Die Ergebnisse der Sternalpunktion

Henning, N.; Keilhack, Heinz

doi:10.1007/978-3-642-90685-5_8

Cited by 7 publications

(1 citation statement)

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“…Petri, 1934). However, most workers are of the opinion not only that they are found in the marrow tissue, but that they are considerably more numerous in this situation than in the blood (Henning & Keilhack, 1939; Veeneklaas, 1938). If the absolute count of lymphocytes in the bone marrow is appreciably higher than in blood, then even after dilution by blood in the course of sternal puncture, there should still be a perceptible difference.…”

Section: Lymphocytes In Bone Marrow ( a ) The Limitations Of Sternal mentioning

confidence: 99%

The Mammalian Lymphocyte

Yoffey

1950

Biological Reviews

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SUMMARY Thoracic duct lymphocytes are for the most part newly formed cells; there is only minor circulation of lymphocytes between blood and lymph. Quantitative studies of thoracic duct lymphocyte production show that, in the cat and rabbit, the number of lymphocytes daily entering the blood via the thoracic duct is sufficient to replace those already in the blood 3‐0‐5‐0 times daily. Occasionally the blood lymphocytes rise during an experiment in which thoracic duct lymph is being collected. This may mean that in these cases a very considerable number of lymphocytes enters the blood from the lymphoid tissues directly. Mitotic counts both in sections and in isolated nuclei indicate that lymphocyte formation proceeds most actively in the thymus, and measurements of the nucleic acid turn‐over of lymphoid tissues confirm this. There is no direct correlation between the total mass of the lymphoid tissues and the level of the blood lymphocytes. Extirpation of 90% of the lymphoid tissues is usually followed by a transient fall in the level of the blood lymphocytes, and sometimes results in the new formation of lymphoid tissue in liver or lungs. Individual lymph nodes which have been removed do not regenerate. Lymphoid tissue seems to be essential to the body. Lymphocytes can disappear rapidly from the blood even in the absence of stomach and intestines. During the first 5 days after removing about 40% of the bone marrow, the blood lymphocytes rise to nearly three times their pre‐operative level. The subcutaneous injection of egg albumin produces a local accumulation of lymphocytes which in the course of 6 hr. becomes transformed into macrophages. Tissue cultures of thoracic duct lymphocytes have yielded conflicting results concerning the developmental potentialities of the lymphocyte. The peculiar nature of lymphocyte movement has been used in an attempt to establish the transformation of lymphocytes into macrophages. Observation of lymphocytes in transparent chambers in rabbit's ears has shown that they can remain alive for as long as 26 days, though they were never observed to undergo transformation into other cells. Chemical and spectrographic studies indicate that small lymphocytes have a very low growth rate. There is a close relationship between the suprarenal cortex and the lymphoid tissues, upon which some of the cortical hormones exert a depressant effect. The adrenotropic hormone of the pituitary exerts a similar action upon lymphoid tissue by stimulating the secretion of the suprarenal cortex. The precise effect of cortical hormones upon lymphocytes is still not clear; some of the degenerative changes which have been described can be observed also in normal lymphoid tissue. Cortical hormones have no action upon lymphocytes in vitro. After subcutaneous injection of antigen, antibodies appear in progressively increasing amounts in the regional lymph nodes and in their efferent lymph, reaching a maximum after 6 days. At the same time the lymph nodes undergo hyperplasia with increase in the number of lymphocyt...

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Section: Lymphocytes In Bone Marrow ( a ) The Limitations Of Sternal mentioning

confidence: 99%