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NCT01247597
Background: \- Pleuropulmonary blastoma (PPB) is a rare fast-growing lung tumor that is associated with other, rare tumor types. Most cases of PPB appear in children younger than 6 years of age. Recently, it has been shown that this condition can be inherited (e.g., mutation of the DICER1 gene). Researchers are studying both clinical and genetic aspects of this newly described condition. They are interested in collecting further medical history and genetic information on individuals and close relatives of individuals who have PPB or other rare associated tumors. Objectives: \- To study individuals with a personal or a family history of pleuropulmonary blastoma (PPB) or other rare tumors that can be associated with PPB (e.g., cystic nephroma, nasal chondromesenchymal hamartoma, ovarian Sertoli-Leydig cell tumors, ocular medulloepithelioma). Eligibility: * Individuals who have been diagnosed with PPB and/or PPB-related tumors. * Close blood relatives (e.g., parents, siblings, grandparents) of individuals who have been diagnosed with PPB and/or PPB-related tumors. Design: * Interested participants can enroll or inquire about this study by calling 1-800-518-8474. * Participants will be asked to complete family history and medical history questionnaires. They will complete the questionnaire if they are at least 18 years of age, or another person will complete the questionnaire if the key family member is too young to do so on his or her own. * Participants will be asked to sign a medical record release form to allow researchers to examine detailed medical history information. * Participants may be asked to have a physical examination and imaging studies, provide blood and saliva samples, or provide tumor tissue from prior biopsies or cancer surgeries. * Annually, participants will update the family history and individual information questionnaires to document important changes in medical history, and will also update the medical record release form. Participants may be asked to provide additional cheek lining cells and/or blood samples, as well as tumor tissue from any new or planned biopsies or tumor surgeries. * Treatment will not be provided as part of this protocol.
NCT06647953
This phase III trial tests how well surgery plus chemotherapy compared to surgery alone works in treating patients with type I pleuropulmonary blastoma (PPB), and tests how well surgery plus standard chemotherapy with the addition of topotecan works compared to surgery plus standard chemotherapy alone in treating patients with type II and III PPB. Historically, most children with type I PPB had surgery and approximately 40% of children with type I PPB received chemotherapy following their surgery, usually for 22-42 weeks. There has not been a consistent standard for which children with type I PPB receive chemotherapy after surgery. For patients whose tumor has been removed completely with surgery, observation without chemotherapy may work as well as giving chemotherapy after surgery in preventing a return of the PPB tumor. The standard chemotherapy for patients with types II or III PPB in the United States is four cycles of IVADo (ifosfamide, vincristine, dactinomycin, and doxorubicin) followed by 8 cycles of IVA (ifosfamide, vincristine and dactinomycin). Ifosfamide is in a class of medications called alkylating agents. It works by slowing or stopping the growth of tumor cells in the body. Vincristine is in a class of medications called vinca alkaloids. It works by stopping tumor cells from growing and dividing and may kill them. Dactinomycin is a type of antibiotic that is only used in cancer chemotherapy (antineoplastic antibiotic). It works by damaging the cell's deoxyribonucleic acid (DNA) and may kill tumor cells. Doxorubicin is in a class of medications called anthracyclines. Doxorubicin damages the cell's DNA and may kill tumor cells. It also blocks a certain enzyme needed for cell division and DNA repair. Topotecan is in a class of medications called topoisomerase I inhibitors. It works by interfering with tumor cell DNA which kills them. Giving topotecan in addition to standard IVADo and IVA chemotherapy regimens may shrink the cancer as well as or better than the standard therapy or could decrease the chance the tumor spreads while causing fewer side effects.
NCT07072143
The PARTNER study is an international, prospective, observational study of paediatric patients with very rare tumours.
NCT03382158
Pleuropulmonary blastoma (PPB) is a rare malignant neoplasm of the lung presenting in early childhood. Type I PPB is a purely cystic lesion, Type II is a partially cystic, partially solid tumor, Type III is a completely solid tumor. Treatment of children with PPB is at the discretion of the treating institution. This study builds off of the 2009 study and will also seek to enroll individuals with DICER1-associated conditions, some of whom may present only with the DICER1 gene mutation, which will help the Registry understand how these tumors and conditions develop, their clinical course and the most effective treatments.
NCT01464606
Pleuropulmonary Blastoma (PPB) is very rare and there is no established "standard" or "best" therapy. For many years, children with PPB around the world have been treated according to decisions made case-by-case in many different hospitals by many different physicians. No treatment has been tested in a large group of PPB patients. The goal is to treat many children with one treatment program and to learn the results of the treatment.
NCT03044834
Pleuropulmonary blastoma is a rare embryonic malignant tumour that remains the most frequent malignant tumour of the lung in childhood. The International Pleuro pulmonary Blastoma Registry (IPPB) found only 220 cases in 2009 and 350 in 2015. In France, 20 cases were identified in 2009. Three histologies are described: type 1 purely cystic, type 2 combined and type 3 solid. Median age at diagnostic is 12 months, 35 months and 41 months respectively. Evolution is possible from type 1 to type 2 or 3 in 10% of the cases. Since 2009, DICER 1 mutations research is proposed systematically to all families. PPB symptoms are usually non-specific. Diagnostic is evoked when imaging work up shows bubbles or solid lesions, and confirmed by pathological analysis. However the diagnosis can be difficult because of the proximity with congenital cystic adenomatoid malformation. The French society of paediatric oncology recommends surgery at first instance. PPB type 1 remains a problem because some are still misdiagnosed as CCAM, a benign lesion. Chemotherapy depends on the PPB type and the quality of the resection. There is a real interest to analyse the French series. The prognosis of type 2 and 3 is low with a 5 years survival rate of 45-60%, whereas type 1 survival rate is 91%. The French experience reports a 100% survival rate in type 1 and 48% in type 2 and 3. Other prognostic factors are initial size of the tumour, extra pulmonary invasion and quality of surgery. Early local relapses are possible and late ones concern more often type 2 and 3 with more cerebral metastasis. In 2009, the french cases were collected, but no update has been performed since. The aim of this retrospective review of the cases since 2000, is to audit the care of PPB patients in France and update the French rare tumour database. Evoking PPB diagnosis is difficult when imaging shows a neonatal cystic lesion. There are no radiologic criteria in the literature that differentiate congenital pulmonary cystic lesion and PPB type 1. Radiological presentation is however overlapping. Another aim of this study will be to look for a predictive sign of type 1 PPB.
NCT03044769
Congenital lung anomalies include different pathologies such as congenital cystic adenomatoid malformation, pulmonary sequestration, bronchial atresia, emphysema, bronchogenic cyst. They concern less than 1/10000 births and their physiopathological origin is still poorly understood. The main goal of this project is to pool the cases from different swiss centers on a prospective cohort study, first to increase knowledge of clinical and radiological evolution and their correlation with histological data, and second to analyse the pathological embryological mechanism underlying these malformations.