echemi logo
Product
  • Product
  • Supplier
  • Inquiry
    Home > Active Ingredient News > Blood System > Mayo Thousand Studies demonstrated that the interval between the end of NDMM induction therapy and transplantation can affect PFS

    Mayo Thousand Studies demonstrated that the interval between the end of NDMM induction therapy and transplantation can affect PFS

    • Last Update: 2022-11-04
    • Source: Internet
    • Author: User
    Search more information of high quality chemicals, good prices and reliable suppliers, visit www.echemi.com

    New advances in multiple myeloma (MM) treatment options and the continued use of autologous stem cell transplantation (ASCT) have significantly improved survival outcomes over the past 20 years, but the role of transplantation has recently been challenged by new drugs and combinations that can effectively control the disease and achieve comparable outcomes
    without consolidation transplantation.
    This result is primarily driven by the toxicity of transplant-related procedures such as infections, even if its duration has reached a minimum and is usually reversible
    .
    However, many clinical trials have shown a significant survival benefit with ASCT compared with medical therapy alone, with nearly one-third of patients achieving complete remission (CR) without any additional treatment, and median PFS from diagnosis of 18 months to 2 years
    .

     

    Patients who are candidates for first-line transplantation typically receive an induction regimen of 3 to 6 cycles, followed by high-dose melphalan and autologous stem cell
    infusions.
    Typically, the last induction cycle is completed 3-4 weeks before stem cell mobilization and apheresis; While the use of CXCR antagonists such as Puresaf reduces apheresis delay, other logistical issues can increase the gap
    between the end of induction and the initiation of ASCT.
    Patients then receive high-dose chemotherapy and a return infuse of stem cells
    .

     

    Although many risk factors (e.
    g.
    , age, obesity, previous radiation exposure) help predict transplant outcomes, it is unclear whether disease exacerbation during the drug-free period between the date of last chemotherapy and the date of stem cell infusion predict high-risk disease and poor
    post-transplant clinical outcomes 。 In order to evaluate the effect of chemotherapy-free period on progression-free survival (PFS) and overall survival (OS) after ASCT, Professor Mayo Shaji Kumar et al.
    reviewed the data of 1055 NDMM patients who received autologous transplantation in our center over 15 years, and found that the time from the end of induction therapy to the start of transplantation was 33 days, and the PFS of patients > 33 days was significantly worse
    .
    The detailed results were published today in Bone Marrow Transplantation
    , the official journal of the European Society of Blood and Marrow Transplantation (EBMT).

     

     

     

    Research methods

    This retrospective cohort study included all NDMM patients
    who attended the Mayo Clinic from 2004 to 2018 and received first-line ASCT within 1 year of diagnosis.
    Patients with disease progression during induction therapy, as well as patients receiving pulse therapy with cyclophosphamide prior to mobilization, were excluded, as it artificially extended the time
    to transplantation compared to standard regimens.
    In addition, to ensure cohort homogeneity, all patients
    receiving maintenance therapy or other chemotherapy regimens after stem cell harvesting were excluded.

     

    The authors first assessed the duration of each patient's induction regimen, recorded the exact date of the patient's last chemotherapy, and divided the patients into 2 groups based on the median-to-transplant time (TTT) calculated from the date of the last chemotherapy to the date of stem cell infusion; The administration of the pretreatment regimen was then also collected and the level
    of biochemical remission achieved prior to transplantation was determined according to IMWG criteria.
    Baseline clinical features of the entire cohort were collected, Del17p, T (4; 14)、t(14; 16)、t(14; 20) Gain1Q abnormalities are high-risk].

    Study endpoints were PFS (from stem cell infusion date to date of biochemical progression or intensive therapy) and OS (from stem cell infusion date to all-cause death date).

     

     

    Research results

    A total of 1055 NDMM patients received autologous stem cell transplantation
    within one year of diagnosis.
    The median age at diagnosis was 61.
    4 years, and 332 patients (35.
    7%) had high-risk FISH abnormalities
    .
    In the entire cohort, 461 (43.
    8%) patients were mobilized with G-CSF alone, and 588 (55.
    9%) were mobilized with Ploroxafor
    .
    In terms of pretreatment, 893 (84.
    6%) patients received melphalan 200 mg/m2, and the remaining patients [112 (10.
    6%)] received a low-dose regimen or other melphalan regimen [50 (4.
    7%)].

    The median PFS and OS after stem cell infusion date were 33.
    4 and 122.
    3 months
    , respectively.
    Baseline clinical features are shown in Table 1
    .

     

     

    The median TTT since the last chemotherapy date was 33 days, so the cohort was grouped
    according to the median TTT (33 days).
    PFS was found to be significantly longer in patients with a TTT ≤ 33 days than in patients with > 33 days (35.
    6 vs.
    32.
    1 months, p< 0.
    03), but no difference in OS (128 vs.
    122.
    2 months, p= 0.
    68) (Figures 1 and 2).

     

     

    The authors then grouped patients according to interquartile TTT and found that patients with TTT ≤ 27 days (1st quartile) had significantly longer PFS compared with those with TTT > 42nd day (4th quartile) (36.
    7 vs.
    30.
    9 months, p< 0.
    01), but the difference in OS remained insignificant (115.
    8 vs.
    124.
    4 months, p=0.
    33) (Figures 3 and 4).

     

     

    Univariate analysis found that HR = 1.
    17 (p< 0.
    03)
    for PFS in patients with TTT > 33 days compared with patients with TTT ≤ 33 days.
    The authors then performed a multivariate analysis to determine whether TTT prolongation was an independent risk factor for PFS shortening in patients with MM, and the model took into account age, biochemical response before transplantation, pretreatment dose, and FISH results at diagnosis, and found an increased risk of PFS shortening in patients with TTT prolongation (HR = 1.
    19, p< 0.
    03).

     

    The authors then divided the patients into interquartiles and compared the 1st quartile to the 4th quartile, resulting in univariate analysis of PFS showing HR = 1.
    37 (p< 0.
    01) for patients in TTT 4th quartile and HR = 1.
    34 (p< 0.
    01)
    for patients with multivariate analysis.

     

    The authors also performed a subgroup analysis based on biochemical responses obtained prior to transplantation, classifying patients into "good" remitters (≥VGPR) and "poor" remitters (37.
    3="" vs.
    ="" pfs="">

     

     

    In the adverse remission group, PFS was also significantly longer in patients with TTT ≤ 33 days compared with patients with TTT > 33 days (30.
    5 vs.
    27 months, p< 0.
    03), but the OS was similar (129 vs.
    125 months, p= 0.
    96) (Figures 7 and 8).

    。 In quartile comparisons, PFS was significantly longer in patients in the 1st quartile group compared with the 4th quartile group (37.
    7 vs.
    28.
    7 months, p< 0.
    04); No significant difference was found in OS (129 vs.
    132 months, p=0.
    26) (Figures 9 and 10).

     

     

     

    discuss

    This is the first study to explore the effect of the time interval between the date of last chemotherapy and the date of stem cell infusion on clinically relevant outcomes in newly diagnosed, transplant-worthy MM patients, and the results suggest that this time interval plays an important role
    in PFS in MM patients undergoing autologous stem cell transplantation.

     

    PFS was significantly worse in patients with a median TTT of 33 days and prolonged TTT (33 days >) than in patients infusion with stem cells within 33 days of the last chemotherapy date, so PFS in patients in the 4th quartile (> 42 days) was significantly worse than in patients
    in the 1st quartile (≤ 27 days).
    。 In addition, the adverse effects were more pronounced when patients were grouped according to the biochemical response of IMWG achieved at the time of induction: the difference in PFS was most pronounced in patients who did not achieve > PR response prior to transplantation, suggesting that this cohort may benefit more from intensive chemotherapy regimens so that their course does not lead to prolonged
    treatment intervals.

     

    The consistent PFS differences in this study did not translate into differences in OS, possibly due to significant differences
    in the reception of induction therapy.
    In addition, post-transplant maintenance is not routinely used in most cohorts, and salvage therapy is inconsistent
    .

     

    TTT is not routinely reported in current clinical studies, and most randomized controlled trial protocols in patients eligible for NDMM transplantation only need to be reported until mobilization
    .
    Based on the results of this study, it may be beneficial for future trials to include TTT in patient evaluation, especially in patients who show signs of relapse prior to stem cell infusion

     

    Overall, this study demonstrates the important role
    of TTT in clinical outcomes in patients with NDMM.
    Prolonged TTT (> 42 days) was associated with poorer outcomes compared with a more intensive chemotherapy regimen (≤ 27 days), and this result was particularly severe in patients with lower VGPR at the time of induction therapy, and also had prognostic significance
    in multivariate analyses.
    While further prospective studies are needed to validate the effect of TTT on clinically relevant outcomes, the authors recommend that patients should not be given a chemotherapy-free period for too long before stem cell infusion, as it may adversely affect
    the course of the disease.

     

    References

    Charalampous C,Goel U,Gertz M,et al.
    Impact of the time interval between end of induction and autologous hematopoietic transplantation in newly diagnosed patients with multiple myeloma.
    Bone Marrow Transplant .
    2022 Oct 6.
    doi: 10.
    1038/s41409-022-01835-y

    This article is an English version of an article which is originally in the Chinese language on echemi.com and is provided for information purposes only. This website makes no representation or warranty of any kind, either expressed or implied, as to the accuracy, completeness ownership or reliability of the article or any translations thereof. If you have any concerns or complaints relating to the article, please send an email, providing a detailed description of the concern or complaint, to service@echemi.com. A staff member will contact you within 5 working days. Once verified, infringing content will be removed immediately.

    Contact Us

    The source of this page with content of products and services is from Internet, which doesn't represent ECHEMI's opinion. If you have any queries, please write to service@echemi.com. It will be replied within 5 days.

    Moreover, if you find any instances of plagiarism from the page, please send email to service@echemi.com with relevant evidence.