observationes anatomicae. Venice
Gomel V (1980) Microsurgical reversal of female sterilization: a reappraisal. Fertil Steril 33:587–597
Green-Armytage VB (1959) Recent advances in the surgery of infertility. J Obstet Gynaecol Brit Emp 66:32–39
Greenwald GS (1961) A study of the transport of ova through the rabbit oviduct. Fertil Steril 12:80–95
Greep RO (ed) (1973) Handbook of physiology. Section 7 Endocrinology II. Female Reproductive System Part II. American Physiological Society, Washington DC
Hafez ESE, Blandau RJ (eds) (1969) The mammalian oviduct. University of Chicago Press, Chicago
Hamner CE, Williams WL (1965) Composition of rabbit oviduct secretions. Fertil Steril 16:170–176
Harper MJK (1961) The mechanisms involved in the movement of newly ovulated eggs through the ampulla of the rabbit Fallopian tube. J Reprod Fertil 2:522–524
Harper MJK, Pauerstein CJ, Adams CE, Coutinho EM, Croxatto HB, Paton DM (1976) Symposium on ovum transport and fertility regulation. Scriptor, Copenhagen
Harvey W (1651) Exercitationes de generatione animalium. London
Herrlinger R, Feiner E (1964) Why did Vesalius not discover the Fallopian tubes? Med Hist 8:335–341
Heuser CH (1927) A study of the implantation of the ovum of the pig. Contrib Embryol Carneg Instn 19:229–243
Heuser CH, Streeter GL (1929) Early stages in the development of pig embryos. Contrib Embryol Carneg Instn 20:1–30
Holst PJ, Cox RI, Braden AWH (1970) The distribution of noradrenaline in the sheep oviduct. Aust J Exp Biol Med Sci 48:563–565
Horton EW, Main IHM, Thompson CJ (1965) Effects of prostaglandins on the oviduct, studied in rabbits and ewes. J Physiol 180:514–528
Hunter RHF (1977) Function and malfunction of the Fallopian tubes in relation to gametes, embryos and hormones. Europ J Obstet Gynecol Reprod Biol 7:267–283
Hunter RHF (1982) Anatomy and physiology of the Fallopian tube. In: Chamberlain G, Winston R (eds) Tubal infertility: diagnosis and treatment. Blackwell Sci Publ, Oxford, pp 1–29
Johnson AD, Foley CW (eds) (1974) The oviduct and its functions. Academic Press, New York Lams H (1913) Étude de l’oeuf de cobaye aux premiers stades de l’embryogenèse. Arch Biol Paris 28:229–323
Leese HJ (1983) Studies on the movement of glucose, pyruvate and lactate into the ampulla and isthmus of the rabbit oviduct. Q JI Exp Physiol 68:89–96
Leese HJ, Gray SM (1985) Vascular perfusion: a novel means of studying oviduct function. Am J Physiol 248:E624–E632
Mastroianni L Jr, Shah U, Abdul-Karim R (1961) Prolonged volumetric collection of oviduct fluid ih Rhesus monkey. Fertil Steril 12:417–424
Morton H, Hegh V, Clunie GJA (1976) Studies of the rosette inhibition test in pregnant mice: evidence of immunosuppression. Proc R Soc B 193:413–419
Nancarrow CD, Wallace ALC, Grewal AS (1981) The early pregnancy factor of sheep and cattle. J Reprod Fertil Suppl 30:191–199
Nilsson O, Reinius S (1969) Light and electron microscopic structure of the oviduct. In: Hafez ESE, Blandau RJ (eds) The mammalian oviduct. University of Chicago Press, Chicago, pp 57–83
O’Neill C (1985) Thrombocytopenia is an initial maternal response to fertilisation in mice. J Reprod Fertil 73:559–566
O’Neill C, Pike IL, Porter RN, Gidley-Baird A, Sinosich MJ, Saunders DM (1985) Maternal recognition of pregnancy prior to implantation: methods for monitoring embryonic viability in vitro and in vivo. Annls NY Acad Sci 442:429–439
Palmer R (1960) Salpingostomy — a critical study of 396 personal cases operated upon without polythene tubing. Proc R Soc Med 53:357–359
Patek E (1974) The epithelium of the human Fallopian tube. Acta Obstet Gynecol Scand 53 Suppl 31:1–28
Pauerstein CJ (1975) Clinical implications of oviductal physiology and biochemistry. Gynecol Invest 6:253–264
Pauerstein CJ (1978) From Fallopius to fantasy. Fertil Steril 30:133–140
Perkins JL, Goode L, Wilder WA, Henson DB (1965) Collection of secretions from the oviduct and uterus of the ewe. J Anim Sci 24:383–387
Pinner O (1880) Über den Übertritt des Eies aus dem Ovarium in die Elbe beim Säugetier. Arch Physiol 241
Roblero L, Biggers JD, Lechene CP (1976) Electron probe analysis of the elemental microenvironment of oviducal mouse embryos. J Reprod Fertil 46:431–434
Rubin IC (1920) The nonoperative determination of patency of Fallopian tubes. J Am Med Assn 75:661–666
Rubin IC (1947) Intra-tubal insufflation. CV Mosby, St Louis Missouri
Rumery RE, Eddy EM (1974) Scanning electron microscopy of the fimbriae and ampullae of rabbit oviducts. Anat Rec 178:83–102
Seckinger DL (1923) Spontaneous contractions of the Fallopian tube of the domestic pig with reference to the oestrous cycle. Bull Johns Hopkins Hosp 34:236–239
Seckinger DL, Snyder FF (1926) Cyclic changes in the spontaneous contractions of the human Fallopian tube. Bull Johns Hopkins Hosp 39:371–378
Sjöberg N-O (1967) The adrenergic transmitter of the female reproductive tract: distribution and functional changes. Acta Physiol Scand Suppl 305:1–32
Snyder FF (1923) Changes in the Fallopian tube. during the ovulation cycle and early pregnancy. Bull Johns Hopkins Hosp 34:121–125
Snyder FF (1924) Changes in the human oviduct during the menstrual cycle and pregnancy. Bull Johns Hopkins Hosp 35:141–146
Sobotta J (1895) Die Befruchtung und Furchung des Eies der Maus. Arch Mikr Anat 45:15–93
Spilman CH, Harper MJK (1973) Effect of prostaglandins on oviduct motility in estrous rabbits. Biol Reprod 9:36–45
Stalheim OHV, Gallagher JE, Deyoe BL (1975) Scanning electron microscopy of the bovine, equine, porcine and caprine uterine tube (oviduct). Am J Vet Res 36:1069–1075
Temkin O (1956) Soranus’ gynecology. Hopkins, Baltimore
Thibault C (1972) Physiology and physiopathology of the Fallopian tube. Int J Fertil 17:1–13
Thiry L (1862) Über das Vorkommen eines Flimmerepithelium auf dem Bauchfell des weiblichen Frosches. Göttinger Nachrichten 171
Van Beneden E (1875) La maturation de l’oeuf, la fécondation et les premières phases du développement embryonnaire des mammifères d’après des recherches faites chez le lapin. Bull Acad Belg Cl Sci 40:686–689
Van Horne J (1668) Suarum circa partes generationis in utroque sexu observationum prodromus. Leyden
Vesalius A (1543) De humani corporis fabrica. Basel
Westman A (1926) A contribution to the question of the transit of the ovum from the ovary to the uterus in rabbits. Acta Obstet Gynecol Scand Suppl 5:1–104
Winston RML (1980) Microsurgery of the Fallopian tube: from fantasy to reality. Fertil Steril 34:521–530
Wintenberger-Torres S (1961) Mouvements des trompes et progression des oeufs chez la brebis. Ann Biol Anim Biochim Biophys 1:121–133
Wislocki GB, Guttmacher AF (1924) Spontaneous peristalsis of the excised whole uterus and Fallopian tubes of the sow with reference to the ovulation cycle. Bull Johns Hopkins Hosp 35:246–252
Woodruff JD, Pauerstein CJ (1969) The Fallopian tube: structure, function, pathology and management. Williams and Wilkins, Baltimore
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Hunter, R.H.F. (1988). Discovery of the Fallopian Tubes and Subsequent Historical Landmarks. In: The Fallopian Tubes. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-73045-0_1
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DOI: https://doi.org/10.1007/978-3-642-73045-0_1
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