and in Dryden's "Tempest" (V, 1) Ariel says:
Anoint the Sword which pierc'd him with the Weapon-Salve,
And wrap it close from Air till I have time
To visit him again.
From Van Helmont comes the famous story of the new nose that dropped off in sympathy with the dead arm from which it was taken, and the source of the famous lines of Hudibras. As I have not seen the original story quoted of late years it may be worth while to give it: "A certain inhabitant of Bruxels, in a combat had his nose mowed off, addressed himself to Tagliacozzus, a famous Chirurgein, living at Bononia, that he might procure a new one; and when he feared the incision of his own arm, he hired a Porter to admit it, out of whose arm, having first given the reward agreed upon, at length he dig'd a new nose. About thirteen moneths after his return to his own Countrey, on a sudden the ingrafted nose grew cold, putrified, and within few days drops off. To those of his friends that were curious in the exploration of the cause of this unexpected misfortune, it was discovered, that the Porter expired, neer about the same punctilio of time, wherein the nose grew frigid and cadaverous. There are at Bruxels yet surviving, some of good repute, that were eye-witnesses of these occurrences."(18)
(18) Charleton: Of the Magnetic Cure of Wounds, London, 1650, p.
13.
Equally in the history of science and of medicine, 1542 is a starred year, marked by a revolution in our knowledge alike of Macrocosm and Microcosm. In Frauenburg, the town physician and a canon, now nearing the Psalmist limit and his end, had sent to the press the studies of a lifetime—"De revolutionibus orbium coelestium." It was no new thought, no new demonstration that Copernicus thus gave to his generation. Centuries before, men of the keenest scientific minds from Pythagoras on had worked out a heliocentric theory, fully promulgated by Aristarchus, and very generally accepted by the brilliant investigators of the Alexandrian school; but in the long interval, lapped in Oriental lethargy, man had been content to acknowledge that the heavens declare the glory of God and that the firmament sheweth his handiwork. There had been great astronomers before Copernicus. In the fifteenth century Nicholas of Cusa and Regiomontanus had hinted at the heliocentric theory; but 1512 marks an epoch in the history of science, since for all time Copernicus put the problem in a way that compelled acquiescence.
Nor did Copernicus announce a truth perfect and complete, not to be modified, but there were many contradictions and lacunae which the work of subsequent observers had to reconcile and fill up. For long years Copernicus had brooded over the great thoughts which his careful observation had compelled. We can imagine the touching scene in the little town when his friend Osiander brought the first copy of the precious volume hot from the press, a well enough printed book. Already on his deathbed, stricken with a long illness, the old man must have had doubts how his work would be received, though years before Pope Clement VII had sent him encouraging words. Fortunately death saved him from the "rending" which is the portion of so many innovators and discoverers. His great contemporary reformer, Luther, expressed the view of the day when he said the fool will turn topsy-turvy the whole art of astronomy; but the Bible says that Joshua commanded the Sun to stand still, not the Earth. The scholarly Melanchthon, himself an astronomer, thought the book so godless that he recommended its suppression (Dannemann, Grundriss). The church was too much involved in the Ptolemaic system to accept any change and it was not until 1822 that the works of Copernicus were removed from the Index.
VESALIUS
THE same year, 1542, saw a very different picture in the far-famed city of Padua, "nursery of the arts." The central figure was a man not yet in the prime of life, and justly full of its pride, as you may see from his portrait. Like Aristotle and Hippocrates cradled and nurtured in an AEsculapian family, Vesalius was from his childhood a student of nature, and was now a wandering scholar, far from his Belgian home. But in Italy he had found what neither Louvain nor Paris could give, freedom in his studies and golden opportunities for research in anatomy. What an impression he must have made on the student body at Padua may be judged from the fact that shortly after his graduation in December, 1537, at the age of twenty-four, he was elected to the chair of anatomy and surgery. Two things favored him—an insatiate desire to see and handle for himself the parts of the human frame, and an opportunity, such as had never before been offered to the teacher, to obtain material for the study of human anatomy. Learned with all the learning of the Grecians and of the Arabians, Vesalius grasped, as no modern before him had done, the cardinal fact that to know the human machine and its working, it is necessary first to know its parts—its fabric.
To appreciate the work of this great man we must go back in a brief review of the growth of the study of anatomy.