Voided Urine Flow Cytometry in Screening High-Risk Patients for the Presence of Bladder Cancer

Introduction: Radical cystectomy (RC) is a highly morbid procedure, with 30-day complication rates approaching 31%. Our objective was to determine risk factors for re-operation within 30 days following a RC for non-metastatic bladder cancer. Methods: We included all patients who underwent a RC for non-metastatic bladder cancer using The American College of Surgeons National Surgical Quality Improvement Program database between January 1, 2007 and December 31, 2014. Logistic regression analyses were used to evaluate predictors of re-operation. Results: A total of 2608 patients were included; 5.8% of patients underwent re-operation within 30 days. On multivariable analysis, increasing body mass index (BMI) (odds ratio [OR] 1.04; 95% confidence interval [CI] 1.01–1.07), African-American race (vs. Caucasian OR 2.29; 95% CI 1.21–4.34), and history of chronic obstructive pulmonary disease (COPD) (OR 2.33; 95% CI 1.45–3.74) were significant predictors of re-operation within 30 days of RC. Urinary diversion type (ileal conduit vs. continent) and history of chemotherapy or radiotherapy within 30 days prior to RC were not. Patients who underwent re-operation within this timeframe had a significantly higher mortality rate (4.0% vs. 1.6%) and were more likely to experience cardiac (7.2% vs. 1.9%), pulmonary (23.0% vs. 3.0%), neurological (2.0% vs. 0.49%), and venous thromboembolic events (10.5% vs. 5.4%), as well as infectious complications (64.5% vs. 24.1%) with a significantly longer hospital length of stay (16.5 vs. 7.0 days). Conclusions: Recognizing increasing BMI, COPD, and African-American race as risk factors for re-operation within 30 days of RC will allow urologists to preoperatively identify such high-risk patients and prompt them to adopt more aggressive approaches to minimize postoperative surgical complications.

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Radical cystectomy for high risk patients with superficial bladder cancer in the era of orthotopic urinary reconstruction

Cancer ◽

10.1002/1097-0142(19950901)76:5<833::aid-cncr2820760518>3.0.co;2-m ◽

1995 ◽

Vol 76 (5) ◽

pp. 833-839 ◽

Cited By ~ 128

Author(s):

John A. Freeman ◽

David Esrig ◽

John P. Stein ◽

Anne R. Simoneau ◽

Eila C. Skinner ◽

...

Keyword(s):

Bladder Cancer ◽

High Risk ◽

Radical Cystectomy ◽

Superficial Bladder Cancer ◽

High Risk Patients ◽

Risk Patients ◽

Urinary Reconstruction

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The Management of Newly-Diagnosed Non-muscle Invasive Bladder Cancer in Veterans Integrated Services Network 02 of the Veterans Health Administration

Military Medicine ◽

10.1093/milmed/usz166 ◽

2019 ◽

Author(s):

Joseph M Caputo ◽

George Moran ◽

Benjamin Muller ◽

Alison T Keller ◽

Gen Li ◽

...

Keyword(s):

Bladder Cancer ◽

High Risk ◽

Veterans Health Administration ◽

Veterans Health ◽

Newly Diagnosed ◽

Health Administration ◽

Muscle Invasive Bladder Cancer ◽

High Risk Patients ◽

Risk Patients ◽

Muscle Invasive

Abstract Introduction Over 1,500 bladder cancers were diagnosed among US Veterans in 2010, the majority of which were non-muscle invasive bladder cancer (NMIBC). Little is known about NMIBC treatment within the Veterans Health Administration. The objective of the study was to assess the quality of care for Veterans with newly-diagnosed NMIBC within Veterans Integrated Service Network (VISN) 02. Materials and Methods We used ICD-9 and ICD-10 codes to identify patients with newly-diagnosed bladder cancer from 1/2016–8/2017. We risk-stratified the patients into low, intermediate, and high-risk based on the 2016 American Urological Association Guidelines on NMIBC. Our primary objectives were percentages of transurethral resection of bladder tumors (TURBTs) with detrusor, repeat TURBT in high-risk and T1 disease, high-risk NMIBC treated with induction intravesical therapy (IVT), and responders treated with maintenance IVT. We performed logistic regression for association between distance to diagnosing hospital and receipt of induction IVT in high-risk patients. Results There were 121 newly-diagnosed NMIBC patients; 16% low-risk, 28% intermediate-risk, and 56% high-risk. Detrusor was present in 80% of all initial TURBTs and 84% of high-risk patients. Repeat TURBT was performed in 56% of high-risk NMIBC and 60% of T1. Induction IVT was given to 66% of high-risk patients and maintenance IVT was given to 59% of responders. On multivariate logistic regression, distance to medical center was not associated with receipt of induction IVT (OR = 0.99, 95% CI [0.97,1.01], p = 0.52). Conclusions We observed high rates of sampling of detrusor in the first TURBT specimen, utilization of repeat TURBT, and administration of induction and maintenance intravesical BCG for high-risk patients among a regional cohort of US Veterans with NMIBC. While not a comparative study, our findings suggest high quality NMIBC care in VA VISN 02.

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Screening for Leptomeningeal Disease by High-Sensitivity Flow Cytometry in High Risk Patients with Aggressive Non-Hodgkin’s Lymphoma.

Blood ◽

10.1182/blood.v110.11.4397.4397 ◽

2007 ◽

Vol 110 (11) ◽

pp. 4397-4397

Author(s):

Joy Mangel ◽

Jazmin Marlinga ◽

Mike Keeney ◽

Jan Popma ◽

Anargyros Xenocostas ◽

...

Keyword(s):

Flow Cytometry ◽

High Risk ◽

High Sensitivity ◽

B Cell Lymphoma ◽

Leptomeningeal Disease ◽

Cns Involvement ◽

Lymphoma Cells ◽

High Risk Patients ◽

Csf Analysis ◽

Risk Patients

Abstract Background: Central nervous system (CNS) involvement by non-Hodgkin’s lymphoma (NHL) portends a very poor prognosis. There is no consensus in the literature on the “high- risk” features that predict for leptomeningeal disease, and no standardized clinical guidelines exist regarding CNS surveillance, prophylaxis or treatment for patients at increased risk. 2–4 colour flow cytometry (FCM) has been reported to be more sensitive than standard cytology in detecting occult leptomeningeal disease (Blood 2005,105:496). The current study evaluates the utility of a high-sensitivity (5-colour) flow cytometry technique for detecting occult lymphoma cells in the cerebrospinal fluid (CSF) of high-risk patients with NHL. Method: Patients with a new diagnosis of histologically aggressive B or T cell NHL were included in this study if they displayed one or more “high-risk” features for CNS involvement. Patients suspected of CNS relapse of NHL were also eligible for participation. Patients underwent routine staging investigations, with the addition of a diagnostic lumbar puncture (LP) during initial assessment. CSF was tested by standard cytology, cell count and biochemistry, and an additional 5 ml was obtained for analysis by high-sensitivity FCM on a Beckman Coulter FC500. The antibody panel (5 antibodies per tube) was customized according to the phenotype of the lymphoma. The key markers for B cell lymphoma were CD19/kappa/lambda with CD5 or CD10. CD45 was used to identify all white blood cells in the sample. Results: Seventeen patients (8M/9F) with a median age of 59 (range 36–85) have been tested. Patients displayed anywhere from 2–6 “high-risk” features for CNS involvement. These included: HIV positivity (2), primary mediastinal B-cell lymphoma (4), bone marrow (5), multifocal bone (2), paraspinal (1), nasopharyngeal (2) or orbital (1) involvement, elevated serum LDH (12), multiple extranodal sites of disease (5), poor performance status (2), high IPI (3), B-symptoms (9), stage IV disease (11), and otherwise unexplained neurological symptoms (3). 14 patients underwent CSF analysis at time of initial diagnosis, one of whom had cranial nerve palsies secondary to a nasopharyngeal mass extending to the skull base. The other 3 were tested at relapse, transformation, and suspected CNS relapse ultimately diagnosed as a stroke. Despite the presence of these features, CSF analysis was negative for lymphoma cells by both cytology and FCM in all but one of the patients tested. However this patient had very high numbers of circulating lymphoma cells in the peripheral blood (PB), and the positive result was felt to be due to PB contamination of the CSF during a “bloody tap.” One patient with vague neurological symptoms had a negative LP at diagnosis, and later developed frank CNS involvement by lymphoma, but was too unwell to undergo a repeat LP. Conclusions: Given the limited number of patients enrolled thus far and the low prevalence of patients with NHL and CNS involvement (2/17), it is difficult to fully assess the utility of high-sensitivity FCM in the diagnosis of occult leptomeningeal disease. It is of interest that CSF analysis was negative even in the patient with cranial nerve palsies and in the patient who later developed multiple CNS lesions secondary to lymphoma, suggesting that this technique may have limited sensitivity in diagnosing leptomeningeal disease. The systematic screening of high-risk patients cannot yet be recommended as standard clinical practice.

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Platelet Functions and Risk Prognosis in Myelodysplastic Syndromes,

Blood ◽

10.1182/blood.v118.21.3806.3806 ◽

2011 ◽

Vol 118 (21) ◽

pp. 3806-3806

Author(s):

Nora V. Butta ◽

Mónica Martín Salces ◽

Raquel de Paz ◽

Elena G. Arias Salgado ◽

Ihosvany Fernández Bello ◽

...

Keyword(s):

Flow Cytometry ◽

High Risk ◽

Myelodysplastic Syndromes ◽

Surface Expression ◽

Low Risk ◽

Control Group ◽

Platelet Surface ◽

High Risk Patients ◽

Fibrinogen Receptor ◽

Risk Patients

Abstract Abstract 3806 The myelodysplastic syndromes (MDS) are a heterogenous group of clonal stem cell disorders with peripheral cytopenias and increased incidence of leukemic transformation. The prognosis of MDS is determined by several factors, including the presence of specific cytogenetic abnormalities, the percentage of blastoid cells in bone marrow and peripheral blood, the number of affected cell lineages, and transfusion dependency. The most commonly used risk stratification system is the International Prognostic Scoring System (IPSS). This score divides patients into a lower risk subset (low and intermediate-1) and a higher risk subset (intermediate-2 and high). Patients with MDS may have hemorrhagic complications with serious outcomes that are among the major causes of death in this population. These bleeding episodes that are often related to thrombocytopenia also occur in MDS patients with normal platelet count. The aim of this work was to study functional characteristics of platelets in MDS patients and their relationship to risk evaluated as indicated by IPSS. Eighty diagnosed MDS patients risk-stratified according to IPSS were included: 40 with low-risk, 29 with intermediate-1-risk (I-1), 8 with intermediate-2-risk (I-2) and 3 with high-risk. Eighty healthy donors were included as control group. Platelet-related primary haemostasis was evaluated with an automated platelet function analyzer (PFA-100®, Siemens Healthcare Diagnostics). Samples of citrated blood were aspirated under a shear rate of 4,000–5,000/s through a 150-μm aperture cut into a collagen-ADP (COL-ADP) or collagen-epinephrine (COL-EPI) coated membrane. The platelet haemostatic capacity is indicated by the time required for the platelet plug to occlude the aperture (closure time, CT), which is expressed in seconds. Platelet activation was determined through FITC-PAC-1 (a mAb that recognizes activated conformation of fibrinogen receptor) and FITC-P-selectin mAb binding to quiescent and 100 μM TRAP activated platelets by flow cytometry. Surface expression of fibrinogen receptor (αIIb and β3 subunits) was determined by flow cytometry with specific mAbs. Apoptosis was determined by flow cytometry analysis through FITC-annexin V binding to platelet membrane phosphatidylserine (PS) exposed in basal conditions. I-2 and high-risk patients were gathered together in a high-risk group in order to analyze experimental results. Statistical analysis was performed with one-way ANOVA and Tukey test. CTs obtained with COL-EPI and COL-ADP cartridges in controls and low risk patients were similar and significantly shorter than CTs observed in I-1-risk and high-risk MDS patients (p<0.05). Platelets from all MDS patients showed a reduced capability for being activated by 100 μM TRAP. This impairment was more evident in I-1-risk and high-risk patients: PAC-1 binding, in arbitrary units (AU), was 11368±1017 in controls; 7849±789 in low-risk MDS (p<0.05); 4161±591 in I-1-risk MDS (p<0.01 versus control and p<0.05 versus low-risk) and 492±184 in high-risk MDS (p<0.01 versus control and p<0.05 versus low-risk). The platelet surface expression of P-selectin induced by 100 μM TRAP was also reduced: 5102±340 AU in controls, 3318±400 AU in low-risk MDS (p<0.05); 1880 ±197 AU in I-1-risk MDS (p<0.05 versus control and versus low-risk), and 1211±130 AU in high-risk MDS (p<0.05 versus control and versus low-risk). Diminished responses to TRAP were not due to a reduction in surface expression of fibrinogen receptor in platelets from MDS patients. Platelets from MDS patients expressed more PS than controls under basal conditions. Mean fluorescence values for FITC-annexin binding were: 383±16 in controls; 444±21 in low-risk (p<0.05); 575±52 in I-1-risk MDS (p<0.05 versus control and versus low-risk); 611±17 in high-risk MDS (p<0.05 versus control and versus low-risk). Our results indicated that platelets from MDS patients had less ability to be activated and were more apoptotic than control ones. These dysfunctions were more pronounced when the risk of the disease was higher according to IPSS. Disclosures: No relevant conflicts of interest to declare.

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The Mean Fluorescence Intensities of Anti-HLA Antibodies Detected Using Micro-Bead Flow Cytometry Predict the Risk of Platelet Transfusion Refractoriness.

Blood ◽

10.1182/blood.v120.21.2285.2285 ◽

2012 ◽

Vol 120 (21) ◽

pp. 2285-2285

Author(s):

Ashanka M Beligaswatte ◽

Eleni Tsiopelas ◽

Ian Humphreys ◽

Greg Bennett ◽

Kathryn Robinson ◽

...

Keyword(s):

Flow Cytometry ◽

High Risk ◽

Platelet Transfusion ◽

Blood Product ◽

Class I ◽

Cell Transplant ◽

Hla Antibodies ◽

High Risk Patients ◽

Risk Patients ◽

Antibody Titers

Abstract Abstract 2285 Background: HLA allo-immunized patients often receive matched platelets only after demonstrating platelet transfusion refractoriness (PTR). If further risk stratification was possible, high risk patients could be considered for pre-emptive HLA-matched platelets, cryopreserved autologous platelets, or possibly thrombopoietin analogues. Micro-bead flow cytometry is widely used to detect anti-HLA antibodies, and mean fluorescence intensities (MFI) obtained from these assays correlate with antibody titers. We asked whether MFIs could be used to stratify the risk of PTR among allo-immunized patients. Study design: We retrospectively identified 387 patients who received an autologous stem cell transplant or induction therapy for acute leukemia, between January 2005 and March 2012. All patients had a serum sample taken for HLA antibody assay within 6 weeks of commencing cellular blood product transfusions. No patient was scheduled to receive prophylactic HLA matched platelets. The primary endpoint was the development of PTR. To minimize the influence of sensitization occurring after screening, only outcomes during the first 2 weeks from commencing cellular blood product transfusions were considered. PTR was defined as having received ≥ 2 consecutive RDPLT transfusions associated with an 18–24h corrected count increment of < 2.5 at 18 – 24 hours. Antibody testing was performed using a micro-bead flow cytometry assay (Lifecodes LifeScreen Deluxe, with positive results confirmed by Lifecodes Class I ID assay, Gen-Probe Transplant Diagnostics, Stamford, CT) either during the treatment period, or on serum samples stored at −30°C. Mean fluorescence intensities (MFI) were acquired using a Luminex 100 analyzer (Luminex Corporation, Austin, TX), and analyzed using Lifecodes Quicktype v2.5.5 (Gen-Probe Transplant Diagnostics, Stamford, CT). We defined the predictor variable avgMFI to be the average MFI of the 7 individual beads in the assay, weighted by whether the presence of antibodies was confirmed or not: where w = 1 if the presence of antibodies is confirmed, and 0 otherwise; and subscript i refers to the ith class I bead. Results: Antibodies were detected in 57 (14.7%) patients of whom 45 (78.9%) were female. A total of 1443 random donor platelet (RDPLT) transfusions (mean platelet count 2.4×1011/unit) were studied. Sixty six (17%) patients developed PTR, of whom 28 had detectable antibodies; 29 of 321 patients who did not develop PTR also tested positive. Among antibody positive patients, median avgMFI for refractory patients was 4589 versus 349 for patients who were not, Wilcoxon rank sum test P< 0.0001. (Figure 1). The area under the receiver operating characteristic curve for avgMFI as a predictor of PTR was 0.8633 (95% confidence interval: 0.7664 – 0.9602). Higher avgMFIs also correlated with a broader range of target antigens, likely due to increasingly avid binding to cross-reactive epitopes. (Spearman's r = 0.7736 for correlation between avgMFI and panel reactive antibody percentages (cPRA), calculated in reference to the general American population, and used here as a surrogate for the range of antibody specificities). cPRA was >80% in 25/27 patients with avgMFI>1000, suggesting poor ability to discriminate among patients with moderate to high antibody titers, and was not an independent predictor of PTR. Hence, while the increased probability of encountering a cognate antigen on a RDPLT may partly explain the correlation between avgMFI and PTR, the avidity of binding, represented in vitro by the MFIs, appears to be a more significant determinant of risk. In conclusion, we provide evidence for the concept that PTR risk due to HLA allo-immunization is usefully predicted by the MFIs of antibodies detected using micro-bead flow cytometry. Our model allows cut-offs for identifying high risk patients to be based on the degree of risk acceptable in a given clinical situation. This should enable hematology units to develop risk-adapted strategies for supporting allo-immunized thrombocytopenic patients. Disclosures: No relevant conflicts of interest to declare.

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