Andrew J. Cowan

Antibody-based therapy of acute myeloid leukemia with gemtuzumab ozogamicin.

Antibodies have created high expectations for effective yet tolerated therapeutics in acute myeloid leukemia (AML). Hitherto the most exploited target is CD33, a myeloid differentiation antigen found on AML blasts in most patients and, perhaps, leukemic stem cells in some. Treatment efforts have focused on conjugated antibodies, particularly gemtuzumab ozogamicin (GO), an anti-CD33 antibody carrying a toxic calicheamicin-g 1 derivative that, after intracellular hydrolytic release, induces DNA strand breaks, apoptosis, and cell death. Serving as paradigm for this strategy, GO was the first anti-cancer immunoconjugate to obtain regulatory approval in the U.S. While efficacious as monotherapy in acute promyelocytic leukemia (APL), GO alone induces remissions in less than 25-35% of non-APL AML patients. However, emerging data from well controlled trials now indicate that GO improves survival for many non-APL AML patients, supporting the conclusion that CD33 is a clinically relevant target for some disease subsets. It is thus unfortunate that GO has become unavailable in many parts of the world, and the drugs usefulness should be reconsidered and selected patients granted access to this immunoconjugate.

Management of Acute Myeloid Leukemia in the Intensive Care Setting.

Patients with acute myeloid leukemia (AML) who are newly diagnosed or relapsed and those who are receiving cytotoxic chemotherapy are predisposed to conditions such as sepsis due to bacterial and fungal infections, coagulopathies, hemorrhage, metabolic abnormalities, and respiratory and renal failure. These conditions are common reasons for patients with AML to be managed in the intensive care unit (ICU). For patients with AML in the ICU, providers need to be aware of common problems and how to manage them. Understanding the pathophysiology of complications and the recent advances in risk stratification as well as newer therapy for AML are relevant to the critical care provider.

Global Burden of Multiple Myeloma: A Systematic Analysis for the Global Burden of Disease Study 2016

Introduction Multiple myeloma (MM) is a plasma cell neoplasm with substantial morbidity and mortality. A comprehensive description of the global burden of MM is needed to help direct health policy, resource allocation, research, and patient care. Objective To describe the burden of MM and the availability of effective therapies for 21 world regions and 195 countries and territories from 1990 to 2016. Design and Setting We report incidence, mortality, and disability-adjusted life-year (DALY) estimates from the Global Burden of Disease 2016 study. Data sources include vital registration system, cancer registry, drug availability, and survey data for stem cell transplant rates. We analyzed the contribution of aging, population growth, and changes in incidence rates to the overall change in incident cases from 1990 to 2016 globally, by sociodemographic index (SDI) and by region. We collected data on approval of lenalidomide and bortezomib worldwide. Main Outcomes and Measures Multiple myeloma mortality; incidence; years lived with disabilities; years of life lost; and DALYs by age, sex, country, and year. Results Worldwide in 2016 there were 138 509 (95% uncertainty interval [UI], 121 000-155 480) incident cases of MM with an age-standardized incidence rate (ASIR) of 2.1 per 100 000 persons (95% UI, 1.8-2.3). Incident cases from 1990 to 2016 increased by 126% globally and by 106% to 192% for all SDI quintiles. The 3 world regions with the highest ASIR of MM were Australasia, North America, and Western Europe. Multiple myeloma caused 2.1 million (95% UI, 1.9-2.3 million) DALYs globally in 2016. Stem cell transplantation is routinely available in higher-income countries but is lacking in sub-Saharan Africa and parts of the Middle East. In 2016, lenalidomide and bortezomib had been approved in 73 and 103 countries, respectively. Conclusions and Relevance Incidence of MM is highly variable among countries but has increased uniformly since 1990, with the largest increase in middle and low-middle SDI countries. Access to effective care is very limited in many countries of low socioeconomic development, particularly in sub-Saharan Africa. Global health policy priorities for MM are to improve diagnostic and treatment capacity in low and middle income countries and to ensure affordability of effective medications for every patient. Research priorities are to elucidate underlying etiological factors explaining the heterogeneity in myeloma incidence.

Total Body Irradiation Is Safe and Similarly Effective as Chemotherapy-Only Conditioning in Autologous Stem Cell Transplantation for Mantle Cell Lymphoma

Autologous stem cell transplant (ASCT) consolidation has become a standard approach for patients with mantle cell lymphoma (MCL), yet there is little consensus on the role of total body irradiation (TBI) as part of high-dose transplantation conditioning. We analyzed 75 consecutive patients with MCL who underwent ASCT at our institution between 2001 and 2011 with either TBI-based (n = 43) or carmustine, etoposide, cytarabine, melphalan (BEAM; n = 32) high-dose conditioning. Most patients (97%) had chemosensitive disease and underwent transplantation in first remission (89%). On univariate analysis, TBI conditioning was associated with a trend toward improved PFS (hazard ratio [HR], .53; 95% confidence interval [CI], .28-1.00; P = .052) and similar OS (HR, .59; 95% CI, .26-1.35; P = .21), with a median follow-up of 6.3 years in the TBI group and 6.6 years in the BEAM group. The 5-year PFS was 66% in the TBI group versus 52% in the BEAM group; OS was 82% versus 68%, respectively. However, on multivariate analysis, TBI-based conditioning was not significantly associated with PFS (HR, .57; 95% CI .24-1.34; P = .20), after controlling for age, disease status at ASCT, and receipt of post-transplantation rituximab maintenance. Likewise, early toxicity, nonrelapse mortality, and secondary malignancies were similar in the 2 groups. Our data suggest that both TBI and BEAM-based conditioning regimens remain viable conditioning options for patients with MCL undergoing ASCT.

Atypical IgG4+ Plasmacytic Proliferations and LymphomasCharacterization of 11 Cases

Objectives To report the clinicopathologic features of monotypic immunoglobulin G4+ (IgG4+) lymphoid and plasmacytic proliferations. Methods Cases were identified from the pathology files. Pathology and clinical materials were reviewed. Results Eleven cases of monotypic IgG4+ proliferations were identified at nodal, orbital, or salivary sites. Six cases (three men, three women; age, 57-94 years) met criteria for lymphoma or plasma cell neoplasia. Most contained frequent Mott cells. Five cases (three men, two women; age, 40-80 years) had restricted proliferations of atypical/monotypic IgG4+ plasma cells in a background of reactive lymphoid hyperplasia or inflammation. Conclusions Monotypic IgG4+ proliferations include lymphomas, plasmacytic neoplasms, and a previously uncharacterized group of proliferations not meeting criteria for conventional hematolymphoid neoplasia. Distinct features included prominent Mott cells and/or monotypic plasma cells within follicles. The proliferations were infrequently associated with IgG4-related disease (IgG4-RD). Our findings raise questions regarding the relationship between clonal IgG4+ proliferations, reactive/inflammatory processes, and IgG4-RD.

Results of a phase I-II study of fenretinide and rituximab for patients with indolent B-cell lymphoma and mantle cell lymphoma.

Fenretinide, a synthetic retinoid, induces apoptotic cell death in B‐cell non‐Hodgkin lymphoma (B‐NHL) and acts synergistically with rituximab in preclinical models. We report results from a phase I‐II study of fenretinide with rituximab for B‐NHLs. Eligible diagnoses included indolent B‐NHL or mantle cell lymphoma. The phase I design de‐escalated from fenretinide at 900 mg/m2 PO BID for days 1–5 of a 7‐day cycle. The phase II portion added 375 mg/m2 IV rituximab weekly on weeks 5–9 then every 3 months. Fenretinide was continued until progression or intolerance. Thirty‐two patients were treated: 7 in phase I, and 25 in phase II of the trial. No dose‐limiting toxicities were observed. The phase II component utilized fenretinide 900 mg/m2 twice daily with rituximab. The most common treatment‐related adverse events of grade 3 or higher were rash (n = 3) and neutropenia (n = 3). Responses were seen in 6 (24%) patients on the phase II study, with a median duration of response of 47 months (95% confidence interval, 2–56). The combination of fenretinide and rituximab was well tolerated, yielded a modest overall response rate, but with prolonged remission durations. Further study should focus on identifying the responsive subset of B‐NHL.

Delayed Antiandrogen Withdrawal Syndrome After Discontinuation of Bicalutamide

Prostate cancer is the most common solid tumor malignancy in men, in the United States, accounting for 233,000 new cases and 29,480 deaths in 20131. Inhibition of gonadal androgen synthesis, with or without androgen receptor (AR) blockade with an oral antiandrogen, is the mainstay of treatment for metastatic hormone-sensitive prostate cancer. Although most patients will initially respond to androgen deprivation therapy (ADT), responses are not durable, with median response duration of about 18 months2. Metastatic castration-resistant prostate cancer (mCRPC), the terminal stage of this disease, has an overall survival between 2-3 years3, 4. Common therapies include chemotherapy, targeted endocrine therapies, radiopharmaceuticals, and immunotherapy5. Prior to further therapies, if patients are on combined androgen blockade (CAB), the first maneuver is withdrawal of the antiandrogen with continuation of luteinizing hormone releasing hormone therapy. Kelly and Scher published an early description of withdrawal of an oral antiandrogen as a therapeutic maneuver in 19936. Since then, multiple case series, a randomized trial including ketoconazole, and a larger clinical trial have confirmed the clinical response to antiandrogen withdrawal (AAW) in patients who have progressed on CAB6-16. Clinical responses, observed either as a prostate-specific antigen (PSA) decline or improvement in symptoms, are noted between 1 and 6 weeks after discontinuation of the antiandrogen, depending on the half-life of the agent6-12, 15, 16. In the largest clinical trial, the median duration of response was 3 months. The recommended period of waiting for an AAW response of 4-6 weeks is based on the pharmacology of the antiandrogen and the half-life of PSA. The half-lives of flutamide, nilutamide, and bicalutamide are 7.8 hours, 56 hours, and 1 week, respectively17-19. Therefore, the time required to endure 4 half-lives for washout from the serum would be 31.2 hours, 9.3 days, and 4 weeks, respectively. The half-life of PSA in the serum is 2-3 days, resulting in an estimate 1 to 6 weeks for PSA to decline after AAW. Prior research has estimated that the AAW response, as measured by rates of PSA decline, occurs in 11 to 33% of patients undergoing antiandrogen withdrawal8, 12, 15, 16, 20, 21. To avoid misattribution of clinical benefit to a subsequent agent when commencing a new therapy immediately following AAW, clinical trials in mCRPC generally mandate a minimum 4-6 week AAW period before enrollment to ensure that a PSA decline does not occur22. We report a series of patients who underwent AAW after PSA progression on CAB while awaiting enrollment in a clinical trial. All patients had a delayed and unexpected AAW response even after continued PSA rises at 6 weeks after antiandrogen discontinuation. Appropriate institutional review board approval was obtained to describe this phenomenon.

Modified VR-CAP, Alternating with Rituximab and High-dose Cytarabine: An Effective Pre-Transplant Induction Regimen for Mantle Cell Lymphoma

BACKGROUND Initial treatment of mantle cell lymphoma (MCL) incorporating autologous stem cell transplantation affords long-term remissions, but relapses still occur. Optimal pretransplant therapy will afford high complete response rates and not impair stem cell collection. Incorporation of bortezomib represents a natural evolution of pretransplant therapy, given its proven first-line efficacy and minimal impact on stem cell collection. PATIENTS AND METHODS At the University of Washington/Seattle Cancer Care Alliance and the Cleveland Clinic Foundation, we developed modified VR-CAP/R+ara-C (bortezomib, rituximab, cyclophosphamide, doxorubicin, and prednisone, alternating with rituximab and high-dose cytarabine), for transplant-eligible patients with MCL. This regimen was administered as standard-of-care, pretransplant therapy to consecutive patients with MCL from April 2015 to the present. RESULTS A total of 37 patients were treated with this regimen, including 18 at the University of Washington/Seattle Cancer Care Alliance and 19 at the Cleveland Clinic Foundation. Most patients had intermediate- or high-risk disease by both (mantle-cell lymphoma international prognostic index (MIPI)-B and MIPI-C category. Complete response to induction was achieved in 32 (86%) of 37 evaluable patients; 2 achieved partial response, and 3 had primary refractory disease. Stem cell collection was successful in 1 attempt in 30 of 32 patients. The median follow-up of survivors measured from start of treatment is 17.4 months. Five patients have progressed, and 4 have died (2 owing to lymphoma, 2 from toxicity). CONCLUSION Modified VR-CAP/R+ara-C is feasible pretransplant therapy for patients with MCL and is associated with a high rate of complete response and eligibility for autologous stem cell transplantation.

Circulating Plasma Cells at the Time of Collection of Autologous PBSC for Transplant in Multiple Myeloma Patients is a Negative Prognostic Factor Even in the Age of Post-Transplant Maintenance Therapy

Circulating plasma cells (CPCs) have been detected in patients with multiple myeloma (MM) at various stages of disease and associated with worse outcomes. Little data exist regarding the impact of CPCs at the time of autologous peripheral blood stem cell (PBSC) collection on outcomes, and the impact of maintenance therapy after autologous stem cell transplantation (ASCT) on prognosis in patients with CPC-containing collections. All patients with MM who underwent first ASCT at Fred Hutchinson Cancer Research Center from 2012 to 2015 and had evaluation for CPCs at the time of PBSC collection were included in our analysis. Seven-color flow cytometry was used to detect the presence of CPCs. Kaplan-Meier estimates were used to generate overall survival (OS) and progression-free survival (PFS) rates from the time of ASCT. A multivariate analysis, including receipt of maintenance therapy post-ASCT, high-risk cytogenetics, and international staging system (ISS) stage, was included in a Cox proportional hazards regression model for associations with OS and PFS. We identified 227 patients with MM who underwent ASCT; of these, 144 (63.4%) patients had routine assessment of CPCs at the time of PBSC collection. One hundred seventeen (81.3%) patients did not have CPCs and 27 (18.8%) did have CPCs. The presence of CPCs was highly associated with poorer PFS (P = .031 by log-rank analysis), but did not affect OS. The median PFS for those patients without CPCs was 39.4 months (95% confidence interval [CI], 31.1 to not reached), while the median PFS for those patients with CPCs was 16.5 months (95% CI, 13.7 to not reached). A subgroup analysis of patients achieving very good partial response (VGPR) or better at time of collection, showed the median PFS for patients without CPCs was 38.3 months (95% CI, 29 to not reached), as compared with those patients with CPCs, where it was only 16.5 months (95% CI, 12 months to not reached; P = .02). There was no statistically significant difference in PFS or OS among those patients achieving partial response at the time of collection. In a Cox proportional hazards model, adjusting for post-ASCT maintenance therapy, high-risk cytogenetics, and ISS stage at time of initial diagnosis, there was a 43% higher risk of progression or death among the patients with CPCs (P = .04). The presence of CPCs at the time of autologous PBSC collection is a negative prognostic factor for risk of early relapse or death despite the advent of novel agents and maintenance strategies. The impact of CPCs was most significant among patients achieving a VGPR or better at time of collection. The presence of CPCs denotes a unique group of high-risk MM patients for whom alternative treatment strategies are needed to overcome resistance to current standard therapies.

Plasma cell diseases and organ transplant: A comprehensive review

Plasma cell diseases are a class of hematologic diseases that are sometimes present as preexisting diagnoses prior to organ transplantation, causative factors leading to a need for organ transplantation, or may occur posttransplant as part of the spectrum of posttransplant lymphoproliferative disorders. Herein, we review the most common plasma cell diseases, both as coexisting with other causes of organ failure, but also as a primary underlying cause for organ failure. In many cases, treatment of the underlying clonal disease may be indicated before proceeding with organ transplant. This review aims to provide current and relevant data regarding the management of these conditions in the organ transplant patient, for transplant providers, and those who take care of these patients.