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Query: UMLS:C0700208 (
scoliosis
)
8,574
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
One hundred forty-three patients who received radiation therapy for childhood tumors, and survived to the age of skeletal maturity, were studied by retrospective review of oncology records and roentgenograms. Diagnoses for the patients were the following: Hodgkin's lymphoma (44), Wilms's tumor (30), acute lymphocytic leukemia (26), non-Hodgkin's lymphoma (18), Ewing's sarcoma (nine),
rhabdomyosarcoma
(six), neuroblastoma (six), and others (four). Age at the follow-up examination averaged 18 years (range, 14-28 years). Average length of follow-up study was 9.9 years (range, two to 18 years). Asymmetry of the chest and ribs was seen in 51 (36%) of these children. Fifty (35%) had
scoliosis
; 14 had kyphosis. In two children, the
scoliosis
was treated with a brace, while one developed significant kyphosing
scoliosis
after laminectomy and had spinal fusion. Twenty-three (16%) patients complained of significant pain at the radiation sites. Twelve of the patients developed leg-length inequality; eight of those were symptomatic. Three patients developed second primary tumors. Currently, the incidence of significant skeletal sequelae is lower and the manifestations are less severe than reported in the years from 1940 to 1970. The reduction in skeletal complications may be attributed to shielding of growth centers, symmetric field selection, decreased total radiation doses, and sequence changes in chemotherapy.
...
PMID:Skeletal sequelae of radiation therapy for malignant childhood tumors. 213 23
As part of two sequential protocols using intensive combined modality treatment in pediatric and adolescent sarcomas, 31 consecutive patients with primary chest wall tumors were treated between November 1977 and March 1986. This group included 13 patients with peripheral neuroepithelioma (Askin's tumor), 11 patients with Ewing's sarcoma, 3 patients with
rhabdomyosarcoma
, and 4 patients with undifferentiated sarcomas. Following complete work-up, 17 patients presented with localized disease and 14 patients presented with metastases. Patients received intensive combined modality treatment with combination chemotherapy (vincristine, cyclophosphamide, Adriamycin, +/- actinomycin-D and DTIC) and high-dose conventionally fractionated radiation therapy to the primary (55-60 Gy) and non-pulmonary metastases (45-50 Gy). Radiation techniques used for the primary chest wall tumor varied with the clinical presentation. Patients achieving a complete response received either low-dose fractionated TBI (1.5 Gy/0.15 Gy fx/5 weeks) or high-dose TBI (8 Gy/4 Gy fx/2 days) and an intensive cycle of chemotherapy followed by autologous bone marrow transplantation. Twenty-five of 31 patients were judged to have a complete response (including 1 patient with complete resection). With minimum follow-up of 6 months and median follow-up of 36 months from completion of treatment, 14 patients remain disease-free with 2 additional patients alive in second remission after relapse. Patients with localized disease at presentation have improved disease-free survival and overall survival compared to patients with metastases at presentation. All 17 localized patients achieved a CR and 11 are NED compared to 8 of 14 metastatic patients achieving a CR and only 3 are NED. There have been 5 loco-regional recurrences with 3 "in-field" failures and 2 failures in the regional pleura. There were no treatment-related deaths and no clinically significant cases of pneumonitis. To date, 2 patients have significant treatment related morbidity, including 1 patient with
scoliosis
requiring surgery and 1 patient with acute leukemia developing 42 months after the start of therapy (presently in remission). We conclude that this intensive combined modality therapy results in a high CR rate and good local control with acceptable morbidity. Patients with metastatic disease at presentation remain a therapeutic challenge.
...
PMID:Treatment of sarcomas of the chest wall using intensive combined modality therapy. 264 97
This report evaluates the efficacy of extensive chest wall resection and prosthetic reconstruction in 15 children with chest wall malignancies. There were nine boys and six girls, with a mean age of 9.6 years. Eleven patients had primary chest wall tumors including Ewing's sarcoma (ES), six;
rhabdomyosarcoma
(RH), two; chondrosarcoma (CS), one; Askin's malignant neuroectodermal tumor, one; and mesenchymal sarcoma, one. Four children had metastases to chest wall and lung from Wilms' tumor (WT), two; osteogenic sarcoma (OS), one; and neuroblastoma (NB), one. Chest wall resection of two to six ribs and reconstruction with Marlex mesh (seven), lattisimus flap (two), prolene mesh (one), and more recently, a Gortex patch (five), was performed. Eight of the patients required concomitant en-bloc pulmonary resection (wedge, five; lobectomy, two; pneumonectomy, one) and two required resection of diaphragm. Fourteen received adjunctive therapy (chemotherapy, 14; irradiation, eight [preoperative, five; postoperative, three]. Six patients had second-look resections after chemotherapy. There was no operative mortality. Early pulmonary function was normal; however, pulmonary restrictive disease and
scoliosis
occurred with growth. One ES patient developed a radiation-induced second malignant tumor at age 10 and one ES child died at age 6 (no evidence of disease) of meningitis. Average survival length for ES patients was 77 months (range, 18 to 132 months.) Currently, eight patients are alive and five are free of disease. Extensive chest wall resection and reconstruction is useful in the treatment of primary chest wall tumors, but is palliative in metastatic cases. The Gortex patch is the current prosthetic of choice.
...
PMID:Chest wall resection and reconstruction for malignant conditions in childhood. 320 68
We investigated the long-term pulmonary sequelae of 38 children surviving 3 to 11.5 years (median 7 years) after high-dose chemotherapy (HDC) and autologous bone marrow transplantation (ABMT) without TBI. This cross-sectional study included patients with neuroblastoma (21), non-Hodgkin's lymphoma (7), Ewing's sarcoma (5),
rhabdomyosarcoma
(3), medulloblastoma (1) and ALL (1). They were asked and examined for clinical signs and underwent a physical examination with chest X-ray; 33/38 had pulmonary function tests (PFT) performed. No obstructive disease was found. Fifteen out of 32 evaluable PFT (47%) were abnormal with a pulmonary restrictive syndrome in 10, and borderline values in five patients. Four of these 15 patients were symptomatic with exertional dyspnea and two of four had abnormal chest X-rays. The etiology was mainly multifactorial, associating HDC with thoracic radiotherapy +/-
scoliosis
/kyphosis +/- previous thoracotomy +/- post-ABMT interstitial pneumonitis. Only 3/10 patients with a restrictive syndrome had HDC containing BCNU or busulfan as the only risk factor for lung disease. We conclude that the prevalence of late pulmonary sequelae after ABMT without TBI is moderate and rarely due to HDC alone, since most abnormal PFT can be explained by heavy pretreatment prior to ABMT. As symptoms are scarce even in advanced disease, repeated testing and very long-term follow-up are needed.
...
PMID:Long-term pulmonary sequelae after autologous bone marrow transplantation in children without total body irradiation. 875 Feb 68
Leukemia, aplastic anemia, sickle cell anemia, hemophilia, lymphoma, neuroblastoma,
rhabdomyosarcoma
, renal failure, cystic fibrosis,
scoliosis
, diabetes, and asthma. These are only a few of the many chronic diseases or handicapping conditions confronting children today. Little attention has been paid to children's emotional reactions to illness and hospitalization, important facets of the healing process. In the first part of this paper, children's characteristic emotional reactions to hospitalization are discussed within a developmental framework. Next, some of the emotional reactions elicited in hospital staff and parents by seriously ill children are discussed. It is hoped that an elucidation of the types of feelings hospitalized children experience, and the kinds of emotional responses they elicit in adult caretakers, can lead to more sensitive and effective child care-giving in hospital settings.
...
PMID:Coping with feelings: seriously ill children, their families, and hospital staff. 1026 27
Chest wall tumors (CWT) are rarely seen in childhood and surgery constitutes a complementary part of the therapy. The early and late results of CWT resection and chest wall reconstruction were evaluated retrospectively. The children who underwent chest wall resection for CWT between January 1990 and November 2003 were evaluated retrospectively. Seventeen children (male/female = 12/5, mean age: 7.58 years) underwent chest wall resection for CWT. Fifteen patients underwent initial biopsy (tru-cut, n = 8 or open biopsy, n = 7) and two underwent initial resection. The diagnosis was malignant tumor in 12 (70%) and benign in 5 (30%). They were Ewing's sarcoma (ES) (n = 4), primitive neuroectodermal tumor (PNET) (n = 3), Askin's tumor (n = 1),
rhabdomyosarcoma
(RMS) (n = 2), neuroblastoma (n = 2), osteochondroma (n = 1), aneurysmal bone cyst (n = 2) and hamartoma (n = 2). Preoperative chemotherapy was given to most patients with malignant tumor. All patients had only local tumor at the time of resection. Thoracotomy was performed in all patients. All tumor tissues with the affected rib/ribs were resected en bloc with the adjacent tissues. The number of resected ribs was 1 (n = 6), 2 (n = 7) and 3 (n = 4). Chest wall defects were repaired primarily (n = 8) or with grafts (n = 9). Dura (n = 4), Neuro-patch (n = 3) and Goretex (n = 2) were used for closure. Wound infection and pleural fistula occurred in one patient. Patients with benign tumor were free of complaints or complications during follow up. All patients with malignant tumor received postoperative chemotherapy. Local recurrence did not occur in all patients. Five patients developed distant metastasis and two died.
Scoliosis
was encountered in one patient during follow-up. Since most of the CWT are malignant and not initially suitable for surgical excision, the management includes tissue diagnosis either by tru-cut or open biopsy. Determination of malignant condition should be followed by an intensive chemotherapy. Chest wall resection is planned to control local disease. Chest wall reconstruction may be needed for large defects following resection of CWT. Prosthetic materials can be used safely. Early complications of the surgery are limited. The patients should be closely followed up for late complications such as
scoliosis
, restrictive pulmonary disease and for the development of metastasis, which is a part of natural course of malignant CWT in children.
...
PMID:The results of surgical treatment of chest wall tumors in childhood. 1632 38
