Brain metabolic profile assessed by magnetic resonance spectroscopy in children with Down syndrome:Relation to intelligence quotient
2023-12-25NesreenSafwatElFeilHebaElmahdyRashaAhmedElmahdyAhmedAbdElbassetAboelezzHebaDawoudMohammedAlBeltagi
Nesreen Safwat El Feil,Heba S Elmahdy,Rasha Ahmed Elmahdy,Ahmed Abd-Elbasset Aboelezz,Heba S Dawoud,Mohammed Al-Beltagi
Nesreen Safwat El Feil,Heba S Elmahdy,Ahmed Abd-Elbasset Aboelezz,Heba S Dawoud,Mohammed Al-Beltagi,Department of Pediatrics,Faculty of Medicine,Tanta University,Tanta 31527,Al Gharbia,Egypt
Rasha Ahmed Elmahdy,Department of Radiology,University Medical Center,Dr.Sulaiman Al-Habib Medical Group,Manama 26671,Manama,Bahrain
Mohammed Al-Beltagi,Department of Pediatrics,University Medical Center,King Abdulla Medical City,Arabian Gulf University,Manama 26671,Manama,Bahrain
Mohammed Al-Beltagi,Department of Pediatrics,University Medical Center,Dr.Sulaiman Al-Habib Medical Group,Manama 26671,Manama,Bahrain
Abstract BACKGROUND Down syndrome(DS)is one of the most common causes of intellectual disability.Children with DS have varying intelligence quotient(IQ)that can predict their learning abilities.AIM To assess the brain metabolic profiles of children with DS and compare them to standard controls,using magnetic resonance spectroscopy(MRS)and correlating the results with IQ.METHODS This case-control study included 40 children with DS aged 6-15 years and 40 age and sex-matched healthy children as controls.MRS was used to evaluate ratios of choline/creatine(Cho/Cr),N-acetyl aspartic acid/creatine(NAA/Cr),and myoinositol/creatine(MI/Cr(in the frontal,temporal,and occipital lobes and basal ganglia and compared to controls and correlated with IQ.RESULTS Children with DS showed significant reductions in NAA/Cr and MI/Cr and a non-significant reduction in Cho/Cr in frontal lobes compared to controls.Additionally,we observed significant decreases in NAA/Cr,MI/Cr,and Cho/Cr in the temporal and occipital lobes and basal ganglia in children with DS compared to controls.Furthermore,there was a significant correlation between IQ and metabolic ratios in the brains of children with DS.CONCLUSION Brain metabolic profile could be a good predictor of IQ in children with DS.
Key Words: Children;Down syndrome;Magnetic resonance spectroscopy;Metabolic profile;Intelligence quotient
INTRODUCTION
Down syndrome(DS)is the most prevalent chromosomal disorder in humans and one of the leading causes of intellectual disability.It arises from the presence of an additional chromosome 21[1].Children with DS exhibit various physical dysmorphic features affecting nearly every part of their bodies[2].DS is a systemic disorder that impacts all body systems,particularly the central nervous system.Individuals with DS experience cognitive impairment and a range of conditions related to speech,language,and motor functions.They also face an elevated risk of early-onset dementia and Alzheimer's disease(AD)[3].Two hypotheses have been proposed to elucidate the pathogenesis of DS:Developmental instability resulting from chromosomal imbalance loss and the gene-dosage effect[4].According to the genedosage effect hypothesis,the genes located on chromosome 21 are overexpressed in the cells and tissues of DS patients,contributing to various phenotypic abnormalities[5].
Magnetic resonance(MR)spectroscopy(MRS)is an analytical technique used to quantify metabolites.Unlike conventional MR imaging(MRI),MRS provides physiological and chemical information rather than anatomical details[6].Proton MRS(1 H-MRS)is widely employed to characterize brain neurochemical changes associated with health and disease.Nacetyl aspartic acid(NAA)is a derivative of aspartic acid primarily synthesized and stored in neurons.Therefore,it is a marker for neuronal density and viability[7].As a neuronal marker,the concentration of NAA decreases in conditions such as extensive brain lesions,dementia,hypoxia,or multiple sclerosis,where neuronal destruction occurs[8].Total creatine(Cr)reflects the amount of phosphocreatine and Cr present in neurons and glial cells.It appears as a prominent peak at 3.0 ppm in MR spectra,with an additional peak for Cr possibly visible at 3.94 ppm[9].Cr remains relatively constant in the brain's energetic cellular metabolism and is often used as a reference metabolite forinvivoMRS.For instance,it is frequently employed in the calculation of metabolite ratios such as choline(Cho)/Cr,NAA/Cr,and myoinositol(MI)/Cr[10].
Cho serves as an indicator of cellular proliferation and cell membrane integrity.Increased choline levels reflect heightened synthesis and degradation of cell membranes[11].MI functions as a marker primarily synthesized in glial cells.Elevated MI levels are often observed in cerebral diseases associated with significant gliosis[12].Metabolic abnormalities,specifically elevated MI levels,have been observed throughout development in mouse models of DS and the brains of children and adults with DS.However,there is a scarcity of studies investigating brain metabolism during early childhood[13].
The intelligence quotient(IQ)is critical in assessing the neurological and cognitive development of children with DS.It may also reflect their physical and somatic growth,as documented by Kłosowskaetal[14].Therefore,establishing a connection between the brain's metabolic profiles and IQ in children with DS could provide insights into the underlying reasons for this relationship and aid in developing strategies to improve their IQ.Limited research has been conducted on elucidating metabolic changes in the developing brains of children with DS.Hence,this study aims to evaluate the brain's metabolic profile using MRS in children with DS,comparing it with normal controls and examining the correlation between this metabolic profile and IQ.
MATERIALS AND METHODS
This case-control study was conducted between April 2019 and April 2021,involving a patient group of 60 children with DS.Out of these,40 children completed the study.We also included a control group of 40 healthy children,matched in age and sex.The age range of the participating children was between 6 and 15 years.We recruited the children from the Outpatient Clinic of the Genetics Unit,Pediatric Department,at Tanta University in Egypt.The diagnosis of DS was based on clinical findings and confirmed through karyotyping.A comprehensive medical history was obtained,including demographic data,prenatal,natal,postnatal,family,and developmental history.Thorough clinical and psychiatric evaluations were performed as well.All patients underwent thyroid function tests,echocardiography,and glycated hemoglobin(HbA1c)measurements.We utilized the Stanford-Binet Intelligence Scales,Fifth Edition,to assess the IQ of the study groups.Cases with diseases that could potentially influence the results or pose risks during the MRS procedure were excluded.Exclusion criteria encompassed complex congenital heart disease,congenital neurological abnormalities,a history of perinatal asphyxia,suspected metabolic disease,epilepsy,attention deficit hyperactivity disorder,autistic spectrum disorders,and conditions that precluded MRI scans,such as the presence of metal devices like pacemakers,defibrillators,orthodontic braces,implants,or severe claustrophobia.Patients with known endocrine disorders like hypothyroidism or diabetes mellitus were excluded from the study.Ethical approval for this research was obtained from the Faculty of Medicine Ethics Committee,Tanta University.Written informed consent was acquired from the legal guardians of both patients and controls before the imaging procedure.The study adhered to the principles of the Declaration of Helsinki and good clinical practice.No adverse physiological effects resulting from the main magnetic field are known.Furthermore,no unexpected risks emerged during the research.
MRS study
The MRS studies were conducted at the Radiology Department of Tanta University in Egypt.A 1.5 Tesla system(Signa;GE Medical Systems,Milwaukee,WI,United States)with a quadrature head coil was used for all MRI and 1H-MRS procedures.Before the examination,the children were sedated using chloral hydrate at 25-100 mg/kg(maximum 2 g).
Initially,a conventional MRI scan was performed,followed by placing the voxel at various positions.Water suppression and the point-resolved spectroscopy methods were then employed,with a Time to Echo of 135 msec and a Repetition Time of 1500 msec.The NAA,Cho,MI,and Cr spectra were analyzed,and ratios for Cho/Cr,NAA/Cr,and MI/Cr were calculated in the frontal,temporal,occipital lobes,and basal ganglia.These ratios were compared between the patients and controls.NAA serves as an indicator of neuronal integrity,with its peak occurring at 2.02 ppm.Cho reflects cell turnover,with its highest point at 3.22 ppm.Cr is involved in cellular metabolism and peaks at three ppm.Normally,no lipid or lactate peak is observed in the brain;even if present,they overlap at 1.33 ppm[15].
Oxygen saturation,heart rate,and temperature were continuously monitored during the scan,and a skilled pediatrician was present for all examinations.The total examination time for each child did not exceed one hour.The child lay supine with their head positioned in the head coil,which was surrounded by a lunar pillow to minimize the sound from the magnetic field.Subsequently,the patient and coil were moved into the magnetic bore.
Statistical analysis
The study's power level was estimated using The Power and Precision V3 program(http://www.Power-Analysis.com,Englewood,New Jersey).The collected data were organized,tabulated,and subjected to statistical analysis using the SPSS version 19.For parametric variables,the mean and standard deviation were calculated.A comparison of mean values between the cases and controls was conducted using an unpaired Student'st-test,assuming equal variance in the two populations.Nonparametric variables were analyzed by calculating the number and percentage.The chi-square test was employed to compare different observations of categorical variables.Pearson's correlation coefficient was utilized to examine the association between two variables.APvalue less than 0.01 was considered statistically significant after applying the Bonferroni correction of multiple comparisons to avoid any spurious significance and to mitigate the risk of Type I errors associated with multiple comparisons.
RESULTS
Table 1 illustrates the study's demographics.Sixty children with DS were initially recruited for the study,but 20 were excluded due to missed follow-up,inability to participate,or refusal to do an MRI.Ultimately,the study included 40 children with DS and 40 healthy children who completed the study.There were no significant differences in age,sex,and mean IQ between the excluded and included children with DS.Table 1 presents the demographic data of the included children.The patient group had an age range of 6-15 years,with a mean of 10.85 ± 2.7,while the control group ranged from 5-17 years,with a mean of 10.70 ± 2.6.Among the children with DS,28 were males,and 12 were females,resulting in a male-to-female ratio of 1.4:1.The control group consisted of 24 males and 16 females,with a male-to-female ratio of 1.5:1.There were no significant differences in age and sex between the two groups.All included children with DS had the non-disjunction type of DS.The IQ was significantly lower in children with DS(68.45 ± 6.11)compared to the controls(96.73 ± 2.68),with aPvalue < 0.001.
Table 1 Demographic data and intelligence quotient of children with Down syndrome and their controls
Table 2 presents the metabolic profile of the studied groups.It revealed a significant reduction in NAA/Cr and MI/Cr ratios(Pvalue < 0.001)and a non-significant reduction in the Cho/Cr ratio in the frontal lobe of children with DS compared to the controls.Furthermore,children with DS exhibited non-significant reductions in NAA/Cr(P< 0.05),Cho/Cr,and MI/Cr ratios in the temporal and occipital lobes compared to the control group.The occipital lobe showed the highest significant reduction in MI/Cr ratio(Pvalue < 0.001).In addition,the basal ganglia exhibited the most substantial reduction in NAA/Cr,Cho/Cr,and MI/Cr ratios in children with DS compared to the control group.
Table 2 Brain metabolite ratios of children with down syndrome and controls
Figures 1-3 display the correlation between IQ and various metabolic ratios.There was a statistically significant positive correlation between IQ and NAA/Cr ratio in the frontal lobe and Cho/Cr ratio in the temporal lobe among children with DS.Conversely,a statistically significant negative correlation existed between IQ and Cho/Cr ratio in the occipital lobe among children with DS,as shown in Table 3.The IQ was primarily influenced by NAA/Cr in the frontal lobe,Cho/Cr in the temporal lobe,and Cho/Cr in the occipital lobe in order of significance.Regression analysis for frontal NAA/Cr and IQ demonstrated aPvalue of < 0.001.However,the multivariate analysis presented in Table 4 showed that frontal Naa/Cr and temporal Cho/Cr had the most significant correlation with IQ.
Table 4 Multivariate analysis of the brain metabolite ratios that significantly affect intelligence quotient in children with down syndrome
DISCUSSION
The current study demonstrated a significant reduction in IQ among children with DS(55-75)compared to normal children.This is consistent with previous research,including Rachidi and Lopes’s[3] study,which indicated that cognitive impairment is consistently observed in all individuals with DS.Most children and adults with DS exhibit mild to moderate intellectual disability,with an average IQ score of around 50 and individual values ranging from 30 to 70.Approximately 10% of individuals with DS fall within the low average borderline range of intellectual disability,while a minority have severe intellectual disability.The exact mechanisms underlying brain development in DS remain poorly understood.Still,multiple volumetric MRI studies have been conducted to gain further insights into the brain characteristics of individuals with DS.Several neuroimaging studies have reported reductions in total brain volume,as demonstrated by Beacheretal[16] in 2010,who observed volume reductions in the cerebrum,cerebellum,hippocampus,brain stem,and frontal lobes.
Our study calculated ratios for Cho/Cr,NAA/Cr,and MI/Cr in the frontal,temporal,occipital lobes,and basal ganglia,comparing the patient and control groups.We found a significant reduction in NAA/Cr and MI/Cr ratios in the frontal lobe,with a non-significant reduction in Cho/Cr among children with DS compared to the control group.This finding aligns with the study by Smigielska-Kuzia and Sobaniec[15],who investigated 34 children(14 with DS and 20 healthy children)and reported decreased Glx/Cr,NAA/Cr,Cho/Cr,and MI/Cr in patients with DS,with the first two markers showing a statistically significant difference.Lamaretal[17] also found a reduction in the absolute concentration of NAA in the frontal,temporal,and occipital lobes in patients with DS and AD.However,Shonketal[18] detected elevated MI in adult patients with DS and AD compared to DS patients without AD.This difference could be attributed to our study’s age range(6-15 years),as AD development may be associated with aging in DS.
Additionally,we observed a significant reduction in NAA/Cr,Cho/Cr,and MI/Cr ratios in the temporal lobe of children with DS compared to the control group.This finding agrees with Śmigielska-Kuziaetal[19] in 2010,who conducted a study on 40 children(20 with DS and 20 healthy children)and reported a statistically significant decrease in NAA/Cr,Cho/Cr,MI/Cr,and GABA/Cr.
Furthermore,a significant reduction in NAA/Cr,Cho/Cr,and MI/Cr ratios in the basal ganglia was observed in children with DS relative to the control group.This finding is consistent with a previous report by Fruen and Lester[20] in 1990,which described an increased MI/Cr ratio in adults with DS.The increased MI levels in brain tissue may be attributed to an extraSLC5A3gene in trisomic 21 cells,responsible for inositol transporter synthesis.These cotransporters regulate MI concentration in DS cortical cells.The results of the Fruen and Lester’s[20] study and our study suggest that individuals with DS,whether demented or not,exhibit altered neuron-glial metabolism(reduced NAA and increased MI).Linetal[21] found that this metabolic shift was more pronounced in DS individuals with dementia compared to those without dementia.
In the occipital lobe,we found a significant reduction in NAA/Cr,Cho/Cr,and MI/Cr ratios among children with DS compared to the control group.This is consistent with a case-control study by Shonk and Ross[22] in 1995,which included 23 young DS patients without dementia,revealing elevated MI levels.They also reported one patient with DS and dementia who exhibited high MI but decreased NAA in the occipital cortex and parietal white matter.The decreased NAA findings align with our study,although our results differ from theirs regarding MI.This discrepancy could be attributed to age differences.NAA indicates brain maturation,dendritic and synaptic development,and oligodendroglial proliferation and differentiation(Katoetal[23],1997).Previous studies in adults with DS have reported lower NAA ratios compared to healthy controls[18,21].The observed decrease in NAA/Cr ratios in different brain regions among children with DS in our study suggests reduced brain maturation in these individuals.
Figure 1 Correlation between intelligence quotient and N-acetyl aspartate/creatine ratio in the frontal lobe of the Down syndrome group.IQ:Intelligence quotient;NAA/Cr ratio:N-acetyl aspartate/creatine ratio.
Figure 2 Correlation between intelligence quotient and choline/creatine ratio in the temporal lobe of the Down syndrome group.Cho/Cr:Choline/creatine;IQ:Intelligence quotient.
Our research demonstrated that frontal NAA/Cr had the most significant correlation with IQ,followed by T Cho/Cr,while O Cho/Cr had the least effect.To the best of our knowledge,only one previous study utilized MRS to evaluate brain metabolites in children with DS.Due to the scarcity of studies in the literature,we could not find extensive data for comparison.
Figure 3 Correlation between intelligence quotient and choline/creatine ratio in the occipital lobe of the Down syndrome group.Cho/Cr:Choline/Creatine ratio,DS:Down Syndrome,IQ:Intelligence quotient.
Limitation of the study
The study is subject to certain limitations,including a relatively small sample size and being conducted at a single center.Our study is mainly exploratory and should be followed by confirmatory studies to validate the observed associations.It would also be valuable to examine the correlation between the metabolic profile and the patient’s medical conditions,parents' educational levels,and developmental milestones.Assessing any changes in the metabolic profile resulting from occupational and behavioral therapy could provide insights into improving IQ and promoting self-independence in children with DS.It is recommended to conduct future studies with larger sample sizes to better understand the DS brain's intricacies.Moreover,longitudinal studies involving adolescents and adults with DS,both with and without dementia,would be beneficial in monitoring metabolite changes and their impact on the mental health of patients with DS,particularly those who develop early-onset dementia.In addition,we would like to emphasize that the correlation of IQ to metabolic ratios in the brain does not imply causality.Correlations only establish relationships.We also acknowledge that our study design did not include a separate group of low-functioning children without DS for direct comparison.We will consider this point in the coming research.Adding such a group would have provided a valuable reference point for evaluating whether the observed differences in brain metabolic profiles and their correlation with IQ are specific to DS or could apply to low-functioning children in general.
CONCLUSION
The brain's metabolic profile in children with DS exhibits differences compared to typically developing children.Additionally,specific brain areas show positive and negative correlations between IQ and specific metabolic ratios.Thus,the brain's metabolic profile could serve as a predictor of IQ in children with DS.
ARTICLE HIGHLIGHTS
Research background
Down syndrome(DS)is the most prevalent chromosomal disorder in humans and one of the leading causes of intellectual disability.Magnetic resonance(MR)spectroscopy(MRS)is an analytical technique used to quantify metabolites.Proton MRS(1 H-MRS)is widely employed to characterize brain neurochemical changes associated with health and disease.N-acetyl aspartic acid(NAA)is a derivative of aspartic acid primarily synthesized and stored in neurons.Therefore,it is a marker for neuronal density and viability.
Research motivation
Establishing a connection between the brain's metabolic profiles and intelligence quotient(IQ)in children with DS could provide insights into the underlying reasons for this relationship and aid in developing strategies to improve their IQ.
Research objectives
We aimed to evaluate the brain's metabolic profile using MRS in children with DS,comparing it with that of normal controls and examining the correlation between this metabolic profile and IQ.
Research methods
The study was a case-control study that included sixty children with DS and forty healthy controls.IQ was assessed using Stanford-Binet Intelligence Scales,Fifth Edition.A conventional MR imaging scan followed by point-resolved spectroscopy was performed for all the participants.
Research results
Children with DS showed significant reductions in NAA/creatine(Cr)and myoinositol(MI)/Cr and a non-significant reduction in choline(Cho)/Cr in frontal lobes compared to controls.Additionally,we observed significant decreases in NAA/Cr,MI/Cr,and Cho/Cr in the temporal and occipital lobes and basal ganglia in children with DS compared to controls.Furthermore,there was a significant correlation between IQ and metabolic ratios in the brains of children with DS.
Research conclusions
Brain metabolic profile could be a good predictor of IQ in children with DS.
Research perspectives
To generalize our results,the authors must include a larger sample size and perform a multicentre study.We also need to include another group with low IQ for different reasons to investigate the unique features of brain metabolic profiles in children with DS.
ACKNOWLEDGEMENTS
We thank the parents and children who participated in this study.We also thank the editors and the reviewers for their efforts to improve the quality of the study.
FOOTNOTES
Author contributions:Dawoud HS provided the research idea and initiated the study design;El-Feil SE and El Mahdy HS collected the patients and their information;Aboelezz AA was responsible for statistical analysis;Elshafey RA was responsible for the technical part of the study;Also,Elshafey RA oversaw imaging and data analysis;Al-Biltagi M analyzed the data and revised the manuscript.All the authors revised and agreed on the final version of the manuscript.
Institutional review board statement:We performed the study according to the latest version of Helsinki's Declaration.The Institutional Ethical and Research Review Board of Faculty of Medicine,Tanta University,approved the study.
Informed consent statement:All parents,guardians,or next of kin signed informed consent for the minors to participate in this study.
Conflict-of-interest statement:The authors declare no conflict of interest for this article.
Data sharing statement:Data are available upon reasonable request.
STROBE statement:The authors have read the STROBE statement,and the manuscript was prepared and revised according to the STROBE statement.
Open-Access:This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers.It is distributed in accordance with the Creative Commons Attribution NonCommercial(CC BY-NC 4.0)license,which permits others to distribute,remix,adapt,build upon this work non-commercially,and license their derivative works on different terms,provided the original work is properly cited and the use is non-commercial.See:https://creativecommons.org/Licenses/by-nc/4.0/
Country/Territory of origin:Egypt
ORCID number:Mohammed Al-Beltagi 0000-0002-7761-9536.
S-Editor:Lin C
L-Editor:A
P-Editor:Zhang XD
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