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1 ent of patients with newly diagnosed primary CNS lymphoma.
2 l nervous system (CNS) and is called primary CNS lymphoma.
3 mosis medications alone, and one patient had CNS lymphoma.
4 23% had TP53 mutation, and 8% had secondary CNS lymphoma.
5 plantation (HSCT) in patients with secondary CNS lymphoma.
6 SCT in patients with newly diagnosed primary CNS lymphoma.
7 ell transplantation in patients with primary CNS lymphoma.
8 ssessment, staging, and treatment of primary CNS lymphoma.
9 ines for immunocompetent adults with primary CNS lymphoma.
10 ation, and tissue biopsy in the diagnosis of CNS lymphoma.
11 ore than 95% specificity in the diagnosis of CNS lymphoma.
12 aseline risk evaluation in untreated primary CNS lymphoma.
13 6.1% in human immunodeficiency virus-related CNS lymphoma.
14 le and active in the treatment of refractory CNS lymphoma.
15 )F-FDG PET as a prognostic marker in primary CNS lymphoma.
16 resurgical evaluation for cases of suspected CNS lymphoma.
17 iotherapy (rdWBRT) and cytarabine in primary CNS lymphoma.
18 le and active in the treatment of refractory CNS lymphoma.
19 tients aged 70 years or younger with primary CNS lymphoma.
20 t may contribute to the pathogenesis of this CNS lymphoma.
21 role for JCV in the pathogenesis of primary CNS lymphoma.
22 brain metastasis, and primary and secondary CNS lymphomas.
23 fractory embryonal brain tumours and primary CNS lymphomas.
24 s-positive control tissues including several CNS lymphomas.
25 atistically significant (P = 0.011) in these CNS lymphomas.
26 mor vasculature as well as by tumor cells in CNS lymphomas.
27 ling, by tumor cells and tumor endothelia in CNS lymphomas.
28 recurrent/refractory central nervous system (CNS) lymphoma.
29 specimens of primary central nervous system (CNS) lymphomas (12/27 [44.4%]), an EBV-associated malign
30 -5.2%]; BL, 21.5% [95% CI, 17.7%-25.4%]; and CNS lymphoma, 12.9% [95% CI, 10.5%-15.3%]; all P < .001
31 10.5%]; BL, 27.8% [95% CI, 25.0%-30.5%]; and CNS lymphoma, 48.3% [95% CI, 46.7%-49.8%]; all P < .001
32 mors include primary central nervous system (CNS) lymphoma (7%) and malignant forms of ependymomas (3
33 onsisted of 26 multiple sclerosis, 8 primary CNS lymphoma, 84 aquaporin-4 immunoglobulin G positive,
34 isruption is known to occur in patients with CNS lymphoma, a direct link between these two has not be
38 ed 18-70 years) with newly diagnosed primary CNS lymphoma and an Eastern Cooperative Oncology Group p
39 up to 70 years with newly diagnosed primary CNS lymphoma and as the control group for future randomi
42 ged 18-65 years with newly diagnosed primary CNS lymphoma and immunocompetence, with no limitation on
43 ed 18-70 years) with newly diagnosed primary CNS lymphoma and measurable disease were enrolled from 5
44 c method for rapid differential diagnosis of CNS lymphoma and toxoplasmosis in patients with AIDS.
45 ith high doses of antimetabolites in primary CNS lymphoma and with rituximab plus high-dose sequentia
46 e elucidation of the molecular properties of CNS lymphomas and their microenvironment, as well as evo
47 rent knowledge regarding the pathogenesis of CNS lymphomas and to highlight promising strategies that
48 diagnosis of primary central nervous system (CNS) lymphoma and cerebral toxoplasmosis in patients wit
49 terleukin (IL)-10 in central nervous system (CNS) lymphomas and to evaluate the utility of each as pr
51 cell lymphoma, Burkitt lymphoma, and primary CNS lymphoma, and to a lesser extent, Hodgkin lymphoma.
52 tients age 18 to 70 years old with secondary CNS lymphoma, and we propose it as a new standard therap
53 ATIII RNA transcripts were identified within CNS lymphomas, and ATIII protein was localized selective
55 Patients with multiple sclerosis, primary CNS lymphoma, aquaporin-4 immunoglobulin G positivity, n
57 ial addressing a new treatment for secondary CNS lymphoma based on encouraging experiences with high
58 young patients with newly diagnosed primary CNS lymphoma, but further comparative studies are needed
61 cases, 27.1% (95% CI, 26.1%-28.1%) of 27,265 CNS lymphoma cases, and 0.42% (95% CI, 0.37%-0.47%) of 3
62 s [immunoblastic and central nervous system (CNS) lymphoma] caused by loss of T-cell function, and (2
65 IAN in patients with central nervous system (CNS) lymphoma (CNSL) treated with CD19-directed chimeric
69 trexate (MTX)-based chemotherapy for primary CNS lymphoma, determine whether additional cycles of ind
70 We conducted a review of the literature on CNS lymphoma diagnosis (1966 to October 2011) to determi
73 retention index is useful in differentiating CNS lymphomas from other malignant and nonmalignant path
74 can help distinguish central nervous system (CNS) lymphoma from toxoplasmosis and other nonmalignant
75 s and their contribution to the diagnosis of CNS lymphoma in 91 diffuse large B-cell lymphomas (DLBCL
76 ymptoms in DLBCL and BL and with parenchymal CNS lymphoma in DLBCL; sCD19 emerged as a powerful predi
88 show that while individual cases of primary CNS lymphomas may be classified as germinal center B-cel
89 scale, or MILAS) was used to assess primary CNS lymphoma metabolism as a marker of clinical aggressi
91 n the neuroaxis, and proper treatment of the CNS lymphoma patient requires a multidisciplinary team w
92 concentration of CXCL13 and IL-10 in CSF of CNS lymphoma patients and control cohorts including infl
93 nogen around B-cell lymphoma was detected in CNS lymphoma patients and in the CNS parenchyma in an or
94 ur institutional experience with 8 secondary CNS lymphoma patients treated with commercial tisagenlec
96 AIDS subjects, including those with primary CNS lymphoma (PCNSL) (outside the area of neoplastic inv
98 valuation and response assessment of primary CNS lymphoma (PCNSL) are critical to ensure comparabilit
100 rs for patients with newly diagnosed primary CNS lymphoma (PCNSL) in order to establish a predictive
105 viously reported on 31 patients with primary CNS lymphoma (PCNSL) treated between 1986 and 1992 with
114 rare form of primary central nervous system (CNS) lymphoma (PCNSL) arising in the intraocular compart
116 atients with primary central nervous system (CNS) lymphoma (PCNSL) were excluded from all pivotal CAR
117 rimary and secondary central nervous system (CNS) lymphoma poses a unique set of diagnostic, prognost
118 aventricular rituximab/MTX, including 1 with CNS lymphoma refractory to high-dose systemic and intrat
119 Optimum treatment for patients with primary CNS lymphoma remains challenging because there have not
123 IL-10 as potentially important biomarkers of CNS lymphoma that merit further evaluation and support i
124 at intracranial MZBCL is an indolent primary CNS lymphoma that typically presents as a meningioma-lik
126 in newly diagnosed non-AIDS-related primary CNS lymphoma was conducted in the New Approaches to Brai
127 petent patients with newly diagnosed primary CNS lymphoma who underwent pretreatment (18)F-FDG PET we
128 an independent set of patients with primary CNS lymphoma who were treated with high-dose intravenous
129 t modality was effective against established CNS lymphoma with leptomeningeal metastases, sites that
130 study investigated the treatment of primary CNS lymphoma with methotrexate, temozolomide (TMZ), and
131 r PET represents a novel diagnostic tool for CNS lymphoma with potential implications for theranostic
133 was 99.3% specific for primary and secondary CNS lymphoma, with sensitivity significantly greater tha