Introduction: Treatment of relapsed and refractory (R/R) B acute lymphoblastic leukemia (B-ALL) represents an unmet medical need in children and adults. Adoptive T cells engineered to express a chimeric antigen receptor (CAR-T) is emerging as an effective technique for treating these patients. Areas covered: Efficacy and safety of CAR-T therapy in R/R B-ALL patients. Expert opinion: CD19 CAR-T infusion induce high CR rates in patients with poor prognosis and few therapeutic options, while real-life data demonstrate similar results with an interestingly lower incidence of grade 3/4 toxicity. Nevertheless, despite impressive in-depth responses, more than half of patients will experience a relapse. Therefore, rather than using CAR-T cell therapy as a stand-alone option, consolidation with allogeneic stem-cell transplant (Allo-SCT) after CAR-T treatment might increase long-term outcome. Moreover, CD19 is one target, but several other targets are being examined, such as CD20 and CD22 and dual-targeting CARs or combination therapy. Another issue is the time consuming process of CAR-T engineering. New platforms have shortened the CAR-T cell manufacturing process, and studies are underway to evaluate the effectiveness. Another way to mitigate waiting is the development of allogeneic “off the shelf” therapy. In conclusion, CD19-targeted CAR-modified T-cell therapy has shown unprecedented results in patients without curative options. Future work focusing on target identification, toxicity management and reducing manufacturing time will broaden the clinical applicability and bring this exciting therapy to more patients, with longer-term remissions without additional Allo-SCT.
In recent years, dermatologic manifestations in oncohematologic patients have become more common. The aim of our study was to determine the incidence and heterogeneity of skin manifestations in patients followed at our Hematology Department. This observational monocentrical study was conducted on 60 patients. We divided the observed conditions in exanthematous, purpuric, vesicular‐bullous, papulonodular, urticarial, and eczematous manifestations. Moreover, all lesions were classified according to pathogenesis, in (a) specific skin manifestations, caused by neoplastic skin infiltration; (b) immune‐mediated manifestations, based on immunological mechanisms; and (c) skin lesions due to immunodeficiency. Altogether, 73 clinical manifestations were reported. Specific manifestations (a) were detected in 15.1% of the cases, mainly with papulonodular appearance. Immune‐mediated manifestations (b) were found in 37 cases (50.7%), particularly with eczematous or exanthematous appearance, and leukemia was the malignancy most frequently reported in these patients. Eventually, lesions due to immunosuppression (c) were reported in 34.2% of the cases. They were represented by infections and cutaneous malignancies, and usually manifested with papulonodular lesions. Skin lesions in oncohematologic patients are a common event. A multidisciplinary approach based on the collaboration between the hematologist and the dermatologist is crucial to achieve a proper diagnosis, and correctly manage these manifestations.
Despite the improvement in survival outcomes, multiple myeloma (MM) remains an incurable disease. Chimeric antigen receptor (CAR) T-cell therapy targeting B-cell maturation antigen (BCMA) represents a new strategy for the treatment of relapsed/refractory MM (R/R). In this paper, we describe several recent advances in the field of anti-BCMA CAR T-cell therapy and MM. Currently, available data on anti-BCMA CART-cell therapy has demonstrated efficacy and manageable toxicity in heavily pretreated R/R MM patients. Despite this, the main issues remain to be addressed. First of all, a significant proportion of patients eventually relapse. The potential strategy to prevent relapse includes sequential or combined infusion with CAR T-cells against targets other than BCMA, CAR T-cells with novel dual-targeting vector design, and BCMA expression upregulation. Another dark side of CART therapy is safety. Cytokine release syndrome (CRS) andneurologic toxicity are well-described adverse effects. In the MM trials, most CRS events tended to be grade 1 or 2, with fewer patients experiencing grade 3 or higher. Another critical point is the extended timeline of the manufacturing process. Allo-CARs offers the potential for scalable manufacturing for on-demand treatment with shorter waiting days. Another issue is undoubtedly going to be access to this therapy. Currently, only a few academic centers can perform these procedures. Recognizing these issues, the excellent response with BCMA-targeted CAR T-cell therapy makes it a treatment strategy of great promise.
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