Skip to main content
Leiden University
Scholarly Publications
Home
Submit
About
Select Collection
All collections
Academic speeches
Dissertations
Faculty of Archaeology
Faculty of Governance and Global Affairs
Faculty of Humanities
Faculty of Science
Faculty of Social and Behavioural Sciences
Leiden Journals, Conference Proceedings and Books
Leiden Law School
Leiden University Press
Medicine / Leiden University Medical Centre (LUMC)
Research output UL
Search box
Your Search
Enabled Filters
(-)
= Pfeifle, R.
Sort Options
Date (year)
Author / Creator
Title
Refine Results
Resource Type
Article / Letter to editor
(5)
+
-
Availability
Open access
(3)
+
-
Metadata Only
(4)
+
-
Creation Date
2017
(3)
+
-
Faculty
Faculty of Science
(1)
+
-
Leiden University Medical Center (LUMC)
(6)
+
-
Collection
Medicine / Leiden University Medical Centre (LUMC)
(6)
+
-
Author
Pfeifle, R.
(7)
+
-
Kronke, G.
(6)
+
-
Scherer, H.U.
(6)
+
-
Schett, G.
(6)
+
-
Harre, U.
(5)
+
-
Nimmerjahn, F.
(5)
+
-
Herrmann, M.
(4)
+
-
Bluml, S.
(3)
+
-
Koeleman, C.A.
(3)
+
-
Rombouts, Y.
(3)
+
-
Rothe, T.
(3)
+
-
Wuhrer, M.
(3)
+
-
Bondt, A.
(2)
+
-
Culemann, S.
(2)
+
-
Engdahl, C.
(2)
+
-
Holmdahl, R.
(2)
+
-
Ipseiz, N.
(2)
+
-
Lux, A.
(2)
+
-
Raufer, J.
(2)
+
-
Toes, R.
(2)
+
-
Show more
Language
en
(7)
+
-
Search results
(1 - 7 of 7)
show grid
show list
save search
BASS-XXIII: a new mid-infrared diagnostic for absorption in AGN
Estrogen induces St6gal1 expression and increases IgG sialylation in mice and patients with rheumatoid arthritis: a potential explanation for the increased risk of rheumatoid arthritis in postmenopausal women
ESTROGEN INFLUENCES THE SIALYLATION PROFILE AND INFLAMMATORY PROPERTIES OF ANTIBODIES - A POTENTIAL EXPLANATION FOR THE SEX DIFFERENCES AND INCREASED RISK FOR RA IN POSTMENOPAUSAL WOMEN
NOVEL MECHANISM MEDIATED BY THE IL23/TH17 AXIS CONTRIBUTING TO AUTO-IMMUNE ARTHRITIS
Regulation of autoantibody activity by the IL-23-T(H)17 axis determines the onset of autoimmune disease
IL-17/23 IN THE TRANSITION FROM AUTOIMMUNITY TO INFLAMMATION
Glycosylation of immunoglobulin G determines osteoclast differentiation and bone loss