Читать книгу The Body at Work: A Treatise on the Principles of Physiology онлайн
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Freshly shed blood contains minute particles, termed “platelets,” in diameter measuring about a quarter that of a red blood-corpuscle. When the inner coat of a vessel is injured, platelets accumulate at the injured spot. They form a little white heap, from which coagulation starts. Evidently they supply the ferment, or a precursor of the ferment. As yet their origin has not been traced. They are too large to be the unchanged granules of granular leucocytes, but that they are in some way derived from leucocytes seems probable.
The further study of coagulation has shown that the conditions under which it occurs are more complicated than the simple explanation just given would seem to imply. This explanation holds good, so far as it goes, but facts connected with the details of the process have recently been brought to light which warn the physiologist that as yet his theory of coagulation is incomplete.
The presence of salts of lime has an important relation to coagulation. If blood is received into a vessel in which has been placed some powdered oxalate of potash, or soap, or any other chemical which fixes lime, the blood does not coagulate. All other conditions are as usual, but lime is withdrawn from the plasma. The non-coagulation of oxalated plasma was interpreted as indicating that lime, under the influence of fibrin-ferment, combines with fibrinogen to form fibrin; that fibrinogen altered by fibrin-ferment combines with lime. This hypothesis was based upon the analogy of the curdling of milk. Milk cannot curdle if lime be absent. If rennin (milk-ferment), prepared from milk from which lime has been removed, be added to a solution of caseinogen (the coagulable protein of milk), also prepared from lime-free milk, no curd is produced. The addition of a few drops of a solution of chloride of lime results in the immediate curdling of the mixture. Evidently rennin so alters caseinogen as to bring it into a condition to combine with lime. But the analogy does not hold good for blood. In the case of plasma, lime acts, not upon fibrinogen, but upon the fibrin-ferment—or rather upon a precursor of fibrin-ferment—in such a way as to render it effective. Leucocytes produce a prothrombin, which in contact with lime salts is converted into thrombin, which coagulates fibrinogen.