about
Quantitative analysis of cellular inflammation after traumatic spinal cord injury: evidence for a multiphasic inflammatory response in the acute to chronic environmentAlcohol's Effects on Lung Health and ImmunityImmune suppression by neutrophils and granulocytic myeloid-derived suppressor cells: similarities and differencesComprehensive postmortem analyses of intestinal microbiota changes and bacterial translocation in human flora associated miceApplying evolutionary biology to address global challenges.Human neutrophil kinetics: modeling of stable isotope labeling data supports short blood neutrophil half-lives.Congenital neutropenia: diagnosis, molecular bases and patient management.Cholinergic neural signals to the spleen down-regulate leukocyte trafficking via CD11b.Influence of Microbes on Neutrophil Life and Death.Neutrophil count in African Americans: lowering the target cutoff to initiate or resume chemotherapy?CCAAT/enhancer binding protein alpha is a regulatory switch sufficient for induction of granulocytic development from bipotential myeloid progenitorsLysozyme turnover in the ratLysozyme turnover in man.LEUKOKINETIC STUDIES. IX. EXPERIMENTAL EVALUATION OF A MODEL OF GRANULOPOIESIS.Studies of leukocyte kinetics by liquid scintillation counting in normal individuals and in patients with chronic myelocytic leukemiaNeutrophil kinetics in acute infectionNeutrophil kinetics in health and disease.The kinetics of hematopoiesis in the light horse. I. The lifespan of peripheral blood cells in the normal horseHuman fibroblasts maintain the viability and augment the functional response of human neutrophils in culture.Leukokinetic studies. 13. A non-steady-state kinetic evaluation of the mechanism of cortisone-induced granulocytosis.NETs: the missing link between cell death and systemic autoimmune diseases?Periodic hematopoiesis in human cyclic neutropeniaExudation primes human and guinea pig neutrophils for subsequent responsiveness to the chemotactic peptide N-formylmethionylleucylphenylalanine and increases complement component C3bi receptor expressionRegulation of steady-state neutrophil homeostasis by macrophages.Use of an X-linked human neutrophil marker to estimate timing of lyonization and size of the dividing stem cell pool.Neutrophil-endothelial cell interactions. Modulation of neutrophil adhesiveness induced by complement fragments C5a and C5a des arg and formyl-methionyl-leucyl-phenylalanine in vitro.The role of phagocyte function in resistance to infection.Neonatal sepsis and neutrophil insufficienciesPeculiarities of cell death mechanisms in neutrophils.Leukokinetic studies. XIV. Blood neutrophil kinetics in chronic, steady-state neutropeniaBone marrow and the control of immunity.Neutrophil biology and the next generation of myeloid growth factors.Effective erythropoiesis induced by 5beta-pregnane-3beta-hydroxy-20-one in squirrel monkeys.Neutrophil kinetics in manStudies on control of granulopoiesis in man. II. Influence of circulating neutrophil count on release of labelled bone marrow cells.Distribution of blood monocytes between a marginating and a circulating poolp38-MAPK signals survival by phosphorylation of caspase-8 and caspase-3 in human neutrophils.Sepsis-induced immune dysfunction: can immune therapies reduce mortality?A NET Outcome.Comparison of Two Methods for the Determination of the Effects of Ionizing Radiation on Blood Cell Counts in Mice
P2860
Q24633514-9D7BFB6E-1134-419F-BE42-BA9C6C123772Q26773234-95A4DF28-23EF-4996-959E-A7250F495397Q27027064-23521239-FEC8-489A-BA25-47D6A743AC6BQ28727210-AA6C14BC-0E5C-4CB2-B5B8-966C2D02D944Q30387318-5B21EF41-4A82-4C3C-9151-643D1BD2A1EDQ31089324-506EEFA3-404E-4E44-A5D6-3F6BAC55799AQ33395402-FF6AF26C-775A-4293-894D-F5D47C7F9173Q33590898-D82ACEFB-9050-4DBF-9D25-263945FA5285Q33619337-69CEFE9C-7F92-4645-8A2F-023A11D90BA4Q33770325-A6F6EDAF-F9E4-4C90-AF3D-29D4C8A40643Q33775064-727954C9-7E33-4C0B-AC78-7E8CA7D6CDB2Q34062906-A58FFA4C-D3F4-46A3-9A12-D4544AFAA1D5Q34069144-6EF5A516-807C-43B0-852A-658FFCAB3D50Q34078425-20F96C8C-27D2-42A4-9AB4-120060C23E62Q34083927-2DDC14C3-4693-4120-AB5D-96CF9496AE50Q34089136-4B307425-6EF0-4C51-8010-602CA87ECC89Q34092240-9625DBF1-7385-4D48-B3E1-10B4B3F738D0Q34238491-32F32886-A7C0-4727-AE96-E674E9398BEFQ34243846-DD73CB9E-8B55-4FE5-B02A-CD4C2E96D5D1Q34271742-63FA32D3-D865-49B9-BE3E-D9648BDD6868Q34323566-B5C8496B-2AAC-4EF3-ADDE-ADA38B7E7AA7Q34516187-6BCA6152-2DE2-4EBA-94ED-DD2EB9B29679Q34527949-BCC1B073-0A73-4353-8542-25758A77AC2DQ34542130-04212DD3-F6AB-436F-8851-EAD8EA9FD28AQ34560838-742D1E89-3665-4BE5-8478-0A87F69559F0Q34618816-D8DD7E1A-2D5F-4BD2-B88B-D08B24FB14CAQ34769784-EC9AE049-C629-4303-9078-6CF9DE5949CDQ35010559-B20CD948-EA50-4631-B1B0-E95251347977Q35227431-232E0280-7201-43EB-AA00-883C9DF11CF9Q35572160-2D6DFCB2-FDA8-4DA5-A47B-5F63271F8129Q35653129-58111F72-8551-4416-B017-6563FCEB05DDQ35653712-D331832C-795A-4068-81FF-70C2AD23CCACQ35899629-131450D8-9B95-42FE-A9D1-12FC34BFF0F4Q35904298-E13B37CC-066E-41E0-BBED-024A2D0CE860Q35957206-E4962E68-8028-4395-8756-A407FAE9EFAAQ36351590-8E20F913-2E58-4773-8E64-32E5E2D6DF0BQ36399260-B488A756-D85B-495B-9199-0C292245E1A1Q36430684-074F0726-4969-4366-ABDE-34AF5DBD9E67Q36445435-F1A08916-8D7D-447D-9C61-25928520102EQ36638296-40BD4A9C-2FB2-4BB1-BB46-9F09B3B91C15
P2860
description
1964 nî lūn-bûn
@nan
1964 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1964 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1964年の論文
@ja
1964年論文
@yue
1964年論文
@zh-hant
1964年論文
@zh-hk
1964年論文
@zh-mo
1964年論文
@zh-tw
1964年论文
@wuu
name
THE KINETICS OF GRANULOPOIESIS IN NORMAL MAN.
@ast
THE KINETICS OF GRANULOPOIESIS IN NORMAL MAN.
@en
type
label
THE KINETICS OF GRANULOPOIESIS IN NORMAL MAN.
@ast
THE KINETICS OF GRANULOPOIESIS IN NORMAL MAN.
@en
prefLabel
THE KINETICS OF GRANULOPOIESIS IN NORMAL MAN.
@ast
THE KINETICS OF GRANULOPOIESIS IN NORMAL MAN.
@en
P2093
P1433
P1476
THE KINETICS OF GRANULOPOIESIS IN NORMAL MAN
@en
P2093
CARTWRIGHT GE
WINTROBE MM
P304
P407
P577
1964-12-01T00:00:00Z