Present knowledge concerning the transport of lymph has been gained primarily from study of the effect of extrinsic factors on lymph floW. The influence of muscular movement, respiration, pulse, vascular changes, massage, etc., has been extensively reviewed by Drinker and Yoffey (1). Study of the possible intrinsic mechanisms involved in the transport of lymph, on the other hand, has received but scant attention. During a recent investigation of acute popliteal lymphadenitis in rats (2), it was observed that peripheral afferent lymphatics leading to the popliteal lymph node contract rhythmically. Review of the scattered information relating to lymphatic physiology revealed that such rhythmic movement had not previously been recorded for the most peripheral lymphatics.
Acute pneumococcic lymphadenitis produced in rats by intradermal inoculation of the foot-pad is characterized by rapid infiltration of polymorphonuclear leucocytes into the intermediary sinuses of the node, and prompt phagocytosis of pneumococci by both the macrophages of the sinuses and the recently arrived leucocytes. After 5 to 7 hours the polymorphonuclear leucocytes are found densely congregated about the hilar region, and 9 hours after inoculation most of the phagocyted organisms have been digested. At the end of the 24 hour period the popliteal node presents the picture of a subsiding inflammation with a marked macrophage reaction and regenerating lymph follicles. Phagocytosis of encapsulated pneumococci in the foot-pad and popliteal node occurs in less than 30 minutes after inoculation. It is assumed that this prompt phagocytosis is effected by the non-antibody mechanism of "surface phagocytosis." The majority of polymorphonuclear leucocytes that enter the sinuses of the inflamed node appear to come from capillaries within the node itself rather than from the primary site of inflammation in the foot-pad. The prompt inflammatory response of the nodal tissues serves as an active defense against lymph-borne infection. Macrophages invade nodal sinuses only after most of the pneumococci have been destroyed by polymorphonuclear leucocytes. It is suggested that the macrophage reaction follows removal of the primary inflammatory stimulus by the granulocytes, and thus constitutes only a late phase of recovery. Fibrin formation in the sinuses of the lymph node is rare during acute lymphadenitis. This finding may be related to the observation that within 5 minutes after entrance of bacteria into the node, heparin-containing granules from mast cells are strewn throughout the sinuses.
The origin of the polymorphonuclear leucocytes found in the intermediary and subcapsular sinuses of the popliteal lymph node during acute bacterial lymphadenitis, and the effect of this leucocyte infiltration on the passage of bacteria through the lymph node have been investigated. It has been demonstrated that: 1. The polymorphonuclear leucocytes in the nodal sinuses originate both from blood vessels of the lymph node and from the primary inflammatory focus in the tissues. 2. Granulocytes invading the intermediary sinuses of the infected lymph node arise primarily from capillaries lining these sinuses. 3. Most of the polymorphonuclear leucocytes in the subcapsular sinus, on the other hand, originate from the inflammatory focus in the tissues and appear to traverse the node by way of this peripheral sinus. 4. The bacteremia following direct intralymphatic injection of pneumococci is suppressed by the presence of preformed inflammatory exudate in the nodal sinuses indicating that the filtering capacity of the node is thereby greatly increased.
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