The purpose of this multicenter study was to compare the long-term impact of a preparative regimen with either BUBU or TBI on health status and quality of life (QoL) in childhood acute leukemia survivors treated with hematopoietic SCT (HSCT). Two-hundred and forty patients were included. Sixty-six had received BU, while 174 had received TBI. Median follow-up from HSCT was 10.1 years. Multivariate analyses were performed to assess the occurrence of late effects according to treatment. QoL was assessed in 130 adults using SF-36 questionnaires. Patients developed fewer late complications after BU (2.35 vs 3.01, P ¼ 0.03) while the risk to present with at least one complication was equivalent in both groups (87.9% after BU and 93.1% after TBI, P ¼ 0.66). Detailed multivariate analyses revealed a lower risk of height growth failure (OR ¼ 0.2), cataract (OR ¼ 0.1) and iron overload (OR ¼ 0.2) after BU, and an increased risk of overweight (OR ¼ 3.9) and alopecia (OR ¼ 11.2). SF-36 mental and physical composite scores were similar in both treatment groups and proved significantly lower than French norms. Late effects induced by BU might differ from those experienced after TBI. Although less frequent, they are still of considerable importance and may affect patients' QoL.
We compared the impact of a conditioning regimen with BU (n=16) or fractionated TBI (n=42) on height growth during adolescence and final height (FH), in 58 adults transplanted for acute leukaemia before adolescence (younger than 9 for girls and 11 for boys, and prepubertal). Heights were measured at three key periods, that is, transplantation, before adolescence, and FH, and compared using height standard deviation score (SDS) and cumulative change in SDS. The influence of the conditioning regimen was assessed using multiple linear regression and adjusting for gender, central nervous system irradiation, age and leukaemia status at transplant and type of transplantation. Overall mean height SDS was near normal at transplantation and before adolescence (0.2+/-0.1 and -0.2+/-0.1, respectively), but decreased to -1.6+/-0.1 at FH. There were significant differences between the TBI and BU groups when comparing FH SDS (-1.8+/-0.2 vs -0.8+/-0.2, P=0.001), mean change in height SDS from transplantation to FH (-2+/-0.1 vs -1.1+/-0.2, P=0.002) and mean change in height SDS during adolescence (-1.6+/-0.1 vs -0.7+/-0.2, P=0.003). We conclude that preparations involving BU, although less toxic than TBI-containing regimens, also have adverse effects on growth, predominantly during adolescence.
Many primary immunodeficiencies (PIDs) are recognised as being associated with malignancies, particularly lymphoid malignancies, which represent the highest proportion of cancers occurring in conjunction with this underlying condition. When patients present with genetic errors of immunity, clinicians must often reflect on whether to manage antitumoral treatment conventionally or to take a more personalised approach, considering possible existing comorbidities and the underlying status of immunodeficiency. Recent advances in antitumoral immunotherapies, such as monoclonal antibodies, antigen-specific adoptive cell therapies or compounds with targeted effects, potentially offer significant opportunities for optimising treatment for those patients, especially with lymphoid malignancies. In cases involving PIDs, variable oncogenic mechanisms exist, and opportunities for antitumoral immunotherapies can be considered accordingly. In cases involving a DNA repair defect or genetic instability, monoclonal antibodies can be proposed instead of chemotherapy to avoid severe toxicity. Malignancies secondary to uncontrolled virus-driven proliferation or the loss of antitumoral immunosurveillance may benefit from antivirus cell therapies or allogeneic stem cell transplantation in order to restore the immune antitumoral caretaker function. A subset of PIDs is caused by gene defects affecting targetable signalling pathways directly involved in the oncogenic process, such as the constitutive activation of phosphoinositol 3-kinase/protein kinase B (PI3K/AKT) in activated phosphoinositide 3-kinase delta syndrome (APDS), which can be settled with PI3K/AKT inhibitors. Therefore, immunotherapy provides clinicians with interesting antitumoral therapeutic weapons to treat malignancies when there is an underlying PID.
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