Название: The Greatest Benefit to Mankind
Автор: Roy Porter
Издательство: HarperCollins
Жанр: Медицина
isbn: 9780007385546
isbn:
I will not give a fatal draught to anyone if I am asked, nor will I suggest any such thing. Neither will I give a woman means to procure an abortion.
I will be chaste and religious in my life and in my practice.
I will not cut, even for the stone, but I will leave such procedures to the practitioners of that craft.
Whenever I go into a house, I will go to help the sick and never with the intention of doing harm or injury. I will not abuse my position to indulge in sexual contacts with the bodies of women or of men, whether they be freemen or slaves.
Whatever I see or hear, professionally or privately, which ought not to be divulged, I will keep secret and tell no one.
If, therefore, I observe this Oath and do not violate it, may I prosper both in my life and in my profession, earning good repute among all men for all time. If I transgress and forswear this Oath, may my lot be otherwise.
‘The soul and body being two, they have two arts corresponding to them,’ Plato stated, making similar links in the Gorgias: ‘there is the art of politics attending on the soul; and another art attending on the body, of which I know no single name, but which may be described as having two divisions, one of them gymnastic, and the other medicine.’ Thanks to Plato, western thinking could consider medicine as having its share in understanding human nature. Greek thinking thus emphasized the common ground between what would later become the separate disciplines of philosophy, medicine and ethics. Health depended upon temperance and wisdom, or proper self-control. Achieved through moderation in eating, drinking, sex and exercise, bodily health became the template for healthy thinking (sōphrosynē, soundness of mind). To later Stoic philosophers likewise, the wisdom of the sage required the attainment of true health; for their part Epicureans stressed the supreme desirability of freedom from pain.
Plato’s pupil Aristotle also put forward hugely influential views on the constitution of life. A doctor’s son from Stagira in Thrace, Aristotle (384–322 BC) went to Athens to study with Plato, later becoming tutor to Alexander the Great (356–323 BC). His towering role in theorizing about metaphysics and cosmology, ethics, politics, poetics and thinking itself involved many achievements: the creation of a scientific method; the pursuit of teleological ways of thinking; and the impetus he gave to biological research. Questioning Plato’s transcendental ideas, Aristotle called for the systematic observation of nature. Whereas Plato distrusted sense experience, his pupil launched a programme of empirical investigation into the natural world – into zoology, botany and meteorology. Nature did nothing in vain, so body parts had to be explained in respect of their purpose (teleology). Aristotle discussed such final causes in terms of a wider fourfold theory of causation. For nearly two thousand years, Aristotelian methodology provided the framework for scientific investigation.
Later hailed by Dante as the ‘master of the men who know’, Aristotle was the first who systematically used dissection findings (animal not human) as a grounding for his biomedical theories. What he recorded occasionally puzzled his successors. In his description of the heart, he refers to ‘three chambers’ connected to the lung; later investigators were baffled which animals he was referring to. While revealing the veins as a connected system of vessels extending from the heart throughout the whole body, he did not distinguish between veins and arteries, applying the same term to both.
Observing the embryo developing within eggs, Aristotle perceived the beating heart as the first sign of life, concluding that it must be the prime mover of life and coeval with the whole body. The blood contained within the heart and blood vessels became correspondingly decisive. Blood was the nutrient the vessels absorbed from the intestines: ‘this explains why the blood diminishes in quantity when no food is taken, and increases when much is consumed.’
The idea of a nervous system paralleling the veins and arteries was as yet unformulated, so it is not surprising that Aristotle did not locate the seat of the soul, the source of movement and sensation, within the brain, but in the heart, stressing its physiological primacy within the human body. It was also the source of innate heat; pulsation was the result of a sort of boiling movement (ebullition) in the blood, causing it to press against the heart walls and pour out into the blood vessels. The heart’s heat dilated the lungs, fresh air rushed in, cooled the blood, and, warmed by the blood’s heat, was then expired. The brain had a part to play in these vital processes. Being naturally cold, it served as a refrigerator, helping to cool the blood’s innate heat. It also brought on sleep. Its function was that of a regulator, adjusting the organism as a whole.
The discussions of psychology in Aristotle’s On the Soul, On Sleep and Waking, On Sensation and On Memory long intrigued doctors and philosophers alike; and two thousand years later his teleological doctrines shaped the physiology of William Harvey (See Chapter Nine). In the shorter term his anatomy was taken up and revised by the next generation, particularly by Diocles of Carystos (fl. 320 BC), and two doctors working in Alexandria, Herophilus and his contemporary Erasistratus.
ALEXANDRIAN MEDICINE
Aristotle’s royal pupil, Alexander, routed all his rivals, lamented there were no more worlds to conquer, and expired in 323 BC, supposedly exclaiming, ‘I die by the help of too many physicians.’ His destruction of the Persian Emperor Darius III had brought Egypt within the hellenistic sphere of influence, and after Alexander’s death science gained a prominent place at the court of King Ptolemy, who ruled from 323 to 282 BC and established his capital at Alexandria, at the mouth of the Nile.
King Ptolemy’s main cultural creations, the Alexandrian Library and the Museum (sanctuary of the Muses) installed Greek learning in a new Egyptian environment: Archimedes, Euclid and the astronomer Ptolemy were later to teach there. The library became a wonder of the scholarly world, eventually containing, it was said, 700,000 manuscripts, and its facilities included an observatory, zoological gardens, lecture halls and rooms for research.*
Thanks to Alexander’s conquests, the hellenistic world stretched from the Persian Gulf to Sicily, with Greek becoming the lingua franca of the elite. One consequence was a remarkable increase of new information on animals, plants, minerals and drugs. Alexandria also attracted medical talent, notably Herophilus of Chalcedon (c. 330–260 BC and his contemporary, Erasistratus of Ceos (c. 330–255 BC). Their writings having been lost, we know about them only through later physicians. Cornelius Celsus (fl). AD 60 reported that they dissected, or at least experimented upon, living humans, which is not inconceivable, for Greeks may have used their privileged status in Alexandria to experiment on their inferiors, especially condemned criminals.
Herophilus was apparently a student of Praxagoras of Cos (fl. 340 BC), who had improved Aristotelian anatomy by distinguishing arteries from veins. Praxagoras saw the arteries as air tubes, similar to the trachea and bronchi, conducting the breath of life (pneuma) from the lungs to the left side of the heart and thence through the aorta and other arteries to the whole body. The arteries stemmed from the heart; the veins, by contrast, Praxagoras believed, arose from the liver, their function being to carry the blood, created from digested food, to the rest of the body. The combining of blood and pneuma generated innate heat.
Herophilus practised medicine in Alexandria under the first two Ptolemies, apparently dissecting human cadavers in public. He wrote at least eleven treatises. Three were on anatomy: it was he who discovered and named the prostate and the duodenum (from the Greek for twelve fingers, the length of gut he found). He also wrote on the pulse as a diagnostic guide, on therapeutics, ophthalmology, dietetics and midwifery, and a polemic ‘Against Common Notions’.
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