Metabolic Syndrome Clinical Trial
Official title:
Study of the Pathogenic Mechanisms of Metabolic Syndrome at the Background of Genetically Determined Insulin Resistance in Childhood Cancer Survivors
The research is devoted to studying the features of the metabolic syndrome in cancer
survivors in childhood is supposed to answer the following questions:
- How can metabolic syndrome be diagnosed in the Russian population of survivors of acute
lymphoblastic leukemia and non-Hodgkin's lymphomas?
- What are the features of the clinical symptoms of metabolic syndrome in this category of
patients?
- Which genetic mutations are found in cancer survivors of patients with metabolic
syndrome; Which of these mutations can be considered as protective or vice versa
predisposing to the development of metabolic syndromes? Is the metabolic syndrome
associated with an increased frequency of toxic complications of therapy during the
intensive stages?
Brief Overview:
The remarkable progress in developing curative therapy for childhood cancer over the last 4
to 5 decades has increased awareness of the serious cancer treatment-related late effects
experienced by long-term survivors such as premature mortality early deaths, second primary
cancers, organ dysfunction (heart, lung, endocrine system), fertility impairment, cognitive
deficits, and reduced quality of life. Endocrine disorders, which occur in 30% to 70% of
childhood cancer survivors, are among the most frequent late effects of anticancer therapy.
Survivors treated with radiation and alkylating agent chemotherapy for hematological
malignancies and CNS tumors are at a particularly high risk for endocrine dysfunction.
Most anticancer drugs act directly or indirectly by modifying intracellular metabolism.
Therefore, high frequency of acute and late cancer treatment-related organ toxicity can
result in metabolic disorders. For example, steroid-induced hypercortism blocks glycolysis
and results in insulin resistance of tissues. Insulin resistance is associated with earlier
manifestation of diabetes mellitus, obesity etc. The clinical sequelae of metabolic syndrome
developing in childhood cancer survivors may include insulin resistance, fasting
hyperglycemia, endothelial failure, obesity, dyslipidemia, hypertension, chronic fatigue
syndrome, motor and behavioral disorders.
Modern genetics make it possible to create a basis for a personalized approach to the
prevention of early and late toxic effects caused by anticancer therapy and the
rehabilitation of the childhood cancer survivors.
Objectives:
Specific Aim 1. Evaluate the frequency and clinical features of the metabolic syndrome in
childhood cancer survivors.
Hypothesis 1A: Components of the metabolic syndrome are realizing in children and adolescents
at all stages of therapy of leukemia and lymphomas, can influence the development of
complications and late toxic effects.
Hypothesis 1B: Initial health conditions (abnormal IBM, family history, comorbid diseases);
drug's toxicity could influence to the appearance of early manifestation of metabolic
syndrome.
Specific Aim 2: Evaluate the contribution of functional polymorphisms in candidate genes to
metabolic syndrome outcomes among childhood cancer patients.
Hypothesis 2A: Genetic polymorphisms involved in the regulation of the insulin resistance and
cancer medications during treatment contribute to the development of metabolic syndrome in
childhood cancer survivors.
Specific Aim 3: Assess the extent to which genetic predictors, doses of drugs, risk factors
improve the discriminatory performance of standard clinical prediction models for metabolic
syndrome outcomes among childhood cancer survivors.
Hypothesis 3 A: Development of metabolic syndrome in cancer patients depends of genetic
determinants and toxic effects of antitumor therapy.
Secondary Aim 1: Assess the definition of metabolic syndrome in cohort of patients of
leukemia and lymphoma and survivors.
Hypothesis 1A: Episodes of triglyceridemic, insulin resistance (Hyperglycemia, HOMA>2,7,
Steroid Diabetes) during the treatment could be the base evidence marker of Metabolic
Syndrome in patients treated by antitumor therapy.
Hypothesis 1 B: Endothelial dysfunction as a clinical component of metabolic syndrome is
responsible for cardiovascular abnormalities in cancer survivors.
Exploratory Aim 1: Assess the association of biomarkers and genetic predictors among
childhood cancer survivors with therapeutic exposures (chemotherapy and/or radiation therapy)
and metabolic syndrome.
Evaluation:
Eligible persons who consent to participate in this trial will be asked to do the following:
- Vital sign measurement including resting heart rate, blood pressure, height, and weight.
- A total of 12 mL of blood will be collected in 3 test tubes. Biomarker analysis will be
completed by Laboratory of Dmitry Rogachev National Medical Research Center.
- A Total of 4 mL of blood in 1 test tube will be used for genotyping for the presence of
polymorphic variants in genes involved in the biotransformation of xenobiotics, insulin
resistance and carbohydrate metabolism in the biomolecular laboratory of Dmitry Rogachev
National Medical Research Center.
- An echocardiogram and ultrasound will be performed to assess cardiac function.
- CAVI and ABI pulse wave velocity will be non-invasively measured by using the SphygmoCor
VaSera VS-1500N. Arterial pressure waveforms will be recorded with a strain gauge
pressure sensor placed lightly over the radial artery before and after "6-minutes
physical activity".
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