Добірка наукової літератури з теми "658.8 : 339.166.5"

Abstract Introduction: Peripheral leukocyte deficiency is a common feature of multiple diseases and may render affected individuals susceptible to infections, both common and opportunistic. The CXCR4 chemokine receptor regulates the trafficking of leukocytes among the bone marrow, blood, and lymphatic system (Al Ustwani O, et al. Br J Haematol. 2014;164:15-23). Mavorixafor is an orally available investigational, small-molecule, selective antagonist of the CXCR4 receptor with potential to restore physiological trafficking and maturation of white blood cells (WBCs). Mavorixafor was previously shown to increase totals and subsets of WBCs in healthy volunteers and in a phase 2 clinical trial in adults with WHIM (Warts, Hypogammaglobulinemia, Infections, Myelokathexis) syndrome (Stone N, et al. Antimicrob Agents Chemother. 2007;51(7):2351-2358; Dale D, et al. Blood. 2020;136(26):2994-3003). Here, we report the effect of daily oral administration of mavorixafor on peripheral WBC counts and subsets in patients with clear cell renal cell carcinoma (ccRCC), WHIM syndrome, and Waldenström's macroglobulinemia (WM). Methods: Percentage changes in total peripheral WBC count, absolute neutrophil count (ANC), absolute lymphocyte count (ALC), and absolute monocyte count (AMC) from pretreatment levels were evaluated in the following settings: a phase 1/2 trial evaluating mavorixafor (200 mg twice daily or 400 mg once daily [QD]) in combination with axitinib (5 mg twice daily) in patients with advanced ccRCC who received ≥1 prior therapy; a phase 1b trial evaluating mavorixafor (400 mg QD) in combination with nivolumab (240 mg QD) in patients with metastatic ccRCC unresponsive to prior nivolumab monotherapy; a long-term extension of the aforementioned phase 2 trial evaluating mavorixafor 300 or 400 mg QD in patients with WHIM syndrome with pathogenic CXCR4 gain-of-function mutation and ANC ≤400/μL and/or ALC ≤650/μL; and an ongoing phase 1b trial evaluating mavorixafor (200 mg QD for 4 weeks, increased to 400 mg and 600 mg QD thereafter) in combination with ibrutinib (420 mg QD) in patients with WM with MYD88 and CXCR4 mutations. Results: In the study evaluating combination mavorixafor (400 mg QD) and axitinib in ccRCC, total WBC count, ANC, ALC, and AMC increased to 153%, 158%, 143%, and 182% of baseline after 4 weeks (n=49), and with increases sustained at 159%, 171%, 139% and 166% of baseline after 6 months' treatment (n=20). In the study evaluating mavorixafor in combination with nivolumab in ccRCC, total WBC count, ANC, ALC, and AMC increased to 146%, 143%, 141%, and 179% of baseline after 4 weeks (n=9), and with increases sustained at 147%, 136%, 152%, and 191% of baseline after 6 months (n=2). In an interim analysis of the phase 1b trial in WM, compared to screening values, total WBC count, ANC, ALC, and AMC increased to 192%, 170%, 219%, and 186% of baseline after 4 weeks (n=8), and with increases sustained at 163%, 192%, 106%, 172% of baseline after 6 months' (n=5) treatment. In the WHIM syndrome phase 2 extension, total WBC count, ANC, ALC, and AMC increased to 339%, 652%, 239%, and 486% of baseline after 6 months' (n=5) treatment, with annualized infection rate decreasing from 5.6 (SD ± 3.13) events at baseline to 2.2 (SD ± 0.93) events after 40 months. Mavorixafor was generally well tolerated, with manageable safety profile across all indications either alone or in combination with other drugs. Conclusions: Mavorixafor alone or in combination with other therapies is the first oral treatment to either acutely or chronically increase total peripheral WBCs 1.5- to 3-fold and WBC subsets across all disease populations examined, in both the presence (WHIM syndrome and WM) and absence (ccRCC and healthy volunteers) of CXCR4 gain-of-function mutation. Increases in WBC subsets occurred rapidly and were sustained during chronic treatment, with a larger treatment effect in patients with pre-existing cytopenia (WHIM syndrome) compared to patients without cytopenia at baseline (ccRCC and WM). Co-occurring reduction in infection burden was observed in the phase 2 trial in WHIM syndrome. Assessment of the beneficial effects of mavorixafor on total and WBC subsets is ongoing in a phase 3 trial of WHIM syndrome and a phase 1 trial of severe chronic neutropenia (SCN) that will assess the potential to correct cytopenias by elevating total WBC counts. Disclosures Dale: X4 Pharmaceuticals: Consultancy, Honoraria, Research Funding. Treon: AbbVie: Consultancy, Research Funding; Dana Farber Cancer Institute: Current Employment; Self: Patents & Royalties: Holder of multiple patents related to testing and treatment of MYD88 and CXCR4 mutated B-cell malignancies; BMS: Consultancy, Research Funding; BeiGene: Consultancy, Research Funding; Janssen: Consultancy, Research Funding; Pharmacyclics: Consultancy, Research Funding; X4: Research Funding. McDermott: Johnson and Johnson: Consultancy, Honoraria; Genentech: Research Funding; Eisia Inc.: Consultancy, Honoraria; Werewolf Therapeutics: Consultancy, Honoraria; Calithera Biosciences: Consultancy, Honoraria; X4 Pharmaceuticals: Research Funding; Iovance: Consultancy, Honoraria; EMD Serono: Consultancy, Honoraria; BMS: Consultancy, Honoraria, Research Funding; Merck: Consultancy, Honoraria, Research Funding; Pfizer: Consultancy, Honoraria, Research Funding; Exelixis: Research Funding; Alkermes, Inc.: Consultancy, Honoraria, Research Funding; Eli Lilly and Company: Consultancy, Honoraria. Cadavid: X4 Pharmaceuticals: Current Employment, Current equity holder in publicly-traded company. Luo: X4 Pharmaceuticals: Consultancy. Garg: X4 Pharmaceuticals: Current Employment, Current equity holder in publicly-traded company. Tang: X4 Pharmaceuticals: Current Employment, Current equity holder in publicly-traded company. Jiang: X4 Pharmaceuticals: Current Employment, Current equity holder in publicly-traded company. Chen: X4 Pharmaceuticals: Current Employment, Current equity holder in publicly-traded company. Taveras: X4 Pharmaceuticals: Current Employment, Current equity holder in publicly-traded company. Bhandari: X4 Pharmaceuticals: Current Employment.

Abstract Mobilized peripheral blood is increasingly used as the source of hematopoietic stem cells for allogeneic transplantation, currently the only curative approach for sickle cell anemia. However, the safety and feasibility of stem cell mobilization in individuals with sickle cell trait (SCT) has not been documented. This study is a prospective controlled trial to evaluate the safety and feasibility of peripheral blood stem cell (PBSC) mobilization in 8 SCT subjects and 8 control subjects matched for age and race. Mobilization with filgrastim 10 μg/kg subcutaneous daily for 5 days was followed by 12-L apheresis on the fifth day. Filgrastim administration was accompanied by similar symptoms in all subjects; no untoward adverse events occurred in either group, including sickle cell crises. CD34+ cell mobilization response was not significantly different between SCT and control subjects. Median CD34+ cell content was also similar in PBSCs collected from SCT versus control subjects, 6.8 versus 3.9 ×106 CD34+ cells/70 kg,P = .165. Red cell depletion from SCT products was not possible by using hydroxyethyl starch sedimentation but was achievable with ammonium chloride lysis. There was no evidence of gelling of SCT products after thaw, and no difference in cell recovery was seen among red cell–depleted versus nondepleted products. Cryopreservation in 5% dimethyl sulfoxide/6% pentastarch was associated with superior cell recovery (both SCT and control subjects) compared with 10% dimethyl sulfoxide (P = .001). The study concluded that filgrastim mobilization, large volume apheresis, processing, and cryopreservation appears to be safe in donors with SCT, allowing PBSC use for transplantation in patients with sickle cell anemia.

Abstract Abstract 3125 Poster Board III-62 VTE is the most frequent complication of OS and it can be prevented through anticoagulant prophylaxis. Numerous studies have evaluated different agents for this purpose and there are new agents currently under development or recently approved for this indication. We conducted a systematic review of randomized controlled trials (RCT) evaluating administration of anticoagulants for VTE prophylaxis in OS and performed a MA of proportions to estimate the overall incidence of major VTE (proximal VTE, pulmonary embolism (PE), or death from PE), total VTE (proximal and distal VTE, PE or death from PE), symptomatic VTE and major bleeding episodes (as defined by the International Society on Thrombosis and Hemostasis). We included RCT comparing currently approved anticoagulants (head-to-head or placebo-controlled) for VTE prophylaxis in OS (hip and knee arthroplasty and hip fracture surgery) using systematic evaluation of VTE (ultrasound or venography, pulmonary angiography, CT pulmonary angiography, or ventilation perfusion scan). Heterogeneity of proportions was evaluated using a chi2 test and pooled estimates of proportions were obtained using either a fixed or a random effects model in which the weights were estimated as proposed by Laird and Mosteller. We retrieved 74 studies including180 research arms and enrolling 71,012 patients. The total number of events and evaluable patients, percentage of events and 95% CI, and number of study arms included are shown in the table. We found differences in the percentage of VTE and bleeding events associated with the use of different anticoagulants for VTE prophylaxis after OS. Due to the nature of the analysis no effect measure can be estimated. These estimates might help to design future studies. Major VTE Total VTE Symptomatic VTE Major Bleeding Cases / Evaluable Pts. (N) Percentage (95% CI) Study arms (N) Cases / Evaluable Pts. (N) Percentage (95% CI) Study arms (N) Cases / Evaluable Pts. (N) Percentage (95% CI) Study arms (N) Cases / Evaluable Pts. (N) Percentage (95% CI) Study arms (N) All patients LMWH 993/23692 5.96 (5.81, 6.11) 72 4068/22610 20.29 (20.04, 20.55) 80 193/19431 1.32 (1.27, 1.37) 35 476/28725 1.98 (1.93, 2.02) 70 UFH 234/2407 13.39 (12.86, 13.93) 14 596/2537 22.54 (22, 23.08) 17 11/339 3.24 (3.06, 3.43) 4 70/2849 2.75 (2.61, 2.89) 16 Warfarin 269/5677 6.28 (6.09, 6.46) 12 1317/4203 31.05 (30.44, 31.66) 12 71/4146 1.95 (1.83, 2.08) 6 96/6751 1.78 (1.69, 1.87) 12 Fonda 96/3673 3.81 (3.53, 4.09) 7 223/3477 6.82 (6.57, 7.07) 6 69/6398 1.06 (1.01, 1.1) 8 121/6576 1.63 (1.55, 1.71) 9 Riva 50/5025 2.02 (1.86, 2.19) 8 242/4595 13.05 (12.16, 13.94) 8 29/6252 0.46 (0.45, 0.48) 6 31/6643 0.63 (0.59, 0.68) 8 Dabi 149/4091 3.64 (3.59, 3.69) 6 834/4051 22.96 (21.91, 24.01) 6 26/3664 0.71 (0.67, 0.75) 4 67/5419 1.21 (1.17, 1.26) 6 Placebo 193/710 24.26 (23.17, 25.34) 10 379/816 49.35 (48.08, 50.62) 11 19/198 12.02 (10.32, 13.72) 3 12/753 1.59 (1.5, 1.68) 7 Total 1984/45275 129 7659/42289 140 418/40428 66 873/57716 128 Total Hip Arthroplasty LMWH 653/15978 6 (5.85, 6.16) 50 1817/14480 15.58 (15.35, 15.82) 55 81/11552 0.7 (0.69, 0.72) 19 306/18010 1.97 (1.92, 2.02) 45 UFH 187/1739 14.3 (13.64, 14.96) 11 354/1836 20.13 (19.46, 20.8) 13 11/246 4.47 (4.21, 4.73) 3 52/1451 3.2 (3.01, 3.39) 11 Warfarin 77/2758 4.28 (4.08, 4.48) 6 265/1273 20.82 (20.59, 21.04) 6 32/1833 1.75 (1.69, 1.81) 2 47/2856 2.23 (2.09, 2.37) 5 Fonda 28/1799 2.96 (2.58, 3.33) 3 85/1695 5.01 (4.91, 5.12) 2 15/2255 0.67 (0.63, 0.7) 2 69/2349 2.94 (2.87, 3.01) 3 Riva 25/2938 2.21 (1.95, 2.46) 5 73/2749 9.72 (8.92, 10.53) 5 10/3468 0.29 (0.27, 0.31) 3 14/3795 0.49 (0.44, 0.54) 5 Dabi 72/1803 3.99 (3.88, 4.11) 2 124/1766 7.02 (6.77, 7.27) 2 21/2293 0.92 (0.91, 0.93) 2 38/2309 1.65 (1.58, 1.72) 2 Placebo 105/414 26.01 (24.76, 27.27) 7 174/418 45.43 (43.74, 47.13) 7 4/147 2.72 (2.46, 2.98) 2 3/388 0.77 (0.69, 0.86) 5 Total 1147/27429 84 2892/24217 90 174/21794 33 529/31158 76 Total Knee Arthroplasty LMWH 277/6916 4.45 (4.34, 4.55) 25 2062/7326 30.72 (30.37, 31.07) 32 83/4902 1.69 (1.66, 1.73) 11 89/7808 1.14 (1.12, 1.16) 26 UFH 42/638 6.58 (6.39, 6.78) 3 226/638 35.42 (35.05, 35.79) 3 0/93 NE 1 3/318 0.94 (0.84, 1.05) 2 Warfarin 192/2919 8.1 (7.88, 8.32) 9 1052/2930 39.36 (38.69, 40.02) 9 39/2056 1.9 (1.84, 1.96) 3 28/3407 0.82 (0.79, 0.85) 8 Fonda 23/452 9.3 (7.93, 10.67) 2 45/361 12.47 (12.12, 12.81) 1 3/517 0.58 (0.51, 0.65) 1 12/601 2 (1.88, 2.11) 2 Riva 25/2087 1.2 (1.15, 1.24) 3 169/1846 18.55 (16.47, 20.63) 3 19/2784 0.68 (0.65, 0.71) 3 17/2848 0.6 (0.57, 0.63) 3 Dabi 77/2288 3.37 (3.32, 3.41) 4 710/2285 30.98 (30.42, 31.55) 4 5/1371 0.36 (0.32, 0.41) 2 29/3110 0.93 (0.89, 0.98) 4 Placebo 88/296 27.12 (24.54, 29.7) 4 205/398 55.19 (53.53, 56.84) 5 15/51 29.41 (28.16, 30.66) 1 9/365 2.47 (2.31, 2.62) 4 Total 724/15596 50 4469/15784 57 164/11774 22 187/18457 49 LMWH Low molecular weight heparin, UFH unfractionated heparin, Riva Rivaroxaban, Dabi Dabigatran etexilate Disclosures Lazo-Langner: Boehringer Ingelheim: Honoraria. Rodger:Bayer: Research Funding; Leo Pharma: Research Funding; Pfizer: Research Funding; Boehringer Ingelheim: Membership on an entity's Board of Directors or advisory committees; Biomerieux: Research Funding; GTC Therapeutics: Research Funding.

Abstract Blockade of CD49d-mediated lymphocyte trafficking has been used therapeutically for certain autoimmune diseases. In addition to effects on mature lymphocytes, in mice and monkeys CD49d blockade also mobilizes immature hematopoietic cells from bone marrow (BM), capable of complete long-term engraftment despite a partial BM seeding defect. The aim of these studies was to ascertain effects on the biology of HSPC mobilization of single or chronic CD49d blockade in Multiple Sclerosis (MS) patients receiving disease-modifying treatment with the anti-functional anti-CD49d antibody, Natalizumab. These studies represent the first observations on HSPC mobilization by anti-CD49d antibodies in humans and on chronic exposure to a mobilizing agent. Circulating CD34+ cells (1.8±0.4/μL) and CFU-C (638±128/mL) were normal in MS patients (n=9) prior to the first Natalizumab infusion (normal controls: 1.3±0.1/μL CD34+ cells, 608±129/mL CFU-C). In chronically treated patients (i.e patients who had received ≥5 prior doses of Natalizumab) HSPC numbers were significantly elevated 30 days after the last infusion (CD34+ cells 9.0±1.2/μL, CFU-C 3243±332/mL, n=10, p<0.005). The blood of chronically Natalizumab-treated subjects also contained SCID-repopulating cells (n=3). After the first Natalizumab infusion, peripheral blood CD34+ cells and CFU-C were significantly increased over pre-treatment values (CD34+ cells 1.6±0.2/μL vs. 8.0±2.1/μL, CFU-C 414±161/mL vs. 2560±726/mL, n=7, p<0.005), indicating that a single dose of Natalizumab was sufficient to elicit similar mobilization levels as in chronic recipients. Renewed Natalizumab infusion in “chronic” Natalizumab-recipients did not result in additional mobilization, compared to values from just before that infusion (CD34+ cells 7.9±1.7/μL vs. 7.9±0.9/μL, CFU-C 3133±335/mL vs. 3525±305/mL, n=4). These data indicate that in the absence of CD49d-mediated BM retention a new equilibrium is established between HSPC in BM and in circulation. In long-term Natalizumab recipients a total of ca. 50x10E6 CD34+ cells (8 CD34+ cells/μL * 6L of blood) are in circulation at any given time. Considering the documented short half-life of circulating HSPC, (100 min in the mouse) this implies that approximately 700x10E6 CD34+ cells/day are trafficking in the average Natalizumab recipient. Whether the elevated numbers of circulating HSPC play a clinically relevant role for Natalizumab-treated MS patients is currently unclear. Given reports of MS flares under G-CSF, we propose that “steady-state” apheresis without additional mobilizing agents may be a safe and effective alternative to G-CSF if MS patients on Natalizumab are considered for autologous HSPC transplantation, an emerging treatment for refractory MS. The usefulness of Natalizumab as a mobilizing agent is likely restricted to the autologous setting, given the risk of immunization against Natalizumab and its prolonged effects. Instead, short-acting small-molecule inhibitors of CD49d could be developed as a mobilizing strategy for patient groups intolerant or unresponsive to G-CSF, alone or in combination with other novel mobilizing agents.

Purpose:To examine aerobic fitness, total moderate to vigorous physical activity (MVPA) and also patterns in terms of MVPA between children and adolescents with human immunodeficiency virus (HIV) and controls, and to determine whether differences, if any, are associated with HIV, sex and highly active antiretroviral therapy (HAART).Method:A cross-sectional analysis was carried out with 130 children and adolescents, aged between 8 and 15 years, divided into two groups (HIV group= 65 patients, control group= 65 healthy participants). Total MVPA was measured by accelerometers and 5 and 10-min bouts were estimated. The peak oxygen uptake (peak VO2) was measured by breath-by-breath respiratory exchange in an incremental cycle ergometer test.Results:HIV-positive participants had lower peak VO2 (39.2 ± 6.8 vs. 44.5 ± 9.1 ml.kg-1min-1), lower bouts of MVPA of 5-min (19.7 ± 16.6 vs. 26.6 ± 23.5) and 10-min (3.6 ± 3.9 vs. 5.8 ± 7.2), but similar total MVPA (49.5 ± 28.9 vs. 49.1 ± 30.6 min.day-1). HIV infection in untreated, nonprotease inhibitors (PI)- based HAART and PI-based HAART patients was associated with lower 8.5 (95%CI= 12.5–4.6), 7.1 (95%CI= 10.6–3.6) and 4.5 (95%CI= 7.0–2.0) ml.kg-1min-1 of peak VO2.Conclusion:Children and adolescents with HIV demonstrated lower aerobic fitness compared with the controls and the absence of HAART may increase peak VO2 impairment. Lower bouts of MVPA were also observed in HIV group despite the similar values of total MVPA of controls.

Abstract Abstract 3211 Poster Board III-148 Although autologous stem cell transplantation (ASCT) has become standard of care for many patients with hematologic malignancies, many patients fail to collect a minimum number of CD34 + stem cells to support high dose chemotherapy and ASCT. Recently, plerixafor, a CXCR4 antagonist, was FDA approved for use in combination with G-CSF for autologous peripheral blood stem cell mobilization in patients with NHL or Multiple Myeloma. In February 2009, we commenced a risk adapted approach to the utilization of plerixafor. The study was restricted to patients mobilized with GCSF alone and patients undergoing chemotherapy primed PBSC mobilization were excluded. Peripheral blood stem cell mobilization was commenced with G-CSF at 10 mcg/kg/day. On day 4, a peripheral blood (PB) CD34 count was measured. For patients whose PB CD34 was ≥10/μL, apheresis was commenced the following morning. For patients whose PB CD34 was <10/μL, it was measured again on day 5; if ≥10/μL then apheresis was commenced the following morning. If PB CD34 was <10/μL on day 5, plerixafor (0.24 mg/kg sc) was administered on the evening of day 5 and apheresis was commenced the following day (Group A). In addition, during apheresis, for patients whose collection yield was < 0.5 × 106 CD34/kg, in the absence of instrument failure or problems with the collection procedure, plerixafor was added (Group B). Morning administration of G-CSF and evening dosing of plerixafor continued daily until apheresis was complete. From February to July 2009, 174 mobilization attempts occurred; 27 with chemotherapy and 147 with cytokines alone. The 147 pts who underwent mobilization with cytokines alone are presented here. The underlying diagnosis was as follows: Myeloma 61 pts, NHL 54 pts, Amyloid 17 pts, Hodgkin 10 pts, POEMS 4 pts and 1 pt with a solid tumor. For the entire group the median number of CD34 cells collected was 5.5 × 106 CD34/kg (range 0.1-17). The median number of apheresis was 3 (range 1-12). 67 patients (46%) received plerixafor; 37 patients started plerixafor during mobilization (Group A) and 30 patients during collections due to a poor yield (Group B). 12 pts of the 37 received plerixafor on day 4 because of prior mobilization failure or high risk of mobilization failure and are included in Group A. Table 1 outlines the details of mobilization and collection by groups. By disease category, of the 61 patients with MM, 28 (46%) received plerixafor (8 Group A and 20 Group B). Median apheresis in all the MM pts was 2 (range 1-12) with a total of 6.8 × 106 CD34/kg (2.2-16.7). In the 54 NHL pts, 32 (59%) received plerixafor (24 Group A and 8 Group B). Median apheresis for all pts with NHL was 3 (range 1-7) with a total of 4.6 × 106 CD34/kg (range 0-11.4). Overall, only 7 of 147 (5%) mobilization attempts failed to achieve a minimum of 2 × 106 CD34/kg. This compares to a 22% failure rate prior to institution of this risk adapted approach. In conclusion, implementing this risk adapted approach allows poor mobilizers to be identified promptly and for plerixafor to be initiated during mobilization and collection, thereby reducing the number of mobilization failures. In patients who predictably would not have successful collection based on a PB CD34 <10/μL, addition of plerixafor results in a majority of patients achieving an adequate collection. This risk adapted approach may be more cost effective than reattempting mobilization after a prior failure or utilizing combination G-CSF and plerixafor for upfront mobilization. Table 1. Mobilization and Collection data. All patients N=147 Group A1 N=37 Group B2 N=30 No Plerixafor N=80 PB CD34 day 4 Median 11 0 7 19 Range 0-331 0-7 0-32 0-331 PB CD34 day 5 Median 10 4.5 12 15 Range 0-51 2-9 11-23 9-51 Apheresis Yield Median 5.5 4.4 6.0 6.2 Range 0.1-17 3.1-12.7 3.0-12.2 2-17 Number of Apheresis Median 3 3 5 2 Range 1-12 1-7 4-12 1-8 Days of Plerixafor Median n/a 3 2 n/a Rang 1-7 1-8 1 Group A – Plerixafor initiated prior to apheresis 2 Group B – Plerixafor initiated during apheresis Disclosures No relevant conflicts of interest to declare.

Background:Disease activity (DA) at conception is one of the main predictors of pregnancy outcomes in women of childbearing age (WoCBA) with rheumatic diseases. Teratogenicity and unawareness about pregnancy compatibility of some disease-modifying anti-rheumatic drugs might limit the choice of treatment in WoCBA.Objectives:To assess differences in prescription patterns between WoCBA with rheumatoid arthritis (RA), psoriatic arthritis (PsA), ankylosing spondylitis (AS) and juvenile idiopathic arthritis (JIA) and comparator groups, namely postmenopausal women (PMW) and age-matched men. Evaluate DA in WoCBA comparing to the aforementioned groups.Methods:Observational transversal study, using data from the portuguese registry of rheumatic diseases (Reuma.pt) from 3 portuguese centers. Adult patients (pts) with the diagnosis of RA, PsA, AS or JIA were allocated to the following groups: WoCBA (aged 18–44y), young men (YM) (18–44y), PMW (≥ 45y) and matched men (≥45y). Demographic and clinical variables are described as means or frequencies. Differences between groups regarding therapy and DA were assessed with Chi-square and ANOVA tests. Linear and logistic regression models were used to find predictors of DA and prescription patterns.Results:2133 pts were included, 69.9% female with a mean age of 55.96±15.85 y. 1437 pts were diagnosed with RA, 305 with PsA, 254 with AS and 137 with JIA. Patterns of prescription are detailed in table 1. WoCBA were less likely to be treated with glucocorticoids than PMW (OR 0.66 95%CI 0.44-0.99). WoCBA were 1.76 times more likely to be treated with MTX than YM (95%CI 1.04-2.97). Certolizumab was specially prescribed in WoCBA (OR 13.8, 95%CI 1.4-132.8). WoCBA had significantly higher DA scores than YM (DAS28 3.03±1.39 vs 2.32±1.18 and BASDAI 3.55±2.0 vs 2.43±1.66).Table 1.Prescription patternsMedications, n (%)A -WoCBA(N=256)B - Young Men(N=161)C - Post menopausal Women(N=927)D - MenN=340Chi-square testNSAIDs143 (55.9)111(68.9)472 (50.9)169 (49.7)p<0.001Glucocorticoids106 (41.4)31 (19.3)625 (67.4)154 (45.3)p<0.001csDMARDs- Methotrexate149 (58.2)60 (37.3)663 (71.5)197 (57.9)p<0.001- Leflunomide12 (4.7)4 (2.5)45 (4.9)2 (0.6)p=0.003- Sulfassalazine9 (3.5)5 (3.1)39 (4.2)9 (2.7)NS- Hydroxychloroquine36 (14.1)4 (2.5)117 (12.6)18 (5.3)p<0.001bDMARDs- Etanercept48 (18.8)29 (18.0)140 (15.1)66 (19.4)NS- Infliximab9 (3.5)11 (6.8)36 (3.9)30 (8.8)p=0.002- Adalimumab17 (6.6)15 (9.3)47 (5.1)27 (7.9)NS- Golimumab15 (5.9)18 (11.2)37 (4.0)30 (8.8)p<0.001- Certolizumab10 (3.9)0 (0)2 (0.3)2 (0.6)p<0.001- Tocilizumab12 (4.7)2 (1.2)71 (7.7)10 (2.9)p<0.001- Rituximab5 (1.9)0 (0)50 (5.4)4 (1.2)p<0.001- Abatacept0 (0)0 (0)9 (1)0 (0)NS- Secukinumab1 (0.4)4 (3.5)8 (0.9)2 (0.6)NS- Ustekinumab1 (0.4)3 (1.9)5 (0.5)0 (0)NStsDMARDs4 (1.6)1 (0.6)9 (0.9)0 (0)NSbDMARDs – biologic disease modifying antirheumatic drugs, csDMARDs – conventional synthetic disease modifying antirheumatic drugs, NSAIDs – non-steroidal anti-inflammatory drugs, tsDMARD – targeted synthetic disease modifying antirheumatic drugs, WoCBA – women of childbearing ageConclusion:Certolizumab was prescribed preferentially in WoCBA, who alsoreceived more MTX than YM. Nevertheless, DA in this group was not well controlled, which may influence future pregnancy outcomes. Ensuring tight DA control in WoCBA through proper and ideally no teratogenic medication remains an unmet clinical need.Disclosure of Interests:None declared

The amount of water, nitrogen (N), phosphorous (P), and iron (Fe) lost from potted impatiens (Impatiens wallerana Hook. f.) plants fertilized with either controlled-release fertilizer (CRF) of varying longevities or a water-soluble fertilizer (WSF), with irrigation provided with a hose in all treatments, was quantified. The plants were grown in a sphagnum peat-based soilless substrate containing either CRF [Osmocote Plus 16-9-12 (16-3.9-10-0.46 N:P:K:Fe), 5 to 6 month and or 8-to 9 month longevities] incorporated (6.8 kg·m−3 or 11.5 lb·yd−3) throughout the substrate and compared with plants fertigated with a WSF [Peters Professional 20-10-20 (20-4.4-1.66-0.1 N:P:K:Fe) at 150 mg·L−1 (150 ppm) N]. The container-grown plants were placed on top of plastic cups and located inside a plastic box. Municipal water or mineral nutrient solution leached from each container and lost between containers was captured, quantified and analyzed for N, P, and Fe concentrations. As an average for the three treatments, 25.6% of the total water applied was leached out of the pots and 34% fell between the pots. Six weeks after starting the experiment, leachate from pots fertilized with WSF had approximately a 92% higher concentration of N, 96% more P, and 69% more Fe than the concentrations in leachate from CRF-fertilized pots. These results quantify the assumed inefficiencies of using a hose as the primary fertilizer delivery method.

Abstract Abstract 1867 Secondary myelodysplastic syndrome and acute myelogenous leukemia (2° MDS/AML) are well-known complications that can occur after alkylating agent therapy for multiple myeloma (MM) or other cancers. However, until recently, the survival of MM pts was relatively short, a feature which may have contributed to a relatively low reported incidence of this complication in MM. The introduction of novel agents has improved survival rates of MM pts; lenalidomide (len) + dexamethasone–currently approved for MM after one prior therapy– is one of the main regimens that has contributed to this finding. Since alkylating agents, either given orally or as part of high-dose melphalan + ASCT, still remain an important component of MM therapy, more pts may survive to be at risk for 2° MDS/AML. Using the MM database at PMH, we retrospectively reviewed the charts of patients with relapsed/refractory (rel/ref) MM treated with len-based regimens (>1 cycle) to determine the incidence and characteristics of 2° MDS/AML that developed during this therapy. Between 06/2006 and 08/2012 we identified 230 patients having received len-based therapy: len + corticosteroids 222 patients, len alone 8 patients, cyclophosphamide + len + prednisone (CPR) 32 patients. 2° MDS/AML developed in 9 patients (3.9%) at a median of 89.6 months (range 30–188) from the time of diagnosis of MM and 22.4 (2–56.6) months from the time of initiation of len regimens. The median follow-up from start of len was 1.6 years, and from the start of diagnosis 7.5 years. The median duration of len treatment was 9.4 months. The MDS/AML cytogenetic changes were variable, but four patients had deletions of all or part of chromosome 5. None of the 2° MDS/AML had translocation t(4;14), as compared to 5.9% in (−) MDS/AML subgroup. The characteristics of patients at the time of starting len, in those who later developed (+) or did not develop (−) 2° MDS/AML during therapy, are shown in Table 1. Cumulative incidence of 2° AML/MDS from time of diagnosis to time of 2° AML/MDS is 4.5% [95% CI 2.2–9.2%] at 15 years. Cumulative incidence of 2° AML/MDS from starting time of len to time of AML/MDS is 5% [95% CI 2.4–10.4%] at 5 years. The incidence of 2° MDS/AML among those who had prior oral alkylators (OA) and/or concomitant OA was 10.5% (2/19 patients), concomitant cyclophosphamide only 7.6% (1/13), prior OA only 1.9% (3/152), and 6.5% for those who did not receive prior/concomitant OA (3/46). Grade 3–4 neutropenia occurred during len in 44% versus 58% in those with and without 2° MDS/AML, respectively. G-CSF was used in 56% of pts who developed MDS compared with 53% who did not. We conclude: 1) The cumulative incidence of MDS/AML from starting len to time of 2° AML/MDS was 5% at 5 years; 2) patients who developed 2° MDS/AML while on len regimens were slightly older, had slight male predominance, higher beta-2-microglobulin, creatinine and platelet count, less often received prior ASCT, thalidomide, and bortezomib, but had longer exposure to len; 3) the relationship with OA is not entirely certain, but it appears that those with prior and concomitant exposure to OA have the highest incidence of this complication, which is most often seen in prolonged len treatment. Table 1. Patient characteristics (n=230) Feature ALL patients (+) MDS/AML (–) MDS/AML Number of patients 230 9 221 Median age, years 61 (31–80) 68 (53–76) 61 (3–80) Male 134 (58%) 6 (67%) 128 (56%) Median baseline ANC, × 109/L 2.8 (0.9–61.4) 3.0 (1.5–5.1) 2.8 (0.9–61.4) Median baseline β-2 microglobulin (nmol/L) 222 (43–1695) 300 (133–481) 222 (43–1695) Median baseline pl count, × 109/L 156 (5–479) 200 (43–277) 156 (5–479) Median baseline creatinine, μmol/L 87 (39–515) 97 (56–117) 86 (39–515) Median # prior regimens 2 (0–6) 2 (1–5) 2 (0–6) Prior alkylating agents (all) 218 (95%) 9 (100%) 209 (95%) Prior oral alkylators 167 (73%) 6 (67%) 162 (73%) Prior ASCT 187 (81%) 2 (78%) 180 (81%) Prior thalidomide 132 (57%) 3 (33%) 129 (58%) Prior bortezomib 109 (47%) 3 (33%) 106 (48%) Concomitant cyclophosphamide 32 (13.9%) 3 (33%) 29 (13%) G-CSF use 123 (53%) 5 (56%) 118 (53.39%) Median duration of Len (mo, range) 9.4 (0.1–67.2) 22.8 (6.6–56.6) 6.8 (0.1–67.2) Disclosures: Chen: Johnson & Johnson, Lundbeck, Celgene: Consultancy; Roche: Honoraria; Johnson & Johnson, Celgene, GlaxoSmithKline: Research Funding. Kukreti:Roche: Consultancy, Honoraria; Celgene: Honoraria; Janssen: Honoraria. Reece:Janssen: Consultancy, Honoraria, Research Funding; Merck: Consultancy, Honoraria, Research Funding; Celgene: Consultancy, Honoraria, Research Funding; Novartis: Honoraria, Research Funding; Bristol Myers Squibb: Honoraria, Research Funding; Otsuka: Honoraria, Research Funding; Millennium Pharmaceuticals: Research Funding.

Abstract Introduction. CLL primarily affects elderly individuals who frequently have comorbid health conditions. It is typically assumed non-CLL-related etiologies will be the ultimate cause of death for most CLL patients, particularly those with comorbid conditions at diagnosis. Methods. Between 9/2002 and 11/2014, 1174 patients with newly diagnosed CLL were enrolled in a prospective cohort study evaluating the natural history of CLL. Comorbidities were prospectively recorded at the time of diagnosis. Comorbidities arising during the course of disease were not considered for this analysis. Standardized longitudinal follow-up was performed in all patients every 6 months for the first 3 years after diagnosis and annually thereafter through 04/2015. Internal and external medical records, death certificates, and information from next of kin were centrally reviewed to determine cause of death, using a standardized protocol. Categorical and continuous variables were evaluated using the c2 or Fisher exact tests and the Mann-Whitney test, as appropriate. Results. Baseline characteristics at time of CLL diagnosis are shown in the Table. Over 80% of patients had 2 or more comorbidities at diagnosis (median 3, range 0-11). After a median follow up of 5 years, 224 (19%) patients have died. The cause of death could be accurately determined in 183 (82%) of these patients. The cause of death was due to CLL in 135 (74%), including 84 (46%) CLL progressions, 14 (8%) infections, and 37 (20%) other cancers. Death was due to non-CLL-related causes (such as congestive heart failure, stroke or chronic obstructive pulmonary disease) in the remaining 48 (26%) patients. On univariable analysis, age and number of comorbid health conditions were not related to whether or not the cause of death was related/unrelated to CLL. The only specific co-morbid condition at diagnosis that predicted for non-CLL related death was stroke (8% vs 1%, p=0.04). Unmutated IGHV was the only prognostic factor thatpredicted greater likelihood of CLL-related death (70% vs 50%, p=0.03). Conclusions. The majority of patients with CLL have multiple comorbidities at time of diagnosis. Despite this fact, CLL progression and/or CLL-related complications are the primary cause of death. The number and type of comorbidities at diagnosis have minimal relationship to whether or not the ultimate cause of death was CLL-related. In contrast, the CLL-specific characteristic IGHV status (but interestingly not FISH defects) correlates with cause of death. Collectively, these findings illustrate the need for more effective CLL therapy, particularly treatments that can be tolerated by patients with comorbid health conditions. It is hoped the signaling inhibitors may help address this unmet need. Table. Number (%), median [range] N=1174 Age (years) 63 [23-89] Males Females 791 (67) 383 (33) Creatinine-Clearance > (mL/min) 86 [10-252] B2M (mg/dL) 2.3 [1.1-13.2] Rai stage 0 I-II III-IV 604 (52) 512 (38) 54 (10) CD49d positive negative 277 (30) 638 (70) CD38 positive negative 332 (30) 780 (70) ZAP70 positive negative 380 (37) 650 (63) IGHV unmutated mutated 394 (44) 506 (56) FISH del13q negative +12 del11q del17p 395 (40) 175 (18) 276 (28) 90 (9) 50 (5) Comorbid health conditions Other cancers 237 (20) Stroke 38 (3) Cardiac disease 326 (28) Hypertension 472 (40) Respiratory 210 (18) Endocrinologic 165 (14) Diabetes 118 (10) Hyperlipidemia 485 (41) Rheumatologic 489 (42) Gastrointestinal 384 (33) Genitourinary 412 (35) Psychiatric 197 (17) DVT/PE 33 (3) Substance abuse 58 (5) Sexually transmitted disease 35 (3) Obesity 376 (32) # of Comorbidities 0 1 2 3 4 > 4 66 (6) 148 (13) 203 (17) 220 (19) 206 (17) 331 (28) Disclosures Kay: Hospira: Research Funding; Genentech: Research Funding; Celgene Corporation: Membership on an entity's Board of Directors or advisory committees, Research Funding; Gilead: Membership on an entity's Board of Directors or advisory committees, Research Funding; Pharmacyclics: Research Funding; Tolero Pharma: Research Funding. Cerhan:Kite Pharma: Research Funding.

Background: Meningitis after craniotomy can cause devastating outcomes. Objectives: Estimate the risk of meningitis after craniotomy (MAC). Find the most prevalent pathogens. Assess the impact of meningitis over length of stay and mortality. Find the main risk factor for MAC. Design and setting: Multicentric, longitudinal and quantitative analysis of data collected between 2013-2017 from nine different hospitals from Minas Gerais, Brazil. Methods: Surveillance data was based on NHSN/CDC protocols. Observed outcomes were meningitis, hospital death and total length of stay. Twentythree variables were analyzed in Epi-Info in a two-tailed statistical test with a significance level of 5%. Results: 4,549 patients were analyzed. Risk of MAC was 1.9% (95%CI=1.6%; 2.4%). The mortality rate in patients without infection was 9%, increasing to 33% in infected patients (P<0.01). Length of hospital stay (HS) in uninfected patients (in days): mean=18, median=7, standard deviation=36. HS in infected patients: mean=56, median=37, standard deviation=63 P<0.001).The duration of the procedure ≤4 hours presented a 1.5% risk of MAC compared to 2.5% versus ≥4 hours (RR=1.7; P=0.041). From 88 MAC cases, pathogen was identified in 68 (77%): K.pneumoniae (20%), S.aureus (16%), A.baumannii (13%), P.aeruginosa (9%), Staphylococcus sp . (8%), Acinetobacter sp. (7%), S.epidermidis (5%) among others (20%).Conclusion: MAC risk was 1.9%. Mortality rate was high compared to literature. Meningitis caused threefold increase on HS. Procedure duration ≥4 hours was the main risk factor, presenting RR of 1.7. The most prevalent etiologic agents were K.pneumoniae and S.aureus. Considering the findings, infectious surveillance is paramount for patient safety.