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Home > Living Well > Health Library > Childhood Multiple Endocrine Neoplasia (MEN) Syndromes Treatment (PDQ®): Treatment - Health Professional Information [NCI]
This information is produced and provided by the National Cancer Institute (NCI). The information in this topic may have changed since it was written. For the most current information, contact the National Cancer Institute via the Internet web site at http://cancer.gov or call 1-800-4-CANCER.
MEN syndromes are familial disorders characterized by neoplastic changes that affect multiple endocrine organs. Changes may include hyperplasia, benign adenomas, and carcinomas.
There are two main types of MEN syndrome:
(Refer to the PDQ summary on Genetics of Endocrine and Neuroendocrine Neoplasias for more information about MEN syndromes.)
The most salient clinical and genetic alterations of the multiple endocrine neoplasia (MEN) syndromes are shown in Table 1.
A study documented the initial symptoms of MEN1 syndrome occurring before age 21 years in 160 patients. Of note, most patients had familial MEN1 syndrome and were followed up using an international screening protocol.
Germline mutations of the MEN1 gene located on chromosome 11q13 are found in 70% to 90% of patients; however, this gene has also been shown to be frequently inactivated in sporadic tumors. Mutation testing is combined with clinical screening for patients and family members with proven at-risk MEN1 syndrome.
Clinical practice guidelines recommend that screening for patients with MEN1 syndrome begin by the age of 5 years and continue for life. The number of tests or biochemical screening is age specific and may include yearly serum calcium, parathyroid hormone, gastrin, glucagon, secretin, proinsulin, chromogranin A, prolactin, and IGF-1. Radiologic screening should include a magnetic resonance imaging of the brain and computed tomography of the abdomen every 1 to 3 years.[6,7,8]
A germline activating mutation in the RET oncogene (a receptor tyrosine kinase) on chromosome 10q11.2 is responsible for the uncontrolled growth of cells in medullary thyroid carcinoma associated with MEN2A and MEN2B syndromes.[9,10,11]Table 2 describes the clinical features of MEN2A and MEN2B syndromes.
The most-recent literature suggests that this entity should not be identified as a form of hereditary medullary thyroid carcinoma that is separate from MEN2A and MEN2B. Familial medullary thyroid carcinoma should be recognized as a variant of MEN2A, to include families with only medullary thyroid cancer who meet the original criteria for familial disease. The original criteria includes families of at least two generations with at least two, but less than ten, patients with RET germline mutations; small families in which two or fewer members in a single generation have germline RET mutations; and single individuals with a RET germline mutation.[13,14]
A pentagastrin stimulation test can be used to detect the presence of medullary thyroid carcinoma in these patients, although management of patients is driven primarily by the results of genetic analysis for RET mutations.[14,17]
A retrospective analysis identified 167 children with RET mutations who underwent prophylactic thyroidectomy; this group included 109 patients without a concomitant central node dissection and 58 patients with a concomitant central node dissection. Children were classified into risk groups by their specific type of RET mutation (refer to Table in the PDQ summary on Childhood Thyroid Cancer Treatment for more information).
Guidelines for genetic testing of suspected patients with MEN2 syndrome and the correlations between the type of mutation and the risk levels of aggressiveness of medullary thyroid cancer have been published.[14,19]
Treatment options for childhood MEN syndromes, according to type, are as follows:
The standard approach to patients who present with hyperparathyroidism and MEN1 syndrome is genetic testing and treatment with a cervical resection of at least three parathyroid glands and transcervical thymectomy. (Refer to the Interventions section in the PDQ summary on Genetics of Endocrine and Neuroendocrine Neoplasias for more information.)
Relatives of patients with MEN2A undergo genetic testing in early childhood, before the age of 5 years. Carriers undergo total thyroidectomy as described above, with autotransplantation of one parathyroid gland by a certain age.[12,13,14,15]
A review of 38 patients with genetically confirmed MEN2B at the National Institutes of Health identified eight patients who developed pheochromocytoma in the course of follow-up. Pheochromocytoma was diagnosed at a mean age of 15.2 years (±4.6 years; range, 10–25 years) and at a mean period of 4 years (±3.3 years) after MEN2B diagnosis. Only one patient was diagnosed with pheochromocytoma as the initial manifestation of MEN2B after she presented with hypertension and secondary amenorrhea. The youngest patient diagnosed with pheochromocytoma in this cohort was an asymptomatic child aged 10 years. The authors of this study believe that the current guidelines to begin screening for pheochromocytoma at age 11 years seem appropriate.
Complete removal of the thyroid gland is the recommended procedure for surgical management of medullary thyroid cancer in children because there is a high incidence of bilateral disease.
Hirschsprung disease has been associated with, in a small percentage of cases, the development of neuroendocrine tumors such as medullary thyroid carcinoma. RET germline inactivating mutations have been detected in up to 50% of patients with familial Hirschsprung disease and less often in the sporadic form.[21,22,23] Cosegregation of Hirschsprung disease and medullary thyroid carcinoma phenotype is infrequently reported, but these individuals usually have a mutation in RET exon 10. Patients with Hirschsprung disease are screened for mutations in RET exon 10; if such a mutation is discovered, a prophylactic thyroidectomy should be considered.[23,24,25]
(Refer to the PDQ summary on Genetics of Endocrine and Neuroendocrine Neoplasias for more information about MEN2A and MEN2B.)
Vandetanib (a kinase inhibitor). In a randomized phase III trial for adult patients with unresectable locally advanced or metastatic hereditary or sporadic medullary thyroid carcinoma treated with either vandetanib (a selective inhibitor of RET, vascular endothelial growth factor receptor, and epidermal growth factor receptor) or placebo, vandetanib administration was associated with significant improvements in progression-free survival (PFS), response rate, disease control rates, and biochemical response. Children with locally advanced or metastatic medullary thyroid carcinoma were treated with vandetanib in a phase I/II trial. Of 16 patients, only one had no response and seven had a partial response. Three of those patients had subsequent disease recurrence; however, 11 of 16 patients treated with vandetanib remained on therapy at the time of the report. Subsequent follow-up analysis of this cohort revealed that 10 of 17 patients achieved a partial response, and an additional 6 individuals had stable disease. The median PFS for these patients was 6.7 years.
Selpercatinib (a RET inhibitor). A phase I/II trial of selpercatinib therapy for patients with RET-mutant cancers enrolled 55 patients with RET-mutant medullary thyroid cancer (age range, 17–84 years) who were previously treated with vandetanib and/or cabozantinib and 88 patients with RET-mutant medullary thyroid cancer (age range, 15–82 years) who were not previously treated with vandetanib or cabozantinib.
Information about National Cancer Institute (NCI)–supported clinical trials can be found on the NCI website. For information about clinical trials sponsored by other organizations, refer to the ClinicalTrials.gov website.
The following is an example of a national and/or institutional clinical trial that is currently being conducted:
Tumor tissue from progressive or recurrent disease must be available for molecular characterization. Patients with tumors that have molecular variants addressed by treatment arms included in the trial will be offered treatment on Pediatric MATCH. Additional information can be obtained on the NCI website and ClinicalTrials.gov website.
Carney complex is an autosomal dominant syndrome caused by mutations in the PPKAR1A gene, located on chromosome 17. The syndrome is characterized by cardiac and cutaneous myxomas, pale brown to brown lentigines, blue nevi, primary pigmented nodular adrenocortical disease causing Cushing syndrome, and a variety of endocrine and nonendocrine tumors, including pituitary adenomas, thyroid tumors, and large cell calcifying Sertoli cell tumor of the testis.[1,2,3] There are published surveillance guidelines for patients with Carney complex that include cardiac, testicular, and thyroid ultrasonography.
For patients with the Carney complex, prognosis depends on the frequency of recurrences of cardiac and skin myxomas and other tumors.
Cancer in children and adolescents is rare, although the overall incidence of childhood cancer has been slowly increasing since 1975. Referral to medical centers with multidisciplinary teams of cancer specialists experienced in treating cancers that occur in childhood and adolescence should be considered for children and adolescents with cancer. This multidisciplinary team approach incorporates the skills of the following health care professionals and others to ensure that children receive treatment, supportive care, and rehabilitation that will achieve optimal survival and quality of life:
(Refer to the PDQ Supportive and Palliative Care summaries for specific information about supportive care for children and adolescents with cancer.)
Guidelines for pediatric cancer centers and their role in the treatment of pediatric patients with cancer have been outlined by the American Academy of Pediatrics. At these pediatric cancer centers, clinical trials are available for most types of cancer that occur in children and adolescents, and the opportunity to participate in these trials is offered to most patients and their families. Clinical trials for children and adolescents diagnosed with cancer are generally designed to compare potentially better therapy with therapy that is currently accepted as standard. Most of the progress made in identifying curative therapy for childhood cancers has been achieved through clinical trials. Information about ongoing clinical trials is available from the NCI website.
Dramatic improvements in survival have been achieved for children and adolescents with cancer. Between 1975 and 2010, childhood cancer mortality decreased by more than 50%. Childhood and adolescent cancer survivors require close monitoring because cancer therapy side effects may persist or develop months or years after treatment. (Refer to the PDQ summary on Late Effects of Treatment for Childhood Cancer for specific information about the incidence, type, and monitoring of late effects in childhood and adolescent cancer survivors.)
Childhood cancer is a rare disease, with about 15,000 cases diagnosed annually in the United States in individuals younger than 20 years. The U.S. Rare Diseases Act of 2002 defines a rare disease as one that affects populations smaller than 200,000 persons. Therefore, all pediatric cancers are considered rare.
The designation of a rare tumor is not uniform among pediatric and adult groups. Adult rare cancers are defined as those with an annual incidence of fewer than six cases per 100,000 people, and they are estimated to account for up to 24% of all cancers diagnosed in the European Union and about 20% of all cancers diagnosed in the United States.[5,6] Also, the designation of a pediatric rare tumor is not uniform among international groups, as follows:
Most cancers within subgroup XI are either melanomas or thyroid cancer, with the remaining subgroup XI cancer types accounting for only 1.3% of cancers in children aged 0 to 14 years and 5.3% of cancers in adolescents aged 15 to 19 years.
These rare cancers are extremely challenging to study because of the low incidence of patients with any individual diagnosis, the predominance of rare cancers in the adolescent population, and the lack of clinical trials for adolescents with rare cancers.
The PDQ cancer information summaries are reviewed regularly and updated as new information becomes available. This section describes the latest changes made to this summary as of the date above.
Treatment of Childhood Multiple Endocrine Neoplasia (MEN) Syndromes
Added text to state that subsequent follow-up analysis of a cohort of patients with locally advanced or metastatic medullary thyroid carcinoma revealed that 10 of 17 patients achieved a partial response, and an additional 6 individuals had stable disease. The median progression-free survival for these patients was 6.7 years (cited Kraft et al. as reference 28).
Treatment Options Under Clinical Evaluation for Multiple Endocrine Neoplasia (MEN) Syndromes
Added the LIBRETTO-001 trial as a treatment option under evaluation for patients with MEN syndromes.
This summary is written and maintained by the PDQ Pediatric Treatment Editorial Board, which is editorially independent of NCI. The summary reflects an independent review of the literature and does not represent a policy statement of NCI or NIH. More information about summary policies and the role of the PDQ Editorial Boards in maintaining the PDQ summaries can be found on the About This PDQ Summary and PDQ® - NCI's Comprehensive Cancer Database pages.
Purpose of This Summary
This PDQ cancer information summary for health professionals provides comprehensive, peer-reviewed, evidence-based information about the treatment of pediatric multiple endocrine neoplasia (MEN) syndromes. It is intended as a resource to inform and assist clinicians who care for cancer patients. It does not provide formal guidelines or recommendations for making health care decisions.
Reviewers and Updates
This summary is reviewed regularly and updated as necessary by the PDQ Pediatric Treatment Editorial Board, which is editorially independent of the National Cancer Institute (NCI). The summary reflects an independent review of the literature and does not represent a policy statement of NCI or the National Institutes of Health (NIH).
Board members review recently published articles each month to determine whether an article should:
Changes to the summaries are made through a consensus process in which Board members evaluate the strength of the evidence in the published articles and determine how the article should be included in the summary.
The lead reviewers for Childhood Multiple Endocrine Neoplasia (MEN) Syndromes Treatment are:
Any comments or questions about the summary content should be submitted to Cancer.gov through the NCI website's Email Us. Do not contact the individual Board Members with questions or comments about the summaries. Board members will not respond to individual inquiries.
Levels of Evidence
Some of the reference citations in this summary are accompanied by a level-of-evidence designation. These designations are intended to help readers assess the strength of the evidence supporting the use of specific interventions or approaches. The PDQ Pediatric Treatment Editorial Board uses a formal evidence ranking system in developing its level-of-evidence designations.
Permission to Use This Summary
PDQ is a registered trademark. Although the content of PDQ documents can be used freely as text, it cannot be identified as an NCI PDQ cancer information summary unless it is presented in its entirety and is regularly updated. However, an author would be permitted to write a sentence such as "NCI's PDQ cancer information summary about breast cancer prevention states the risks succinctly: [include excerpt from the summary]."
The preferred citation for this PDQ summary is:
PDQ® Pediatric Treatment Editorial Board. PDQ Childhood Multiple Endocrine Neoplasia (MEN) Syndromes Treatment. Bethesda, MD: National Cancer Institute. Updated <MM/DD/YYYY>. Available at: https://www.cancer.gov/types/multiple-endocrine-neoplasia/hp-child-men-syndromes-treatment-pdq. Accessed <MM/DD/YYYY>.
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Last Revised: 2021-02-11
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