Hideki Nakayama

and 8 more

Purpose: The study aimed to determine the body composition of Japanese adult survivors with childhood cancer. Methods: Between August 2018 and September 2019, we recruited adults aged ≥18 years who had childhood leukemia/lymphoma. Blood sampling, body composition measurement by bioelectrical impedance analysis (BIA), grip strength test, nutrition consultation, and screen viewing time survey were conducted. Results: We analyzed the data of 81 survivors with a median age of 25 years. The disease profile comprised 51 cases of acute lymphocytic leukemia, 20 acute myelocytic leukemias, and 10 lymphomas; 34 patients had undergone hematopoietic stem cell transplantation (HSCT). The average body mass index (BMI) was 21 kg/m2. Of the patients, 10 (12%) were obese and 18 (22%) were lean. Three patients had metabolic syndromes (MS) and 9 had sarcopenia. There was no significant difference in the frequency of obesity, sarcopenia, and MS in each disease; however, sarcopenia was significantly higher in the transplant group. Further, 30% of obese patients had MS, and 33% of lean patients had sarcopenia. Discussion: Leanness and sarcopenia are common in HSCT survivors, and the possible involvement of transplant-related complications is accordingly suspected. The effects of lifestyle cannot be ruled out, and more cases must be analyzed to examine risk factors. Conclusion: Some young adult survivors with childhood leukemia/lymphoma may have metabolic syndrome (MS) or sarcopenia. Assessments of body composition by BIA for childhood cancer survivors could benefit to detect MS or sarcopenia in their young adulthood.

Yuko Noda

and 4 more

Cytotoxic agents are the major part of current therapeutic arsenal in pediatric oncology. Recently, small molecules have been combined in the standard regimen for targeted cancer therapy. Both drugs provoke adverse effects on the living cells via the specific and non-specific actions to neoplastic cells. Considering genetic and epigenetic events, the late effect rather than acute toxicity is a matter of concern for healthy subjects at risk of exposure to anticancer drugs. To reduce the risk, a list of hazardous drugs (HDs) has been updated by the National Institute for Occupational Safety and Health (NIOSH) including commonly used cytotoxic agents. HDs are defined by their association with genotoxicity, carcinogenicity, teratogenicity, impaired fertility, reproductive toxicity, and/or serious organ toxicity even at a lower dose.1 The American Society of Clinical Oncology (ASCO) standard promotes the safety of professional staff of pharmacists, physicians, nurses, and other collaborators in oncology care.2 It recommends the preventive measures to avoid the toxic products, incorporating the latest evidence of the deleterious late effects after exposure, and the benefits of control measures, along with expert consensus. United States Pharmacopeia Chapter <800> requires an appropriate list of HDs in healthcare settings, providing concrete information regarding the articles of personal protective equipment, as well as where and how they should be donned, used, and removed is prescribed.3Several guidelines for the occupational exposure to HDs have been established for the health of hospital workers,1-5 but not the family members of childhood cancer. We thus investigated the exposure of caregiver and medical staff to anticancer drugs and the environmental contamination. Fifteen inpatients with pediatric cancer were recruited who received high-dose cyclophosphamide (CPM) from 2017 to 2018. Seven infants and 8 adolescents had 4 leukemias and 11 solid tumors. The median age at the time of this study was 78 months ranging from 13 to 200 months. The infants and adolescents received CPM of 1g /m2 or more; median 640 (range 620~1300) mg, and 1230 (range 780~1230) mg, respectively. Six hours after the first administration, the concentration of CPM was measured in the urine and saliva from attending mothers, nurses, doctors, nursery teachers, child-life specialists, and housekeeping staff members in the ward, using the liquid chromatography/mass spectrometry method (Shionogi Analysis Centre Co., Ltd., Osaka, Japan)6. Safe handling and closed-system-drug-transfer devices (JMS Co. Ltd., Hiroshima, Japan) are the standard of our center to minimize the technical exposure.7 This study was approved by the institutional review board of Kyushu University. Five of 7 (71%) infant’s and 2 of 8 (25%) adolescent’s mothers showed increased urine levels of CPM. The median value of infant’s mothers (192 ng/10 mL, range 0~1,510) was significantly higher than that of adolescent’s mothers (0 ng/10 mL, 0~58.4) (p =0.005). CPM was detected in the saliva samples of two mothers caring infants, but not in the urine or saliva of any medical staff (Figure ). The environmental contamination in a room of the infant whose mother showed the highest concentrations was assessed by the modified method.6 High levels of CPM were determined in the monitoring samples from a 17-year-old boy; toilet floor (1020 times of the detection limit), toilet seat (167 times), wash basin (45.6 times), a 13-year-boy; underwear (735 times) bed sheets (224 times), bed fence (34.8 times), bedside floor (20.9 times), exhaust vent (13.1 times), bedside table (7.4 times), door knob (4.9 times), curtain (4.7 times), and a 2-year-boy; bathing hot water (205 times) at 24 hours after the first administration, respectively. No staff having detectable CPM levels represented the control of HDs exposure in our hospital. In contrast, the exposure was frequently found in attending mothers caring infants. The higher levels of CPM in infants’ mothers than in adolescents’ mothers are explained by the closer contact for care. The environmental contamination has occurred from the body fluid of patients but not the drug delivery.The latest systems and guidelines have effectively controlled the accidental exposures of drugs to medical staff, as shown in the present results, throughout the process from the formulation in the pharmacy department, transportation, and administration to bed-side patients. The mother’s exposure is categorized as an intermediate risk. It may occur in case of high-dose therapy with limited duration. However, the metabolites of CPM including 4-hydroxycyclophosphamide show cytotoxicity.9 The mixture of selected cytostatic drugs has an augmented cytotoxicity leading to the late effects on genome even at low concentrations.10 During the long-term intense chemotherapy for pediatric cancer, the preliminary results may raise the need for preventive measures for caregivers according to the equivalent levels to medical staffs.