Clinical Trial Details
— Status: Recruiting
Administrative data
| NCT number |
NCT06380387 |
| Other study ID # |
H-21046543 |
| Secondary ID |
|
| Status |
Recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
March 23, 2023 |
| Est. completion date |
December 2026 |
Study information
| Verified date |
April 2024 |
| Source |
Rigshospitalet, Denmark |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
At the center of pediatric oncology in Copenhagen the investigators experience that the
children with brain tumor, more or less have a healthy body with normal skeletal muscle mass
and are physical active to the same level as their friends at the same age. The treatment
period for brain tumor is approximately two years. After the treatment period, the children
are more sedative with less interest in coming out doing physical activities and thus the
investigators suspect that they have altered hormonal response, low skeletal muscle mass and
perhaps are in risk of developing metabolic syndrome.
By comparing children with newly diagnosed CNS tumor with children finished treated for CNS
tumor, we wish to describe the metabolic path during the approximately two years treatment
period these children go through. These results will also be compared with results from
healthy controls.
The investigators aim to include 10 children (aged 6-18 years) with newly diagnosed CNS
tumor, 10 children (aged 6-18 years) finished treated for CNS tumor and 10 healthy controls
(aged 6-18 years). By using stable isotope technique the investigators will investigate
systemic fat, glucose and protein metabolism together with liver protein degradation and
glucose production. Furthermore, by using DXA scan the investigators will describe the
quality and distribution of skeletal muscle. Lastly, the investigators will determine the
skeletal muscle signal pathway and metabolism in skeletal muscle via the Bergström biopsy
technique in vastus lateralis.
Description:
By comparing children with newly diagnosed CNS tumor with children finished treated for CNS
tumor, the investigators wish to describe the metabolic path during the approximately two
years treatment period these children go through. These results will also be compared with
results from healthy controls.
Trial design and time frame:
A prospective, non-randomized, cross-sectional study.
There will be three different patient groups included:
- Patient group A: Children with newly diagnosed CNS tumor
- Patient group B: Children finished treated for CNS tumor
- Healthy controls: Children admitted to the hospital at the Epilepsy monitor unit (EMU)
The trial will be conducted over a total of two days and takes place at the Department of
Pediatrics and Adolescent Medicine, Rigshospitalet and the Copenhagen Neuromuscular Center,
Department of Neurology, Rigshospitalet.
- Study day 1: Is estimated to last approximately 2 hours.
- Study day 2: Is estimated to last approximately 8 hours.
Study Day 1: The children will be DXA-scanned and complete life quality questionnaires and
pain scores. In some cases, study day 1 will be done after study day 2, depending on the
cancer treatment plan for each patient.
Study Day 2: For the patients newly diagnosed with CNS tumor: The investigators strive to
conduct study day 2 within the first week of hospital admission due to newly diagnosed CNS
tumor. However, the investigators do accept study day 2 being conducted within the first
month after time of diagnose.The subjects will arrive around 08.00, at Copenhagen
Neuromuscular Centre (CNMC), Rigshospitalet.
On arrival, EMLA (local anesthetics cream) will be applied on the skin of the children in
order to minimize any discomfort that may occur during iv-insertion. Two peripheral venous
catheters are inserted, one in the medial cubital vein for infusion of stable isotopes, and
one in a dorsal vein of the hand for blood sampling. If the child has a central venous
catheter (CVK), we will only insert one peripheral venous catheter, in the medial cubital
vein for infusion of the stable isotopes.
After 1 hour and 45 minutes of basal tracer infusion, basal blood samples are drawn (time -15
and 0) for the determination of basal steady state tracer enrichments and hormone
concentrations. At time= 0, a liquid mixed meal is provided. Blood samples are drawn
frequently for 6 hours relative to start of the test meal (at 0, 10, 20, 30, 40, 50, 60, 90,
120, 150, 180, 240, 300 and 360 minutes)[24], [25]. If the child becomes upset or we for
other reasons want to stop earlier than 6 hours, we will use the already obtained results.
The tracers: In this study, the investigators will intravenously infuse small amounts of
metabolites labelled with stable isotopes in primed continuous intravenous infusions of:
D8-Phenylalanine, D2-Tyrosine, 13C18-Oleate acid, D2-Glucose, D5-Glycerol. This method is
well-established at both CIMT and CNMC and has been used investigating several of patients
categories before: Neonates (ongoing study), gastric sleeve, elderly and neuromuscular
patients.
The tracers are prepared from the hospital pharmacy. All tracers are purchased from Cambridge
Isotope Laboratories, Andover, MA, USA suitable for human use. Stable isotopes are
non-radioactive and naturally occurring in food (e.g. in corn).
Food intervention: At time= 0 (120 minutes after infusion), a liquid mixed meal adjusted by
weight is given. The meal consists of: Intrinsically labelled D5-Phenylalanine and D3-Leucine
labelled casein protein, 13C16palmitate, 13C6-Glucose in a mix of glucose, casein protein and
rape seed oil dissolved in water in an energy density of 50% CHO, 35% fat and 15% protein.
Intrinsically labeled caseinate was produced via an infusion of [D5]-phenylalanine and
[D3]leucine into a lactating cow to obtain enriched milk Foulumn, Arhus University, from
which the caseinate fraction was isolated at Arla Foods according to Good Manufacturing
Practice (GMP) and safety checked an store under appropriate regulatory conditions until use
(Nørre Vium, Denmark) following a previously described procedure.
Analyses of blood samples:The samples will be collected in syringes containing 10μL EDTA/mL
to prevent coagulation. The blood is immediately centrifuged at 4oC to separate plasma from
red blood cells. The samples will be frozen in coded tubes and stored at -80C until analysis.
Routine blood samples: Will be analysed immediately at the Department of Clinical
Biochemistry, Rigshospitalet:
- Blood samples include: Insulin, HbA1C, Cholesterol, HDL, LDL, triglycerides
Glucose and lactate: will be analyzed (ABL 700) immediately as the blood is drawn.
Specific blood samples:
- Free fatty acids: will be analyzed using fluorometry.
- Hormones (catecholamines, insulin, incretins and glucagon): will be analyzed using RIA
and Elisa Methods respectively.
- Stable isotope enrichments in blood: will be analyzed using Liquid chromatography-tandem
mass-spectrometry (LC-MS/MS) and gas chromatography combustion isotope ratio mass
spectrometry (GC-C-IRMS) (Thermo Scientific, Palo Alto, CA, USA and Bremen, Germany).
Calculations: Whole body metabolite quantitative kinetics will be calculated using Steele's
equation for non-steady state adapted for analysis of stable isotopes under the
post-absorptive conditions.
