Waldenström’s macroglobulinemia is a rare B-cell lymphoma. The gold standard treatment for Waldenström’s macroglobulinemia is an anti-CD20 antibody (rituximab) in combination with alkylating agents and dexamethasone. Treatment targeting the B-cell receptor such as ibrutinib (but not idelalisib) is currently approved for treatment of patients with relapsed or refractory Waldenström’s macroglobulinemia.
Case presentation
We report a case of a 71-year-old white French man with Waldenström’s macroglobulinemia who presented with acute renal failure and hyperviscosity syndrome. His Waldenström’s macroglobulinemia was refractory to first-line treatment with rituximab, cyclophosphamide, and dexamethasone. Because of his hemorrhagic syndrome and medical history of recent myocardial infarction, we decided to treat him with idelalisib 150 mg twice daily instead of ibrutinib. We observed a very quick improvement in the patient’s clinical status without need for dose adjustment.
Conclusion
Our patient’s case provides the first evidence, to the best of our knowledge, that idelalisib may be an efficient treatment option for patients with Waldenström’s macroglobulinemia complicated by anuric renal failure and in whom ibrutinib is contraindicated.
Abkürzungen
BTK
Bruton tyrosine kinase
ICU
Intensive care unit
IgM
Immunoglobulin M
MDRD
Modification of Diet in Renal Disease equation to estimate glomerular filtration rate based on creatinine and patient characteristics
ORR
Overall response rate
PI3K
Phosphatidylinositol 3-kinase
RCD
Rituximab, cyclophosphamide, and dexamethasone
WM
Waldenström’s macroglobulinemia
Background
Waldenström’s macroglobulinemia (WM) is a rare B-cell lymphoma characterized by monoclonal proliferation of lymphoplasmacytes that produce monoclonal immunoglobulin M (IgM). Common complications are hyperviscosity syndrome, cytopenia, lymphadenopathy, hepatomegaly, splenomegaly, and neurological manifestations [1]. Renal complications, such as mild proteinuria or hematuria, nephrotic syndrome, and Bence-Jones proteinuria, occur rarely. Less than 3% of patients develop end-stage renal failure [2]. Over 90% of patients with WM carry the MYD88 L265P gene mutation [3], which promotes the survival of WM cells through activation of the Bruton tyrosine kinase (BTK) pathway and promotes activation of the phosphatidylinositol 3-kinase (PI3K) pathway [4]. The BTK inhibitor ibrutinib is approved in pretreated patients or as first-line treatment for patients unsuitable for chemoimmunotherapy. Ibrutinib has an overall response rate (ORR) of 90% [3, 5]. In a phase II study, a PI3Kδ inhibitor (idelalisib) was reported to be effective in patients with WM that is refractory to anti-CD20 and alkylating agents, with an ORR of 80% [6].
In this report, we describe a patient with WM who presented with acute anuric renal failure and hyperviscosity syndrome refractory to first-line treatment with rituximab, cyclophosphamide, and dexamethasone (RCD). Because of the patient’s age and a medical history of recent myocardial infarction (1 month before), hemorrhagic syndrome, and end-stage renal failure, we decided to treat him with idelalisib 150 mg twice daily (full dose). His initial response to this treatment was very good.
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Our patient’s presentation of WM and anuric acute renal failure is very rare. For these patients, dosages of chemotherapy should be carefully adjusted and are not easy to manage. We report our patient’s case to illustrate how idelalisib could be effective for treatment of this pathology and is easy to manage in patients with anuria. However, a concern needs to be raised for these very fragile patients because the use of idelalisib may often cause unclarified adverse events, such as the severe skin complication in our patient.
Case presentation
In 2016, a 71-year-old white French man presented with a 2-week history of bilateral blurry vision, recurrent epistaxis, and nausea. The patient was retired from his job (forester). His physical examination revealed that he was pale and had cardiac arrhythmia and mild basal pulmonary hypoventilation. He had no palpable hepatomegaly, splenomegaly, or lymphadenopathy. The result of his neurological examination was normal (no neurological focalization, vertigo, headache, or hearing loss). His blood counts showed anemia (hemoglobin, 90 g/L) and normal leukocyte and platelet levels. His laboratory investigations showed normal liver enzymes with normal coagulation tests. We observed acute renal failure with serum creatinine 414 μmol/L (clearance, 12 ml/min according to the Modification of Diet in Renal Disease equation to estimate glomerular filtration rate based on creatinine and patient characteristics [MDRD]) versus 88 μmol/L 1 month before (clearance, 75 ml/min), as well as potassium 5.1 mEq/L. His total proteins were 105 g/L with albumin 22.8 g/L and β2-microglobulin 10.73 mg/L. Serum electrophoresis and immunofixation revealed IgM-kappa paraprotein (50.2 g/L). The patient had proteinuria with 1.72 g/24 h. Urine immunofixation confirmed the excretion of monoclonal kappa light chains (1 g/24 h). The result of his cryoglobulin screen was negative. A computed tomographic scan (without contrast) showed the absence of lymphadenopathy and splenomegaly, but a rectus sheath hematoma was present, probably owing to anticoagulation for chronic fibrillation and a recent myocardial infarction.
Because of the patient’s hemorrhagic syndrome, no kidney biopsy was performed. A bone marrow biopsy showed 95% interstitial infiltration by lymphoplasmacytic lymphoma (Fig. 1a). The MYD88 (L265P) mutation was detectable with allele-specific PCR (Fig. 1b) on isolated bone marrow mononuclear cells. Bone marrow mononuclear cells presented as a CD19+, CD20+, CD23low, CD10− CD5low phenotype (Fig. 1c). Chromosomal analysis on the bone marrow sample demonstrated an abnormal karyotype with monosomy 8 (Fig. 1d). The patient’s ophthalmoscopic examination showed bilateral scattered retinal hemorrhages and venous tortuosity, with macular edema. A WM-associated nephropathy and hyperviscosity syndrome was diagnosed according to the International Prognostic Scoring System for Waldenström macroglobulinemia [7], and the patient was treated with RCD (cyclophosphamide and dexamethasone and 1 week later rituximab to avoid symptomatic IgM flare) without plasmapheresis because of a favorable evolution within the first week.
×
Unfortunately, 4 weeks after beginning RCD, the patient was admitted to the intensive care unit (ICU) for oliguria, confusion, blurred speech, and severe skin and mucosal bleeding. The result of his physical examination was similar to the one at the first admission (no hepatomegaly, splenomegaly, or lymphadenopathy and no neurological focalization). His funduscopic examination revealed bilateral retinal vein dilation and tortuosity, with retinal hemorrhage. His blood counts still showed anemia (hemoglobin, 100 g/L) and normal leukocyte and platelet levels. Laboratory investigations still showed normal liver enzymes with normal coagulation tests. The patient’s plasmatic creatinine increased to 769 μmol/L (clearance, 6 ml/min according to MDRD). The serum protein immunofixation assay showed prominent monoclonal bands against IgM and kappalight chain antiserum (47.3 g/L).
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Plasmapheresis and hemodialysis were promptly started. Because of the patient’s acute renal failure as well as an acute coronary syndrome (treated with antiplatelet agents a few weeks before this presentation), treatment with idelalisib 150 mg twice daily was started. We quickly observed an improvement in the patient’s clinical status along with the viscosity decrease. Five days after the first plasmapheresis, the patient was discharged from the ICU and hemodialysis (serum creatinine, 437 μmol/L; clearance, 12 ml/min according to MDRD). Four months later, the patient’s laboratory test results showed a good response, with serum creatinine 173 μmol/L (clearance, 34 ml/min according to MDRD), total proteins 82 g/L, and gamma-globulins 28.1% (21.5 g/L). Serum immunofixation identified monoclonal IgM-kappa (19.4 g/L). With the decreases in creatinine rate, serum monoclonal IgM level < 90%, and an absence of new complications from WM, we concluded that the patient had a partial response according to the Owen et al. criteria (Fig. 2) [8]. The response was maintained over the 4-month duration of treatment. Unfortunately, idelalisib had to be stopped because of a cutaneous complication. The patient developed a psoriasiform dermatitis, which partially improved 1 month after interrupting idelalisib. Idelalisib was restarted after dermocorticoid treatment at 100 mg twice daily, with controlled psoriasis. The patient’s evolution was unfortunately poor, with frequent hospitalizations for Pseudomonas aeruginosa bacteremia treated with ciprofloxacin or piperacillin and tazobactam.
×
Eight months after his first admission, the patient was admitted to the ICU for septic shock with P. aeruginosa with extended-spectrum β-lactamase bacteremia. Unfortunately, the patient had severe hypotensive episodes during dialysis and presented seizures complicating antibiotic use (imipenem). The patient and the family clearly expressed their wish that the patient not receive invasive procedures or cardiopulmonary resuscitation. He died of septic shock and iatrogenic encephalopathy attributed to carbapenem. No autopsy was done according to the wish of the family.
Discussion
In this case report of our patient with first-line chemotherapy-refractory WM, treatment with ibrutinib was debatable for several reasons. Ibrutinib interferes with platelet aggregation, which would promote bleeding [9]. Moreover, ibrutinib promotes atrial fibrillation and has side effects that affect the heart through an unclear mechanism. Second-line therapy with idelalisib was initiated because ibrutinib did not appear to be safe in a patient with atrial fibrillation and a recent history of acute myocardial infarction and bleeding. Considering the patient’s acute renal failure, idelalisib appeared to be a good choice. Renal excretion accounts for 15% of idelalisib’s elimination, which is eliminated mostly through a hepatic pathway. Pharmacokinetic studies revealed that dose adjustments are not necessary in patients with renal dysfunction [10]. Therefore, idelalisib appeared to be easier to manage than standard chemotherapy. (Bendamustine was not used, owing to the patient’s acute renal failure).
An initially good response was observed, notably improving the patient’s renal failure and proteinuria. The patient’s diuresis resumed normally. Creatinine and proteinuria kept improving 4 months later, with the best values being 173 μmol/L and 0.48 g/L, respectively. Unfortunately, the treatment had to be stopped because of major psoriasiform dermatitis, which began with pruritus with hypereosinophilia. Rash after treatment with idelalisib was described in a phase III study in which researchers evaluated the safety and efficacy of idelalisib, with 10% of patients developing a rash and 2% of patients developing a grade 3 rash [11]. Idelalisib was recognized as a trigger of psoriasis, which then evolved by itself. Because of this severe complication, treatment was interrupted in our patient, but it was not contraindicated. Idelalisib was restarted after dermocorticoid treatment at 100 mg twice daily, and the patient had controlled psoriasis.
A patient with a medical history of acute renal failure, a recent ICU admission, severe dermatitis, and receiving idelalisib daily should probably be considered to have an increased risk of developing infections. Recently, Zelenetz et al. carefully observed that idelalisib was associated with an increased risk of serious adverse events [12, 13]. They described frequent febrile neutropenia, pneumonia, and pyrexia in the idelalisib group. Treatment-emergent adverse events leading to death occurred more often in the idelalisib group, and that group also had more infections. The evolution of our patient’s case was poor because of an infection (P. aeruginosa bacteremia) that was possibly secondary to the skin lesions and resulted in frequent hospitalizations. These outcomes serve as a reminder that frail patients receiving idelalisib must be managed very carefully.
The gold standard treatment for WM is an anti-CD20 antibody (rituximab) in combination with alkylating agents and dexamethasone. The development of treatments targeting the B-cell receptor pathway led to the development of two tyrosine kinase inhibitors: ibrutinib and idelalisib [14]. Ibrutinib was recently approved for the treatment of patients with relapsed or refractory WM. In the pivotal idelalisib study published in 2014, 9 (14%) of 64 patients with B-cell lymphoproliferative disorders had lymphoplasmacytic lymphoma or WM. In this cohort, only four patients achieved a complete or partial remission, with no details about whether the response was better in the tumoral syndrome (four had evaluable lymphadenopathy) or in monoclonal immunoglobulin and its hyperviscosity (five had measurable serum monoclonal IgM with symptomatic hyperviscosity or clinically relevant cytopenias). However, the MYD88 L265P mutation, found in 80–90% of patients with WM [3, 15], promotes the PI3K pathway, suggesting that idelalisib could be an effective therapy. Idelalisib represents an interesting molecule for treating WM because it is a potent inhibitor of PI3Kδ and is highly selective for the δ-isoform, which is hyperactive in B-cell cancer signaling pathways. In lymphoid cell lines and primary samples from patients, idelalisib blocked PI3Kδ-AKT signaling and promoted apoptosis.
Conclusions
Our patient’s case provides the first evidence, to the best of our knowledge, that idelalisib may be an effective treatment option for patients with WM complicated by anuric renal failure and in whom ibrutinib is contraindicated, especially those who are not eligible for intensive treatment because of advanced age, comorbidities, or poor performance status. However, our experience, as previously published [12], illustrates that careful attention needs to be paid to managing serious adverse events and infections.
Acknowledgements
We acknowledge Paul Kretchmer, PhD, managing director of San Francisco Edit, who provided professional writing services.
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Consent for publication
Written informed consent was obtained from the patient’s next of kin for publication of this case report and any accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal.
Competing interests
The authors declare that they have no competing interests.
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