DR [Dermatology Reports 2017; 9:6976] [page 5] Ibrutinib-associated skin toxicity: a case of maculopapular rash in a 79-year old Caucasian male patient with relapsed Waldenstrom’s macroglobu- linemia and review of the literature Anders Bisgaard Jensen,1 Birgitte Stausbøl-Grøn,2 Rikke Riber-Hansen,3 Francesco d’Amore1 1Department of Hematology; 2Department of Dermatology; 3Department of Pathology, Aarhus University Hospital, Aarhus, Denmark Abstract Waldenstrom's macroglobulinamia (WM) is a rare malignant lymphoprolifera- tive disorder, characterized by monoclonal IgM paraproteinemia and neoplastic prolif- eration of malignant lymphoplasmacytoid cells in the bone marrow. Traditionally, WM has been treated with modalities similar to those used in the management of other indolent lymphomas. Just recently, based on impressive clinical trial results in heavily pretreated WM patients, a new Bruton Tyrosine Kinase-inhibitor, Ibrutinib, has been approved for the treatment of this dis- order. As the use of Ibrutinib in WM outside clinical trials is still limited, only few clini- cal reports illustrating treatment side effects are currently available. Here we review the current literature specific on Ibrutinib-asso- ciated rash in hematologic patients, and report on an elderly patient with WM, who developed a red maculopapular non-pruritic rash 12 weeks after starting Ibrutinib thera- py. Without modifications of the ongoing Ibrutinib schedule, the rash regressed within two weeks of treatment with topical steroid- containing dermatological compounds. Introduction As in other indolent lymphoprolifera- tive malignancies, not all WM patients require treatment at the time of diagnosis. Most often these patients’ disease status will be followed and cytoreductive intervention suggested if clinically indicated. In patients where therapeutic intervention is deemed necessary Rituximab-based combination therapy regimens currently remains the therapy of choice. Monotherapy with Rituximab is only moderately effective with overall response rates (ORR) of 40-50% in previously untreated patients.1 Combinations of Rituximab with conven- tional cytotoxic agents, such as Cyclophosphamide and Dexamethasone (RCD) or Bendamustine (BR), increase ORR up to 80- 95% and median progres- sion-free survival (PFS) values to 35-70 months.2,3 A growing number of novel drugs are currently undergoing clinical trials in WM. One of these is the Bruton’s tyrosine kinase (BTK) inhibitor Ibrutinib, recently approved for the treatment of WM. In WM, a MYD88L265P mutation has been proven in 93-97% of patients.4 This gain-of-function mutation activates the BTK pathway, which in turn increases NF-κB signaling.5 Ibrutinib interferes with this B-cell prolifer- ation signal by inhibiting the BCR, BTK pathway, ultimately leading to increased apoptosis as demonstrated in chronic lym- phatic leukemia (CLL) cells.6 Several clinical trials with Ibrutinib have proven the drug to be effective in B- cell malignancies such as mantle-cell lym- phoma (MCL) and CLL. A recent clinical trial has shown Ibrutinib treatment to be highly effective in WM as well, inducing durable responses in a group of 63 pretreat- ed WM patients, with an ORR of 90.5% along with 2 year PFS and OS of 69.1% and 95.2%, respectively.7 Overall the current results of Ibrutinib treatment are looking very promising when compared to previ- ously used regimens of Rituximab as monotherapy or regimens of Rituximab combined with conventional cytotoxic agents.8 The recent clinical Ibrutinib trial found grade ≥3 adverse events to be neu- tropenia (14%) and thrombocytopenia (13%). Less frequent (≤5%) were cardiac (e.g., arrhythmia), gastrointestinal (diar- rhea) and hemorrhagic side effects. Skin events including pruritus, rash and skin exfoliation were observed in 2% of patients. Case reports specifically focusing on skin reactions to Ibrutinib treatment are described in CLL and MCL patients.9,10 More recently, Iberri et al. reported on Ibrutinib-related skin rashes in CLL and MCL patients. The authors describe two types of rash presentations: a non-palpable, largely asymptomatic rash, and a palpable, pruritic type.11 No detailed clinical descrip- tions of Ibrutinib associated skin rash have yet been reported in patients with WM. Case Report A 79-year-old man with WM diagnosed in 2002 presented to our out-patient clinic for evaluation of increasing pancytopenia (total white blood cell count 2.9x109/L, absolute neutrophil count 1.61x109/L; Hemoglobin 10.63 g/dL, platelet count 146x109/L) and IgM paraproteinemia (3500 mg/dL) associated with fatigue, drenching night sweats, recurrent bacterial and viral infections and hypogammaglobinemia. A bone marrow biopsy revealed marrow com- partments heavily infiltrated (approximate- ly 90% of the evaluated marrow cellularity) by a homogeneous population of lympho- plasmacytoid cells morphologically and immunohistochemically (CD2+, CD79a+, intracytoplasmic κ-light chain restriction) compatible with WM. The patient had pre- viously been treated with a number of regi- mens including a combination of rituximab + cyclophosphamide + vincristine + pred- nisone (R-CVP) in 2004, as well as fludara- bine (R-FC) in 2009, rituximab + ben- damustine (BR) in 2012, bortezumib + rit- uximab + dexamethasone (BDR) in 2015, Dermatology Reports 2017; volume 9:6976 Correspondence: Anders Bisgaard Jensen, Department of Hematology, Aarhus University Hospital, Aaparken 1, 0-15, 8000 Aarhus C, Denmark. Tel: +45.25566176. E-mail: ajensen@biomed.au.dk Key words: Waldenstrom's macroglobuli- namia; ibrutinib; rash; adverse effects; mini- review. Contributions: ABJ and FdA, collected data along with patient case information and inter- preted these, reviewed the literature on the subject. BS-G produced clinical images and assisted with dermatological expertise, inter- pretation and description of this. RR-H pro- duced, interpreted and described the histolog- ical samples. Drafting, critical revision and final approval of the manuscript was undertak- en by all authors. Conflict of interest: the authors declare no potential conflict of interest. Received for publication: 17 November 2016. Accepted for publication: 31 March 2017. This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). ©Copyright A.B. Jensen et al., 2017 Licensee PAGEPress, Italy Dermatology Reports 2017; 9:6976 doi:10.4081/dr.2017.6976 No n c om me rci al us e o nly with the most recent therapy given 5 months prior to his out-patient clinic visit. He was started on Ibrutinib 420 mg PO daily. The patient continued with two med- ications he had been receiving over several months prior to Ibrutinib, i.e. human IgG immunoglobulin (SC) and Allopurinol 300mg (PO) once daily. Twelve weeks after starting Ibrutinib treatment, the patient developed a painless, slightly pruritic rash starting from the groins and wrists and subsequently spread- ing to trunk, extremities and with single ele- ments also in the facial area (Figure 1). The rash was characterized by a diffuse distribu- tion of bright red edematous maculopapular elements, ranging from 0.5 to 1 cm in diam- eter, with sparing of his palms and soles (grade 3 according to NCI-CTC). Never before had the patient experienced a similar rash, nor had any of his family members or close relations similar symptoms concomi- tant to the time of onset in the patient. With regard to WM, the patient had a good clini- cal response to Ibrutinib, with IgM values gradually dropping to normal levels within the first two- three months from treatment start. Absolute eosinophil count at the time of rash onset was within normal range (0.2- 0.5x109/L). Blood work showed no signifi- cant elevation of liver enzymes or signs of impaired kidney function, which would suggest a more systemic reaction to the drug. After an initial clinical assessment, the patient was referred to the department of dermatology, where a punch biopsy from a relevant rash area was obtained for histo- logical evaluation. This biopsy showed lymphocytic infiltration with numerous eosinophil granulocytes, mainly in the superficial dermal layer, but also in the perivascular- and interstitial tissue (Figure 2A). A PAS staining of the sample was neg- ative for fungi (Figure 2B). These findings, integrated with the clinical picture and the therapeutic history, led to the diagnosis of drug-induced rash. Topical steroid treat- ment was initiated under dermatological supervision. While effective in eliminating the pruritus symptoms, topical treatment did not lead to a rapid resolution of the macu- lopapular elements. Tapering of Ibrutinib dose was considered, but not implemented in the absence of systemic and cutaneous clinical progression. At subsequent clinical evaluations, under persistent topical treat- ment, the rash gradually subsided and even- tually resolved approximately 3 months after its onset. At last follow-up, 6 months after rash resolution, the patient is still on Ibrutinib and has not experienced reoccur- rence of the cutaneous manifestations. Written consent from the patient has been obtained. Discussion Ibrutinib (Imbruvica, Janssen Biotech), an oral BTK inhibitor is approved for use in refractory CLL and MCL. In 2015, Ibrutinib was also approved for use in pre-treated adult WM patients, or previously untreated WM patients not eligible for chemotherapy. Ibrutinib has been shown to have good clin- ical and paraclinical effect in these patients, and is generally very well tolerated with a low frequency of severe adverse events.12-14 In recently published results, from early phase clinical trials testing Ibrutinib as monotherapy in MCL, CLL and small lym- phocytic lymphoma (SLL), rash occurred at a frequency of 13-27%.9,10,13-15 A recent study reporting the Stanford University experience with Ibrutinib-associated rash development in MCL and CLL patients described two different types of clinical pic- Case Report Figure 1. Pruritic rash in Waldenstrom's patient developed 12 weeks after beginning Ibrutinib therapy. A) Upper back; B) back thighs and calves; C and D) close-up of rash papules seen in panels A and B. Figure 2. A slightly spongiotic reaction with predominantly perivascular infiltrates of lymphocytes and eosinophils with a nega- tive reaction for fungi were seen in the histopathological examination of the punch biopsy of the skin (A: Hematoxylin Eosin, x200; B: Periodic Acid-Schiff, x200). [page 6] [Dermatology Reports 2017; 9:6976] No n c om me rci al us e o nly tures: i) a non-palpable, late-onset mild cutaneous eruption not requiring skin- directed therapy or Ibrutinib tapering; and ii) a palpable purpuric rash, with earlier onset, generally more severe, requiring skin-directed intervention with topical ther- apy and oral antihistamines.11 In half of the patients with grade 3 rashes, Ibrutinib was either tapered or temporarily halted. All patients were able to resume Ibrutinib treat- ment at full dose or (in two patients) at a permanently dose reduced level. Another group reported of an IgG LPL patient who developed a rash consistent with Schnitzler’s syndrome. However rash onset, look and symptoms in our patient shared only few similar characteristics with the typical presentation of Schnitzlers, and thus the rash was not suspected a part of this spe- cific syndrome. Apart from being a BTK- inhibitor, Ibrutinib has been shown to effec- tively inhibit the epidermal growth factor receptor (EGFR) in a dose dependent man- ner.16 Inhibition of EGFR is known to stim- ulate apoptosis, inflammation, enhance apoptosis and inhibit cell cycle progression.17 Cutaneous eruptions are a well-known adverse effect to EGFR inhibi- tion by other tyrosine kinase inhibitors (TKI),18 and similarly Ibrutinib-induced rash may in part be a result of EGFR inhibi- tion. The time of onset, and the general appearance of the rash could resemble a late-phase IgE-mediated reaction. The his- tological sample with lymphocytic and eosoniphile infiltration supports this theory, although the patient had not experienced any immediate reaction to the compound, and had not previously experienced atopic reactions to other drugs. Another possible explanation is that the rash represents a viral reactivation as a result of the patient’s immunocompromised state. If this were the case, it would be the first time the patient experienced viral reactivation during treat- ment since diagnosed in 2002. No further investigation of the underlying mechanism was made, as the rash gradually resolved on topical steroid treatment. Data on skin- based toxicity in WM patients are largely lacking, and as of now only a small amount of detailed clinical characteristics of rash in this group of patients have been described. It is therefore only possible to compare this presentation to other patient groups. Ibrutinib-induced rashes have been described in MCL, CML and CLL patients, all receiving 400-600 mg of Ibrutinib (Figure 3).9,11,19,20 As can be seen from these reports, the time of rash onset is highly vari- able, with onset as late as 300-400 days after starting treatment, in some patients. The rash and pruritus symptoms in our patient are comparable to the symptoms described in the MCL/CLL group II. Compared to this group, rash onset is delayed in our patient (84 days compared to median 15 days), and no Ibrutinib tapering or pausing was deemed necessary. Conclusions Here we report of an elderly WM patient who developed a rash 84 days after initiating Ibrutinib therapy. This is, to our knowledge the first case description of an Ibrutinib-associated rash in a WM patient. The possible mechanism could be attributed to either EGFR action of the compound, IgE mediated allergic reaction or more simply, a viral reactivation caused by immunocom- primisation. In comparison to the other patient groups, rash onset was delayed and symptoms were milder when compared to the other cases presented with pruritic symptoms, and comparable CLL/MCL type II rash group of the Stanford study. Due to the novelty of the drug in the WM setting, detailed, and disease-specific clinical descriptions of toxicity profiles in general, and skin-based in particular, are valuable information for daily clinical practice. By providing a detailed report on the clinical manifestation and subsequent man- agement of Ibrutinib-associated skin-toxici- ty in a WM patient, our case report con- tributes in generating a shared clinical expe- rience useful for recognition and manage- ment of Ibrutinib-associated rash. The rele- vance of this data is underscored by the increasing use of Ibrutinib in WM, after its recent approval. References 1. Treon SP, Emmanouilides C, Kimby E, et al. Extended rituximab therapy in Waldenstrom’s macroglobulinemia. Ann Oncol 2005;16:132-8. 2. Rummel MJ, Niederle N, Maschmeyer G, et al. Bendamustine plus rituximab versus CHOP plus rituximab as first- line treatment for patients with indolent and mantle-cell lymphomas: an open- label, multicentre, randomised, phase 3 non-inferiority trial. Lancet 2013;381: 1203-10. 3. Dimopoulos MA, Anagnostopoulos A, Kyrtsonis MC, et al. Primary treatment of Waldenstrom macroglobulinemia with dexamethasone, rituximab, and cyclophosphamide. J Clin Oncol 2007; 25:3344-9. 4. Treon SP, Xu L, Hunter Z. MYD88 Mutations and Response to Ibrutinib in Waldenstrom’s Macroglobulinemia. N Engl J Med 2015;373:584-6. Case Report Figure 3. An overview of rash onset from previously published studies and case reports regarding Ibrutinib-associated rashes in CML, CLL and MCL patients. References refer to reference list. [Dermatology Reports 2017; 9:6976] [page 7] No n c om me rci al us e o nly [page 8] [Dermatology Reports 2017; 9:6976] 5. Treon SP, Xu L, Yang G, et al. MYD88 L265P somatic mutation in Waldenstrom’s macroglobulinemia. N Engl J Med 2012;367:826-33. 6. Herman SE, Gordon AL, Hertlein E, et al. Bruton tyrosine kinase represents a promising therapeutic target for treat- ment of chronic lymphocytic leukemia and is effectively targeted by PCI- 32765. Blood 2011;117:6287-96. 7. Treon SP, Tripsas CK, Meid K, et al. Ibrutinib in previously treated Waldenstrom’s macroglobulinemia. N Engl J Med 2015;372:1430-40. 8. Castillo JJ, Palomba ML, Advani R, Treon SP. Ibrutinib in Waldenstrom macroglobulinemia: latest evidence and clinical experience. Ther Adv Hematol 2016;7:179-86. 9. Mannis G, Wu D, Dea T, et al. Ibrutinib rash in a patient with 17p del chronic lymphocytic leukemia. Am J Hematol 2015;90:179. 10. Tobinai K, Ogura M, Ishizawa K, et al. Safety and tolerability of ibrutinib monotherapy in Japanese patients with relapsed/refractory B cell malignancies. Int J Hematol 2016;103:86-94. 11. Iberri DJ, Kwong BY, Stevens LA, et al. Ibrutinib-associated rash: a single-cen- tre experience of clinicopathological features and management. Br J Haematol 2016 [Epub ahead of print]. 12. Advani RH, Buggy JJ, Sharman JP, et al. Bruton tyrosine kinase inhibitor ibrutinib (PCI-32765) has significant activity in patients with relapsed/refrac- tory B-cell malignancies. J Clin Oncol 2013;31:88-94. 13. Byrd JC, Furman RR, Coutre SE, et al. Targeting BTK with ibrutinib in relapsed chronic lymphocytic leukemia. N Engl J Med 2013;369:32-42. 14. O’Brien S, Furman RR, Coutre SE, et al. Ibrutinib as initial therapy for elderly patients with chronic lymphocytic leukaemia or small lymphocytic lym- phoma: an open-label, multicentre, phase 1b/2 trial. Lancet Oncol 2014; 15:48-58. 15. Wang ML, Rule S, Martin P, et al. Targeting BTK with ibrutinib in relapsed or refractory mantle-cell lym- phoma. N Engl J Med 2013;369:507- 16. 16. Chen J, Kinoshita T, Sukbuntherng J, et al. Ibrutinib Inhibits ERBB Receptor Tyrosine Kinases and HER2-Amplified Breast Cancer Cell Growth. Endocr Relat Cancer 2016;15:689-708. 17. Woodworth CD, Michael E, Marker D, et al. Inhibition of the epidermal growth factor receptor increases expression of genes that stimulate inflammation, apoptosis, and cell attachment. Mol Cancer Ther 2005;4:650-8. 18. Perez-Soler R, Van Cutsem E. Clinical research of EGFR inhibitors and related dermatologic toxicities. Oncology (Williston Park) 2007;21:10-6. 19. Milojkovic D, Short K, Salisbury JR, et al. Dose-limiting dermatological toxici- ty secondary to imatinib mesylate (STI571) in chronic myeloid leukaemia. Leukemia 2003;17:1414-6. 20. Rule SA, O’Brien SG, Crossman LC. Managing cutaneous reactions to ima- tinib therapy. Blood 2002;100:3434-5. Case Report No n c om me rci al us e o nly