Identification of Predictive Biomarkers for Cytokine Release Syndrome after Chimeric Antigen Receptor T-cell Therapy for Acute Lymphoblastic Leukemia.

UNLABELLED: Chimeric antigen receptor (CAR)-modified T cells with anti-CD19 specificity are a highly effective novel immune therapy for relapsed/refractory acute lymphoblastic leukemia. Cytokine release syndrome (CRS) is the most significant and life-threatening toxicity. To improve understanding of CRS, we measured cytokines and clinical biomarkers in 51 CTL019-treated patients. Peak levels of 24 cytokines, including IFNγ, IL6, sgp130, and sIL6R, in the first month after infusion were highly associated with severe CRS. Using regression modeling, we could accurately predict which patients would develop severe CRS with a signature composed of three cytokines. Results were validated in an independent cohort. Changes in serum biochemical markers, including C-reactive protein and ferritin, were associated with CRS but failed to predict development of severe CRS. These comprehensive profiling data provide novel insights into CRS biology and, importantly, represent the first data that can accurately predict which patients have a high probability of becoming critically ill. SIGNIFICANCE: CRS is the most common severe toxicity seen after CAR T-cell treatment. We developed models that can accurately predict which patients are likely to develop severe CRS before they become critically ill, which improves understanding of CRS biology and may guide future cytokine-directed therapy. Cancer Discov; 6(6); 664-79. ©2016 AACR.See related commentary by Rouce and Heslop, p. 579This article is highlighted in the In This Issue feature, p. 561.

Tumor lysis syndrome: new challenges and recent advances.

Tumor lysis syndrome (TLS) is an oncologic emergency triggered by the rapid release of intracellular material from lysing malignant cells. Most common in rapidly growing hematologic malignancies, TLS has been reported in virtually every cancer type. Central to its pathogenesis is the rapid accumulation of uric acid derived from the breakdown of nucleic acids, which leads to kidney failure by various mechanisms. Kidney failure then limits the clearance of potassium, phosphorus, and uric acid leading to hyperkalemia, hyperphosphatemia, and secondary hypocalcemia, which can be fatal. Prevention of TLS may be more effective than treatment, and identification of at-risk individuals in whom to target preventative efforts remains a key research area. Herein, we discuss the pathophysiology, epidemiology, and treatment of TLS with an emphasis on the kidney manifestations of the disease.

Onco-nephrology: tumor lysis syndrome.

Tumor lysis syndrome (TLS) describes the clinical and laboratory sequelae that result from the rapid release of intracellular contents of dying cancer cells. It is characterized by the release of potassium, phosphorous, and nucleic acids from cancer cells into the blood stream, with the potential to cause hyperkalemia; hyperphosphatemia and secondary hypocalcemia; hyperuricemia; AKI; and, should usual homeostatic mechanisms fail, death. TLS most commonly follows treatment of hematologic malignancies, such as acute lymphocytic or lymphoblastic leukemia, acute myeloid leukemia, and Burkitt lymphoma, but also occurs after treatment of other bulky or rapidly growing tumors, particularly if the patient is highly sensitive to the effects of cytotoxic chemotherapy. Prevention and treatment depend on prompt recognition of patients at risk, volume repletion, allopurinol, rasburicase (a novel recombinant urate oxidase), and, when indicated, dialysis.

Rasburicase for the treatment of tumor lysis in hematological malignancies.

Tumor lysis syndrome (TLS) is a common oncologic emergency in patients with hematological malignancies sensitive to cytotoxic treatment that present a high proliferative rate. High proliferative cancer rate, high sensitivity of cytotoxic treatment and renal failure represent risk factors for development of TLS. TLS is also responsible for several electrolytic alterations, such as hyperuricemia, hyperkalemia, hyperphosphatemia and hypocalcemia. There are different established therapeutic options for the treatment of TLS such as hydration, allopurinol and rasburicase. Rasburicase reduces uric acid levels within 4 h, both in pediatric and adult patients, catalyzing the oxidation of uric acid into allantoin, rapidly excreted by the kidneys. Rasburicase is well tolerated and was approved in the EU and in the USA for the management of acute hyperuricemia.

Intra-abdominal metastasis of an intracranial germinoma via ventriculo-peritoneal shunt in a 13-year-old female.

A 13-year-old patient presented with massive intra-abdominal metastasis and spontaneous acute tumour lysis syndrome, 17-months after VP shunt placement for metastatic pineal germinoma treated with cranio-spinal-irradiation. Hyperhydration/rasburicase improved renal function, allowing chemotherapy with subsequent surgery. The patient remains event-free 34-months later. Risk of intra-abdominal metastasis from VP shunts is discussed.

Tumor lysis under anesthesia in a child.

Tumor lysis syndrome (TLS) is a life-threatening oncologic emergency characterized by metabolic derangements caused by massive lysis and release of cellular components. TLS has been reported to occur under various circumstances. There have however, been only two reports of precipitation of TLS by anesthesia in the current medical literature. We report on the development of TLS in a 7-year-old child with a pelvic neuroectodermal tumor following induction of anesthesia and discuss the peri-operative concerns while dealing with patients with high tumor burdens.

[The pathophysiology, clinical signs and therapy of urate nephropathy]. / Az urát-nephropathia patofiziológiája, klinikuma és kezelése.

Tumor lysis syndrome is an oncologic emergency that is characterized by severe electrolyte abnormalities. The syndrome occurs in patients with lymphoproliferative malignancies, most often after chemotherapy, but also spontaneously. The pathophysiology involves tumor cell lysis resulting in the release of potassium, phosphate and uric acid. The deposition of uric acid and calcium phosphate crystals in the renal tubules may lead to acute renal failure. The treatment consists in hydration, correction of the acidosis and hyperkalemia, use of allopurinol and recombinant urate oxidase (rasburicase) for preventing urate nephropathy and haemodialysis. The authors report a case of a patient with acute myeloid leukemia, who developed severe tumor lysis syndrome after chemotherapy.

The management of tumor lysis syndrome.

The manifestation of tumor lysis syndrome (TLS) occurs when the destruction of tumor cells releases breakdown products that overwhelm the excretory mechanisms of the body. A cardinal sign is hyperuricemia, leading to uric acid nephropathy. Other signs are hyperkalemia, hyperphosphatemia and secondary hypocalcemia. Conventional management of TLS consists of aggressive intravenous hydration, diuretic therapy, urinary alkalization, and inhibition of urate production by high-dose allopurinol. Urate oxidase has been used in the management of patients at risk for TLS and recently the recombinant urate oxidase rasburicase was developed. Several data indicate that rasburicase is effective and well tolerated in the prevention and treatment of chemotherapy-induced hyperuricemia. Treatment options of hyperkalemia include sodium polystyrene sulfonate, hypertonic glucose and insulin, loop diuretics, and bicarbonate. Treatment of hyperphosphatemia reduces dietary phosphate intake and includes phosphate binders such as aluminum hydroxide and aluminum carbonate. When recurrent hypocalcemia is present, a continuous intravenous infusion of calcium gluconate can be initiated. Hemodialysis should be considered for every patient with excessively elevated uric acid, phosphate and/or potassium and in those patients with acute renal failure to control urinary volume and manage uremia.

Addicted to death: invasive cancer and the immune response to unscheduled cell death.

The development of an invasive cancer involves a progressive switch from predominantly apoptotic (scheduled) to necrotic (unscheduled) tumor cell death. This switch is associated with chronic and increasing release of intracellular factors that in turn promote reactive angiogenesis and stromal proliferation and mediates the disordered tumor microenvironment associated with local immune suppression. The authors review the relevant immunobiology of these factors, including the nuclear protein HMGB1; the products of purine metabolism (uric acid, ATP, and adenosine); the S100 family members; and the heat shock proteins, which we believe drive futile cycles of cell death followed by reparative cell growth. The authors also present a novel and provocative hypothesis that suggests that most of the derangements that we associate with progression of cancer and the associated immunologic consequences can indeed be ascribed to the consequences of disordered tumor cell death rather than cell growth. Thus the fundamental defect in invasive human cancers, in the authors' view, is not one of cell growth but rather one of disordered cell death, resulting in turn in a tumor microenvironment that encourages tumor growth, progression, and local immunosuppression, a condition the authors have termed "addicted to death." This new understanding could inform and drive the development of more effective biologic therapies for patients with cancer.

Management of tumor lysis syndrome: prevention and treatment.

OBJECTIVES: To provide a review of the preventive and treatment strategies for tumor lysis syndrome (TLS). DATA SOURCES: Primary and tertiary literature and clinical experience. CONCLUSIONS: The oncology nurse can optimize outcomes in the patient at risk for TLS through a variety of prevention and treatment interventions: (1) aggressive patient monitoring for early identification and treatment; (2) minimize risk factors via thorough medication and nutritional histories, and assurance of proper prophylactic regimens; (3) assessment of optimal routes of drug delivery to assure medication bioavailability; and (4) reinforcement of the above with comprehensive patient education. IMPLICATIONS FOR NURSING PRACTICE: Awareness and effective use of prophylactic and treatment regimens related to TLS will positively impact patient outcomes. The oncology nurse is at the front line to identify issues related to effective management of TLS.

Metabolic abnormalities in lymphoma.

Metabolic abnormalities occur relatively frequently in lymphoma patients undergoing chemotherapy. These abnormalities include hyperuricemia, hypercalcemia, hyperphosphatemia, hypocalcemia, hypomagnesemia, hyponatremia, and hyperkalemia. In addition, tumor lysis syndrome can result in several metabolic abnormalities, leading to potential renal failure. If these syndromes are identified promptly, they can be corrected. Guidelines for identifying metabolic abnormalities in lymphoma patients, as well as management suggestions, are presented

Continuous veno-venous hemodiafiltration for the treatment of spontaneous tumor lysis syndrome complicated by acute renal failure and severe hyperuricemia.

We describe a case of Burkitt's lymphoma presenting as spontaneous tumor lysis syndrome (TLS) complicated by severe hyperuricemia and anuric acute renal failure presumed to be secondary to uric acid nephropathy. The patient was treated with continuous veno-venous hemodiafiltration (CVVHDF) using a dialysate flow rate of 2.5 l/h, and a replacement fluid rate of 1.5 l/h (administered in pre-dilution). Mean clearances during CVVHDF for urea, creatinine, uric acid, and phosphorus were, respectively, 55.8 +/- 3.8, 48.9 +/- 2.6, 45.1 +/- 2.6 and 47.0 +/- 3.3 ml/min (or 80, 70, 65 and 68 l/day, respectively). Serum urea, creatinine, uric acid, and phosphorus decreased from 42 to 9 mmol/l, 533 to 189 micromol/l, 1980 to 372 micromol/l, and 2.0 to 1.4 mmol/l, respectively, after 48 hours of CVVHDF. Previously, we reported the use of continuous arteriovenous hemodialysis (CAVHD) at a high dialysate flow rate of 4 l/h for the treatment of acute renal failure and TLS, which provided excellent continuous clearances of small molecular weight solutes. This last modality was very efficient and prevented deleterious rebound in serum solute concentrations frequently observed in TLS after intermittent hemodialysis (IHD). It was concluded that high-dialysate flow rate CAVHD was a more potent form of treatment than conventional IHD. With recent advances in technology, veno-venous continuous renal replacement therapies are becoming more popular than arterio-venous modalities since they are safer and less cumbersome. Furthermore, flow rates being precisely regulated, solute clearances can be steadily maintained. With CVVHDF flow rates as used in this report, we achieved excellent solute clearances and metabolic control. We propose CVVHDF as an ideal treatment for acute renal failure in TLS. In our opinion, CVVHDF is an advantageous alternative to treat TLS complicated by acute renal failure.

Sensitivity to dexamethasone and absence of bcl-2 protein in Burkitt's lymphoma cell line (Black93) derived from a patient with acute tumor lysis syndrome: comparative study with other BL and non-BL lines.

An Epstein-Barr virus (EBV)-negative Burkitt's lymphoma (BL) cell line, designated Black93, was established in culture from a patient who developed acute tumor lysis syndrome (ATLS). Growth inhibition in vitro by dexamethasone (DXM) and the expression of bcl-2 protein (Bcl-2) were investigated in Black93 and 17 other cell lines derived from EBV-negative or -positive BL, pre-B acute lymphoblastic leukemia (ALL), follicular lymphoma (FL), and EBV-positive lymphoblastoid cell lines of normal B cell origin (B-LCL), assuming an inherent susceptibility of Black93 to cell death. The most marked growth inhibition by DXM was observed in Black93, two other BL, two pre-B-ALL and two FL lines. The other cell lines were less sensitive or were resistant. DNA extracted from the Black93 cells treated with DXM showed a ladder of oligo-nucleosomal DNA on electrophoresis. On testing of fixed smears by indirect immunofluorescence, bcl-2 protein (Bcl-2) was undetectable in Black93 and three BL lines but was detected in all the other cell lines at varying intensity. Western blot analysis showed mostly the same results. In the BL lines, the most DXM-sensitive cell lines lacked Bcl-2 expression, and the DXM-resistant cell lines always expressed Bcl-2. While none of the DXM-resistant cell lines lacked Bcl-2 expression, several pre-B or FL lines that expressed [correction of expessed] Bcl-2 were sensitive to DXM. Black93 is the first reported cell line established from a patient with ATLS. The positive sensitivity to DXM and the lack of Bcl-2 expression observed in Black93 are a major characteristic exhibited frequently by BL lines and, probably, by fresh BL cells. These properties may contribute to the precipitation of ATLS.

Tumor lysis syndrome: implications for nursing.

Tumor Lysis Syndrome (TLS) is a potential consequence of antineoplastic therapy, causing metabolic disturbances that if left untreated, may result in potentially fatal renal, cardiac, and neurologic complications. Early identification and prompt interventions are necessary to treat the metabolic disturbances of TLS. As more therapies are directed toward ambulatory care and home care settings, identification of patients at risk for potential complications associated with antineoplastic administration is more crucial than ever.