William Harvey and Capillaries

2017 ◽  
Author(s):  
Douglas Allchin
Keyword(s):  
Blood Vessels ◽  
Nature Of Science ◽  
Historical Evidence ◽  
Vital Importance ◽  
Circulation Of The Blood ◽  
Arteries And Veins ◽  
De Motu Cordis

Circulation of the blood is so familiar that one can hardly imagine a time when it was not fully understood. Indeed, the ancients knew about the pulse and the flow of blood. They recognized, too, the vital importance of the heartbeat and nourishment. Yet the concept of a complete blood circuit emerged only in the early 1600s, largely owing to investigations by William Harvey (Figure 23.1). Harvey has since earned renown as one of biology’s great heroes. But what guided Harvey to his landmark discovery? According to many popular accounts, Harvey’s genius was reflected in his remarkable ability to deduce circulation without being able to observe the capillaries that ultimately close the circuit between arteries and veins. Moreover, Harvey’s reasoning was so powerful, they contend, that he was able to confidently predict the presence of the tiny blood vessels without ever seeing them. Only later did others confirm his insightful prediction. That triumph, tragically too late for Harvey himself to appreciate, seems to vividly demonstrate the importance of deduction and prediction in Harvey’s work—and in science generally. However, these stories do not measure up to historical evidence very well. Nonetheless, the widespread error is itself telling. Probing the erroneous stories more deeply, one can gain an even deeper appreciation of scientific myth-conceptions and how they foster misconceptions about the nature of science (essay 21). Most important to understanding Harvey’s discovery, perhaps, is his adoption of the renewed spirit of experimentation in the early 1600s: an eagerness to tinker with and actively probe nature (essay 1). Rather than read books, he dissected animals. He cut open fish, frogs, and other creatures to observe their beating hearts. His unexpected observations led him to new conclusions, which he published in 1628 in De Motu Cordis et Sanguinis, or On the Motion of the Heart and the Blood.

On the sources and nature of the powers on which the circulation of the blood depends

1837 ◽  
Vol 3 ◽  
pp. 64-64
Keyword(s):  
Nervous System ◽  
Blood Vessels ◽  
Thoracic Cavity ◽  
Muscular Power ◽  
Voluntary Motion ◽  
Circulation Of The Blood ◽  
Arteries And Veins

In the first part of this paper the author discusses the opinions which ascribe the powers that maintain the circulation in the veins to the elasticity of the heart, the resilience of the lungs, and the dilatation of the thoracic cavity in the act of inspiration. He shows experimentally that the circulation continues unimpaired when all those causes have ceased to operate; and that the very structure of the veins, the coats of which are so pliable as to collapse by their own weight, when empty, renders it impossible that the motion of the blood could be maintained in them by any cause corresponding to a power of suction in the heart. The latter part of the paper is occupied by an inquiry into the sources and nature of the powers which really support the circulation of the blood. The capillaries, he observes, maintain the motion of their blood long after the heart has ceased to beat; this motion not being immediately affected even by the entire removal of the heart; but being accelerated, retarded, or arrested, according as the action of the capillaries is increased, impaired, or destroyed, by agents of which the operation is wholly confined to the vessels themselves. As the destruction of the heart does not immediately influence the motion of the blood in the capillaries, so the action of this organ, when in full vigour, can produce no motion of the blood in the capillaries, when these vessels are themselves deprived of power. Experiments are related with the view of proving that the arteries and veins, and more particularly the latter, are also capable of carrying on the blood they contain, even in opposition to the force of gravitation, with the greatest ease, and without the aid of any extraneous power. With regard to the nature of the power exerted by the blood-vessels, the author shows that the capillaries are as readily influenced by stimulants and by sedatives, as the heart itself; and that the arteries and veins may also be made to obey the action of stimulants ; and further, that the power of the vessels bears the same relation to the nervous system as that of the heart, which is peculiar, and very different from the relation subsisting between that system and the muscles of voluntary motion. From the whole of the facts and experiments stated in this paper, the author deduces the conclusions, that the circulation is maintained by the combined power of the heart and blood-vessels, and that the power of both is a muscular power.

Topology and dimensions of pig coronary capillary network

1994 ◽  
Vol 267 (1) ◽  
pp. H319-H325 ◽  
Author(s):  
G. S. Kassab ◽  
Y. C. Fung
Keyword(s):  
Blood Vessels ◽  
Coronary Vessels ◽  
Capillary Blood ◽  
Capillary Network ◽  
Connectivity Matrix ◽  
Optical Sectioning ◽  
Data Set ◽  
Complete Set ◽  
The Right ◽  
Arteries And Veins

To provide a morphometric basis for any mathematical modeling of the coronary vasculature, data on the network of coronary capillary blood vessels and the topology of the arteriolar supply and venular drainage relative to the capillaries are presented. The diameters, lengths, and branching patterns of the coronary capillary blood vessels in the right and left ventricles of four pigs were measured. The locations of the coronary arterioles and venules were identified, topological maps were constructed, and the mean functional length of capillaries connecting an arteriole to an adjacent venule was measured. The vasculature was fixed by perfusing the coronary vessels with a catalyzed polymer. After the polymer hardened, plugs of the myocardium were removed, sectioned, dehydrated, and cleared to render the capillary network visible in a light microscope. The capillaries then were traced by optical sectioning. We designated the capillaries as blood vessels of order number zero; we further designated the capillaries as those fed directly by arterioles (C0a), those drained directly into venules (C0v), and those capillary vessels connected to C0a and C0v. The capillaries are connected in patterns identified as Y, T, H, or hairpin and anastomosed through capillary cross-connections (Ccc). The Ccc vessels may connect adjacent capillaries or capillaries originating from different arterioles. The connection among the capillaries, arteries, and veins is presented in terms of a connectivity matrix. Combining the present data with those for the arterial and venous trees, we have obtained a complete set of statistical data of all the blood vessels of the heart of the pig. Such a data set will serve as the basis of coronary hemodynamics.

scholarly journals X. The intracranial vascular system of sphenodon

1909 ◽  
Vol 200 (262-273) ◽  
pp. 403-426 ◽  
Keyword(s):  
Blood Vessels ◽  
Vascular System ◽  
Serial Sections ◽  
Cranial Cavity ◽  
The Subject ◽  
Intracranial Arteries ◽  
Arteries And Veins ◽  
The Brain ◽  
Complete Account

In the course of my investigations on the Pineal Apparatus of the Tuatara ( Sphenodon punctas ) I have found it desirable to make as complete a study as possible of the arrangement of the intracranial arteries and veins, of which no description has as yet been published. As any facts relating to the structure of Sphenodon are of more than usual interest, and as I hope to be able to give a more complete account of the subject than has yet been given for any reptile, I have decided to offer my results for publication as a separate memoir, without waiting for the completion of my work on the pineal organs. The blood-vessels have been investigated partly by dissection and partly by means of serial sections, and such completeness of detail as I have been able to attain is very largely due to the adoption of a method of fixing and hardening which I have found to have many advantages both for the study of the vascular system and of the brain itself. By this method the entire contents of the cranial cavity are fixed and hardened in situ , and are then in excellent condition either for dissection or for histological purposes. The application of the method in the case of Sphenodon is greatly facilitated by the fact that the brain does not occupy nearly the whole of the cranial cavity, a large subdural space being left, especially above the brain, across which numerous blood-vessels run, together with delicate strands of connective tissue which connect the dura mater with the pia .

scholarly journals The Croonian lecture. On the existence of nerves in the placenta

1833 ◽  
Vol 2 ◽  
pp. 226-227
Keyword(s):  
Blood Vessels ◽  
Pregnant Uterus ◽  
Umbilical Arteries ◽  
Arteries And Veins

In this lecture the author makes known his discovery of the ex­istence of nerves, both in the fœtal and maternal portions of the pla­centa. His previous researches had led him to doubt the existence of blood-vessels without nerves, and the extreme vascularity of the placenta led him to suspect them in that organ. With the assistance of Mr. Bauer, therefore, he first examined the placenta of the Seal, the arteries and veins of which had been injected, and in which nerves were discovered, not only surrounding the umbilical arteries, but also in the uterine portion. In the pregnant uterus of the Tapir of Sumatra, in which, there being no placenta, the umbilical chord is connected with the chorion, the nerves were very conspicuous in the transparent portion of the chorion, along which the branches of the funis pass before they ar­rive at the spongy part.

scholarly journals XX. A letter to Martin Folkes, Esq; President of the Royal Society, from Cromwell Mortimer, M. D. Secr, of the same, concerning the natural heat of animals

1744 ◽  
Vol 43 (476) ◽  
pp. 473-480
Keyword(s):  
Blood Vessels ◽  
Royal Society ◽  
Circulation Of The Blood ◽  
Medical Writers

Sir, Since the complete and full Demonstration of the Circulation of the Blood in Animals by our illustrious Countryman the great Dr. Harvey , the Generality of medical Writers have attributed the natural Heat of Animals to the Motion of the Blood in the Blood-vessels, or rather to an Attrition of all the Fluids in the Animal arising from it; which Fluids, from the later Discoveries by Injections and Microscopes, are found to move in conical Canals communicating one with another near the Apices , or where the Arteries are the narrowest, soon afterwards growing wider and wider, when the same continued Canals obtain the Name of Veins, and convey back the Fluids they contain to the Heart.

Blood vessels of the rat tail: a histological re-examination with respect to blood vessel puncture methods

2003 ◽  
Vol 37 (2) ◽  
pp. 121-125 ◽  
Author(s):  
Carsten Staszyk ◽  
Willa Bohnet ◽  
Hagen Gasse ◽  
Hansjoachim Hackbarth
Keyword(s):  
Blood Vessel ◽  
Blood Vessels ◽  
Blood Sampling ◽  
Skeletal System ◽  
Dorsal Vein ◽  
Injection Methods ◽  
Arteries And Veins ◽  
Rat Tail ◽  
Vascular Injection

The rat tail vascularization is histologically re-examined especially with respect to blood sampling and vascular-injection methods. The terminal third of the tail is recommended for blood vessel puncturing. In this segment, the arteries and veins are most prominent, since the structures of the musculo-skeletal system diminish towards the tip of the tail. In addition to the commonly-known blood vessels (one ventral artery, two lateral veins), there is a dorsal vein in the rat tail that is well suited for puncture and cannulation.

XVII. On the blood-vessels of mustelus antarcticus: a contribution to the morphology of the vascular system in the vertebrata

1886 ◽  
Vol 177 ◽  
pp. 685-732 ◽  
Keyword(s):  
Blood Vessels ◽  
Vascular System ◽  
Comparative Anatomy ◽  
Considerable Importance ◽  
Arteries And Veins ◽  
General Work ◽  
Accessible Form ◽  
Complete Account

The present inquiry was undertaken with a view of settling, if possible, one or two doubtful points in our knowledge of the vascular system of Fishes, and of giving, in an accessible form, a fairly complete account of the blood-vessels of a typical Selachian, since, as far as I am aware, this has not yet been done. The arteries and veins of the Skate are figured, for the most part very accurately, by Monro (16); the arteries of Raja and Torpedo are described and figured in detail by Hyrtl (11), and there are good general accounts of the vascular system in both orders of Plagiostomi in the works of Müller (17), Stannius (25), and Milne Edwards (14). By all these authors, however, several points of considerable importance are either missed or but slightly referred to, while others are more or less inaccurately described. In all the more modern text-books of comparative anatomy to which I have had access the vascular system of Fishes is very meagrely treated, the manuals of Owen (19), Huxley (10), Claus (4), Gegenbaur (7), Rolleston (24), Macalister (13), Günther (8), and Wiedersheim (26), adding little or nothing to the excellent though brief account in Stannius’s handbook just referred to. Indeed, the only general work I have seen which gives any important information not to be found in Stannius is Milne Edwards’s ‘Leçons,' in which the description of the vascular system, and especially of the arteries of Fishes, is full, and, like everything else in that invaluable book, admirably clear.

Sign in / Sign up

Export Citation Format

Share Document