Invasive fungal infections (IFI) with substantial mortality constitute an increasing problem among BMT patients. From 1986 to 1996 148 children underwent BMT, and are included in a retrospective analysis of the incidence, risk factors and outcome of IFI. By histopathology or culture-proven IFI (Candida, 10; Aspergillus, 8) was documented in 12/73 (16%) allogeneic and in 6/75 (8%) autologous BMT patients. Of these 18 patients, 15 subsequently died, and in 12 (66%) IFI was regarded as the main cause of death. In addition to the patients with documented IFI, 48 had suspected and 82 no fungal infection. Invasive candidal infections were more frequent in patients with semiquantitatively estimated abundant candidal colonization as compared with those with no colonization (18% vs 3%, P = 0.015). In the allogeneic group, 50% of those with severe (grades III-IV) aGVHD had IFI as opposed to 8% of those with no or mild aGVHD (P < 0.001). Regarding cGVHD, 57% of those with extensive cGVHD vs 5% of those with absent or limited cGVHD had IFI (P < 0.001). The dose of steroids was associated with IFI: 77% of those who received high-dose steroids (methylprednisolone 0.25-1 g/day for 5 days) vs 5% of those with conventional-dose (prednisone 2 mg/kg/day) had IFI (P < 0.001). Particularly for BMT patients at risk, new, quicker and better diagnostic tests and more effective anti-fungal agents, both for prophylaxis and treatment, are needed.
Summary:Chemo-and radiotherapy may have injurious effects on developing teeth. In this long-term follow-up study among poor-risk neuroblastoma (NBL) survivors our aims were: (1) to assess both the type and extent of the side-effects of the anticancer treatment on tooth development; and (2) to develop an index for expressing total damage to the permanent dentition. We studied the dental development from panoramic radiographs (PRG) of 18 long-term survivors treated under the age of 6 years with high-dose (HD) chemotherapy and autologous stem cell transplantation (ASCT) for poor-risk NBL. The myeloablative therapy was either HD chemotherapy and fractionated total body irradiation (TBI) of 10-12 Gy (TBI group, n = 10) or HD chemotherapy only (non-TBI group, n = 8). A defect index (DeI) was developed to describe the damage to the permanent dentition. The DeI was also tested in 18 healthy adolescents. All NBL patients had disturbances in dental development including short roots, arrested root development, microdontia and tooth aplasia. After TBI, 9/10 patients had very severe root defects, in contrast to none in the non-TBI group. All children in the TBI group had 2-12 (mean 6.6) missing permanent teeth, while 2/5 in the non-TBI group (3/8 excluded due to young age) had two and four missing permanent teeth, respectively. Microdontia was found at equal frequency in both groups. The mean value of the DeI was 70.0 (range 28-117) in the TBI group, 15.2 (range 4-34) in the non-TBI group (P Ͻ 0.001, Mann-Whitney U test) and 1.8 (range 0-15) in healthy adolescents. Disturbances in dental development may compromise occlusal function in poor-risk NBL patients after ASCT, especially when TBI is included in the conditioning regimen. Long-term dental follow-up and rehabilitation is required.
SUMMARYDendritic cells (DC) are a heterogeneous group of uniquely well-equipped bone marrow-derived antigen-presenting cells. They circulate in blood as precursor cells (preDC). In humans, two blood-borne subtypes of preDC can be distinguished by their differential expression of CD11c (CD11c + preDC; monocytoid DC) and CD123 (CD123 + preDC; plasmacytoid DC). We studied the incidence of monocytoid and plasmacytoid DC in peripheral blood samples from 39 children of various ages (0·4-16·8 years) by flow cytometry, and found a significant negative correlation between the number of plasmacytoid DC and age ( r = 0·421, P = 0·012). Monocytoid DC counts did not change significantly with age. Similarly, we analysed DC subsets in 19 children with cancer at the time of diagnosis prior to initiation of any myelosuppressive or antiproliferative treatment and compared the results with those obtained from gender-and age-matched control children. Patients with cancer had significantly less circulating monocytoid DC than controls (medians 13·2 versus 21·4 cells/ m l, respectively, P = 0·042) at diagnosis, whereas absolute plasmacytoid DC counts did not differ significantly between the study groups. However, clinical outcome of the children with cancer (2·9-5 years follow-up after diagnosis) correlated with plasmacytoid DC count. Children with high plasmacytoid DC counts at diagnosis (above median) survived significantly worse (6/10 deceased) than those with low counts (1/9 deceased) ( P = 0·034). Thus, circulating plasmacytoid DC counts are related to age during childhood, and development of cancer is associated with low number of monocytoid DC. A low circulating plasmacytoid DC count at diagnosis was a good prognostic sign.
Summary:Impaired growth after TBI prior to BMT has been a constant finding in children with leukemia. The growth of poor-risk neuroblastoma (NBL) survivors treated with myeloablative preparative regimens and ABMT at the Hospital for Children and Adolescents, University of Helsinki, since 1982 is reported. Two separate groups were analyzed: (1) The TBI − patients (n = 15) were conditioned with high-dose chemotherapy only. They had been treated at the age of 1.0-6.3 (mean 3.0) years and the post-ABMT follow-up time was 1.5-14.5 (mean 7.7) years. (2) The TBI + patients (n = 16) had received TBI in addition to high-dose chemotherapy. They had been treated at the age of 1.3-4.8 (mean 3.0) years, and the post-ABMT follow-up time was 1.5-8.0 (mean 4.7) years. The height standard deviation score (SDS) was similar for the two groups at the time of diagnosis, −0.3 ± 1.2 (mean ± s.d.), and at the time of ABMT, −0.7 ± 1.1. After transplantation, the height SDS continued to decrease in the TBI + group, the mean being −2.0 SDS at 5 years after ABMT. In the TBI − group, the mean height SDS remained within −0.7 to −0.9 to the 10 years of follow-up. Five patients received growth hormone (GH) therapy starting 2-6 years after ABMT. They all had low GH secretion in provocative tests. All showed some response to GH therapy. The mean height SDS increased 0.4 SDS during the 3 years following the start of GH therapy, while in the untreated patients a decrease of 0.8 SDS during the corresponding time (P = 0.009) was observed. We conclude that NBL patients grow poorly following ABMT when TBI is included in the conditioning regimen, but close to normally when treated without TBI. The need for GH therapy should be evaluated early to avoid an unnecessary decrease in final height.
Viral infections and graft‐versus‐host disease (GVHD) render an impact on both the clinical and immunological recovery following allogeneic hematopoietic stem cell transplantation (HSCT). We studied the recuperation of the immune defence after transplant in the paediatric setting and assessed the impact of early (<100 days post‐HSCT) viral [cytomegalovirus (CMV), Ebstein‐Barr virus (EBV) and adenovirus] reactivations/infections and GVHD. Fifty‐one paediatric recipients of HSCT were enrolled. T cell recovery was evaluated on lymphocyte subpopulations using flow cytometry and functionally by measuring T cell excision circles (TRECs) and through the analysis of T lymphocyte responses to mitogens. B cell recovery was studied by flow cytometry and functionally by ELISPOT. Acute and mild chronic GVHD allowed for a brisk recovery of both cellular and humoral immunity while moderate to severe chronic graft‐versus‐host disease (cGVHD) associated with a significant, tampering effect on the immunological recovery after transplant. In the former group, the early viral reactivations/infections seemingly linked with a delayed recovery of T lymphocytes and low TRECs values. Moderate to severe cGVHD appears to associate with an impaired immunological recovery after HSCT. Early viral infections linked with prolonged T cell immunodeficiency and thymic dysfunction may be indicative of the presence of subclinical GVHD.
Summary:We examined the recovery of circulating monocytoid (Lin À CD11 þ HLA À DR þ ) and plasmacytoid (Lin À CD123 þ HLA À DR þ ) precursor (pre) dendritic cell (DC) subsets after allogeneic stem cell transplantation (SCT) in 39 children, using age-matched healthy children as controls. The frequencies of DCs in peripheral blood samples were determined by flow cytometry. The initial recovery of DC occurred simultaneously with myeloid engraftment. However, with time, DC subset values declined, being very low 40-50 days after SCT. Low monocytoid and plasmacytoid DC values were associated significantly with the development of severe acute graft-versus-host disease (aGVHD) (P ¼ 0.042 and 0.017, respectively). Plasmacytoid DC values were lower than in the age-matched controls for the entire follow-up period (range 102-2569 days), although, with time, values approached normal levels. Normal monocytoid DC numbers were observed within 300-400 days post SCT. The severity of chronic GVHD did not correlate with quantitative recovery of DC. We conclude that in pediatric SCT, initial recovery of DC production is concurrent with that of myelopoiesis, yet with time, DC subset values decline and low counts are associated with severe aGVHD. Monocytoid DC numbers approach normal levels within a year of SCT, but plasmacytoid DC counts recover very slowly.
Delayed and/or insufficient T cell recovery post hematopoietic stem cell transplantation (HSCT) leads to an increased risk of morbidity and mortality. We evaluated thymic function and its association with T cell regeneration post HSCT and identified factors involved in the process among pediatric stem cell transplant recipients. T cell regeneration in 66 pediatric patients was prospectively followed by naive T cell phenotyping, measuring of T cell receptor excision circles (TRECs) and expression of Foxp3 by regulatory T cells for the first 18 months post HSCT. TRECs were lower pre-HSCT in children with a malignant than non-malignant primary disease or immunosuppressed controls (P ¼ 0.001). Naive T lymphocyte reconstitution and thymic recovery were slow in the recipients of allogeneic stem cell grafts post HSCT. Infections caused by herpesviruses had a prognostic impact on mortality. Children with low TRECs had a high mortality (P ¼ 0.05) and low TRECs were also associated with extensive chronic graft-versus-host disease from 6 months onwards. Low amount of Foxp3 pre-HSCT was associated with an increased mortality post HSCT (P ¼ 0.03). Our study indicates an association between impaired T cell regeneration and thymic dysfunction and the clinical post transplant complications in pediatric allogeneic stem cell transplantation.
Seventy pediatric patients with cancer treated at the Hospital for Children and Adolescents, University of Helsinki, Finland, died while in terminal care and 30 children of therapy-related complications during active anticancer therapy in the period 1987-92. The purpose of this study was to compare these groups and characterize the main problems of the families during the mourning process. The method of evaluation was a structured interview of every parent separately. Parents of 60/70 children after terminal care, and parents of 26/30 children who died during active anticancer therapy, were interviewed. Unexpectedly, differences were minimal between families who lost a child after terminal care and those whose child died during active anticancer therapy. Parents reported physical and/or mental problems with similar frequency (39% and 34%); average self-reported recovery times were similar (14 and 16 mo); return to work was similar in both groups, 70% returning doing so within 1 mo. However, pronounced differences were observed between the mothers and the fathers; the mothers requiring longer recovery times and returning to work later. Of the siblings, 18% in the terminal care group had problems compared with 32% in the active therapy group. These included fear, behavioral problems, problems with friends and school-related problems. In conclusion, when a child with cancer dies, the ability of the respective families to cope does not seem to differ whether the child dies after terminal care or during active anticancer therapy. The inevitable loss of the child is the major event. Most parents and siblings have the potential and ability to recover normally after the death of a child, although they will never be completely the same.
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