OBJECTIVES: We examined healthcare providers' perspectives on how childhood cancer impacts young adult health behaviors and psychosocial functioning, how healthy lifestyle and psychosocial issues are addressed in this population, challenges related to addressing these issues, and potential resources for addressing them.
METHODS: In 2012, we recruited 21 healthcare providers (e.g., oncologists, nurses, social workers) who treat young adult survivors of childhood cancer from a children's hospital and a cancer center in the Southeastern U.S. to complete telephone-based semi-structured interviews.
RESULTS: Our sample was an average of 45.95 (SD=7.57) years old, 52.4% female, and 81.0% MDs. Most mentioned that the impact of cancer on health risk behaviors and psychosocial functioning depended on several things including social support and other environmental factors. Participants indicated several general activities and approaches aimed at addressing healthy lifestyles among this population. Participants reported a range of health education, from minimal education to continuous education throughout treatment and survivorship. Providers indicated a team-oriented approach to addressing psychosocial issues and that the survivorship program addressed the complications of obtaining insurance, education and employment, and reproductive health within this population. A major factor was the involvement of the family in addressing these issues. Providers' challenges in intervening included limited time, resources, financial support, and referral options. Participants suggested resources to address these challenges.
CONCLUSIONS: Several resources are needed to address the challenges faced by practitioners in addressing young adult survivors' issues, including physical resources, social support resources, education for patients and healthcare providers, and programs to provide financial support.
Abstract: The role of consolidative radiotherapy (RT) in patients ≥60 years old with DLBCL in the rituximab era is controversial. We examined the impact on disease control and overall survival by the addition of consolidative RT after completion of chemotherapy, while adjusting for known adverse risk factors. Retrospective chart review from 2004 to 2012 of 83 consecutive patients ≥60 years old with DLBCL treated in the rituximab era, 68 of which had a complete response to chemotherapy, was performed. Amongst patients with a complete response, consolidative RT use was associated with 100% 5-year local control, improved progression-free survival (p = 0.047), and a trend for overall survival (p =.098) on multivariate analysis. Amongst all patients, the use of consolidative RT was associated with improved overall survival (p = 0.03). The use of consolidative RT should be considered for patients ≥60 years old independent of stage and response to chemotherapy.
by
John A. Kalapurakal;
Mahesh Gopalakrishnan;
David O. Walterhouse;
Cynthia K. Rigsby;
Alfred Rademaker;
Irene Helenowski;
Sandy Kessel;
Karen Morano;
Fran Laurie;
Ken Ulin;
Natia Esiashvili;
Howard Katzenstein;
Karen Marcus;
David Followill;
Suzanne L. Wolden;
Anita Mahajan;
Thomas J Fitzgerald;
Irene B. Helenowski
Purpose: A prospective clinical trial was conducted for patients undergoing cardiac sparing (CS) whole lung irradiation (WLI) using intensity modulated radiation therapy (IMRT). The 3 trial aims were (1) to demonstrate the feasibility of CS IMRT with real-time central quality control; (2) to determine the dosimetric advantages of WLI using IMRT compared with standard anteroposterior (AP) techniques; and (3) to determine acute tolerance and short-term efficacy after a protocol-mandated minimum 2-year follow-up for all patients. Methods and Materials: All patients underwent a 3-dimensional chest computed tomography scan and a contrast-enhanced 4-dimensional (4D) gated chest computed tomography scan using a standard gating device. The clinical target volume was the entire bilateral 3-dimensional lung volume, and the internal target volume was the 4D minimum intensity projection of both lungs. The internal target volume was expanded by 1 cm to get the planning target volume. All target volumes, cardiac contours, and treatment plans were centrally reviewed before treatment. The different cardiac volumes receiving percentages of prescribed radiation therapy (RT) doses on AP and IMRT WLI plans were estimated and compared. Results: The target 20 patients were accrued in 2 years. Median RT dose was 15 Gy. Real-time central quality assurance review and plan preapproval were obtained for all patients. WLI using IMRT was feasible in all patients. Compared with standard AP WLI, CS IMRT resulted in a statistically significant reduction in radiation doses to the whole heart, atria, ventricles, and coronaries. One child developed cardiac dysfunction and pulmonary restrictive disease 5.5 years after CS IMRT (15 Gy) and doxorubicin (375 mg/m2). The 2- and 3-year lung metastasis progression-free survival was 65% and 52%, respectively. Conclusions: We have demonstrated the feasibility of WLI using CS IMRT and confirmed the previously reported advantages of IMRT, including superior cardiac protection and superior dose coverage of 4D lung volumes. Further studies are required to establish the efficacy and safety of this irradiation technique.
Background:
The Children's Oncology Group (COG) publishes consensus guidelines with screening recommendations for early identification of treatment-related morbidities among childhood cancer survivors. We sought to estimate the yield of recommended yearly urinalysis screening for genitourinary complications as per Version 3.0 of the COG Long-Term Follow-Up Guidelines and identify possible risk factors for abnormal screening in a survivor population. Procedure: A database of pediatric cancer survivors evaluated between January 2008 and March 2012 at Children's Healthcare of Atlanta was queried for survivors at risk for genitourinary late effects. The frequency of abnormal urinalyses (protein ≥1+ and/or presence of glucose and/or ≥5 red blood cells per high power field) was estimated. Risk factors associated with abnormal screening were identified. Results: Chart review identified 773 survivors (57% male; 67% Caucasian; 60% leukemia/lymphoma survivors; mean age at diagnosis, 5.7 years [range: birth to 17.7 years]; time from diagnosis to initial screening, 7.6 years [range: 2.3 to 21.5 years]) who underwent urinalysis. Abnormal results were found in 78 (5.3%) of 1,484 total urinalyses. Multivariable analysis revealed higher dose ifosfamide (odds ratio [OR] = 6.8, 95% confidence interval [CI] 2.9-16.0) and total body irradiation (TBI, OR = 3.0, 95% CI 1.0-8.4) as significant risk factors for abnormal initial urinalysis screening. Conclusions: Pediatric cancer survivors exposed to higher dose ifosfamide or TBI may be at higher risk of abnormal findings on urinalysis screening. Targeted screening of these higher risk patients should be considered.
Introduction: Rotational total skin electron irradiation (RTSEI) is an effective therapy for cutaneous T cell lymphoma (CTCL). CD30 expression has been identified as a prognostic factor in CTCL. Therefore, we investigated CD30 status, treatment response, and survival in our cohort of patients with CTCL treated with RTSEI.
Methods: Patients with CTCL treated with RTSEI (≥30 Gy) between 2000 and 2013 at our institution were identified, and clinical and pathologic data were retrospectively reviewed. Primary outcomes were complete clinical response (CCR; >90% reduction of skin disease burden), relapse-free survival (RFS), and overall survival (OS).
Results: Sixty-eight patients with CTCL treated with RTSEI were identified. Median age at diagnosis was 51 years with median follow-up of 61 months. Median OS was 76 months and median RFS was 11 months. Thirteen patients (19%) had CD30+ lymphocytes on initial pathology. In the CD30+ cohort, there were no T2, eight T3, and five T4 cases. In comparison, in the CD30− cohort, there were 18 T2, 29 T3, and 8 T4 cases (P = 0.01). Six weeks post-RTSEI, CCR was 85% in CD30+ and 81% in CD30− cases (P = 1). Six months post-RTSEI, CCR was 23% in CD30+ and 50% in CD30− cases (P = 0.083).
Conclusion: RTSEI resulted in excellent CCR at 6 weeks in our cohort of patients with CTCL, with a median RFS of 11 months. We found CD30+ patients presented with significantly higher T stage at time of RTSEI and trended towards decreased CCR at 6 months post-RTSEI compared with the CD30− group.
by
John C. Breneman;
Sarah S. Donaldson;
Louis Constine;
Thomas E. Merchant;
Karen Marcus;
Arnold C. Paulino;
David Followill;
Anita Mahajan;
Nadia Laack;
Natia Esiashvili;
Daphne Haas-Kogan;
Fran Laurie;
Arthur Olch;
Kenneth Ulin;
David Hodgson;
Torunn I. Yock;
Stephanie Terezakis;
Matt Krasin;
Joseph Panoff;
Paul Chuba;
Chia-Ho Hua;
Clayton Hess;
Peter J. Houghton;
Suzanne Wolden;
Jeff Buchsbaum;
Thomas J. Fitzgerald;
John A. Kalapurakal
Purpose: Our aim was to review the advances in radiation therapy for the management of pediatric cancers made by the Children's Oncology Group (COG) radiation oncology discipline since its inception in 2000. Methods and Materials: The various radiation oncology disease site leaders reviewed the contributions and advances in pediatric oncology made through the work of the COG. They have presented outcomes of relevant studies and summarized current treatment policies developed by consensus from experts in the field. Results: The indications and techniques for pediatric radiation therapy have evolved considerably over the years for virtually all pediatric tumor types, resulting in improved cure rates together with the potential for decreased treatment-related morbidity and mortality. Conclusions: The COG radiation oncology discipline has made significant contributions toward the treatment of childhood cancer. Our discipline is committed to continuing research to refine and modernize the use of radiation therapy in current and future protocols with the goal of further improving the cure rates and quality of life of children with cancer.
by
Natia Esiashvili;
X. Lu;
K. Ulin;
F. Laurie;
S. Kessel;
J. A. Kalapurakal;
T. E. Merchant;
D. S. Followill;
V. Sathiaseelan;
M. K. Schmitter;
Meenakshi Devidas;
Yichen Chen;
D. A. Wall;
P. A. Brown;
S. P. Hunger;
S. A. Grupp;
M. A. Pulsipher
Purpose:
To examine the relationship between lung radiation dose and survival outcomes in children undergoing total body irradiation (TBI)-based hematopoietic stem cell transplantation (HSCT) for acute lymphoblastic leukemia (ALL) on Children’s Oncology Group (COG) trial.
Patients and Methods:
TBI (1200 or 1320 cGy given twice daily in 6 or 8 fractions) was used as part of 3 HSCT preparative regimens; allowing institutional flexibility regarding TBI techniques, including lung shielding. Lung doses as reported by each participating institution were calculated for different patient setups, with and without shielding, with a variety of dose calculation techniques. The association between lung dose and transplant-related mortality (TRM), relapse-free (RFS) and overall-survival (OS) was examined using Cox proportional hazard regression model controlling for the following variables: TBI dose rate, TBI fields, patient position during TBI, donor type, and pre-HSCT minimal residual disease (MRD) level.
Results:
From a total of 143 eligible patients127 had lung doses available for this analysis. The TBI techniques were heterogeneous. The mean lung dose was reported as 904.5cGy (SD ±232.3). Patients treated with lateral fields were more likely to receive lung doses ≥800cGy (p<0.001). Lung dose ≥800cGy influence on TRM was not significant (HR 1.78; p=0.21). On univariate analysis, lung dose ≥800cGy was associated with inferior RFS (HR 1.76; p=0.04) and OS (HR 1.85; p=0.03); in the multivariate analysis, OS maintained statistical significance (HR 1.85; p=0.04).
Conclusion:
The variability in TBI techniques result in an uncertainty with reported lung doses. Lateral fields were associated with higher lung dose, hence better be avoided. Patients treated with lung dose <800 cGy in this study had better outcome. This approach is currently been investigated in COG AALL1331 study. Additionally, the Imaging and Radiation Oncology Core (IROC) Group is evaluating effects of TBI techniques on lung doses using a phantom.
Purpose: Proton vertebral body sparing craniospinal irradiation (CSI) treats the thecal sac while avoiding the anterior vertebral bodies in an effort to reduce myelosuppression and growth inhibition. However, robust treatment planning needs to compensate for proton range uncertainty, which contributes unwanted doses within the vertebral bodies. This work aimed to develop an early in vivo radiation damage quantification method using longitudinal magnetic resonance (MR) scans to quantify the dose effect during fractionated CSI. Methods and Materials: Ten pediatric patients were enrolled in a prospective clinical trial of proton vertebral body sparing CSI, in which they received 23.4 to 36 Gy. Monte Carlo robust planning was used, with spinal clinical target volumes defined as the thecal sac and neural foramina. T1/T2-weighted MR scans were acquired before, during, and after treatments to detect a transition from hematopoietic to less metabolically active fatty marrow. MR signal intensity histograms at each time point were analyzed and fitted by multi-Gaussian models to quantify radiation damage. Results: Fatty marrow filtration was observed in MR images as early as the fifth fraction of treatment. Maximum radiation-induced marrow damage occurred 40 to 50 days from the treatment start, followed by marrow regeneration. The mean damage ratios were 0.23, 0.41, 0.59, and 0.54, corresponding to 10, 20, 40, and 60 days from the treatment start. Conclusions: We demonstrated a noninvasive method for identifying early vertebral marrow damage based on radiation-induced fatty marrow replacement. The proposed method can be potentially used to quantify the quality of CSI vertebral sparing and preserve metabolically active hematopoietic bone marrow.
BACKGROUND: Proton therapy may reduce cognitive deficits after radiotherapy among brain tumor survivors, although current data are limited to retrospective comparisons between historical cohorts. The authors compared intelligence quotient scores within a case-matched cohort of children with medulloblastoma treated with proton radiation (PRT) or photon radiation (XRT) over the same time period. METHODS: Among 88 consecutive patients with standard-risk medulloblastoma treated with PRT or XRT at 2 institutions from 2000 to 2009, 50 were matched 1:1 (25 with PRT and 25 with XRT) according to age, gender, date of diagnosis, histology, radiation boost, and craniospinal irradiation dose. One-way analyses of variance were performed to compare the Full-Scale Intelligence Quotient (FSIQ) and associated index scores between the 2 cohorts. RESULTS: Neurocognitive data were available for 37 survivors (17 with PRT and 20 with XRT) from the matched cohort. The mean age was 8.5 years (SD, 4.14 years). The median follow-up was 5.3 years (range, 1.0-11.4 years) and 4.6 years (range, 1.1-11.2 years) for the PRT and XRT cohorts, respectively (P =.193). Patients treated with PRT had significantly higher mean FSIQ (99.6 vs 86.2; P =.021), verbal (105.2 vs 88.6; P =.010), and nonverbal scores (103.1 vs 88.9; P =.011) than the XRT-treated cohort. Differences in processing speed (82.9 vs 77.2; P =.331) and working memory (97.0 vs 92.7; P =.388) were not statistically significant. CONCLUSIONS: Radiotherapy-associated cognitive effects appear to be more attenuated after proton therapy. Comprehensive prospective studies are needed to appropriately evaluate the neurocognitive advantages of proton therapy.