Monogenic defects in the leptin-melanocortin pathway are associated with hyperphagia and severe, early-onset obesity. Early childhood growth patterns in height, weight, and BMI, might serve as phenoty Show more
Monogenic defects in the leptin-melanocortin pathway are associated with hyperphagia and severe, early-onset obesity. Early childhood growth patterns in height, weight, and BMI, might serve as phenotypic markers for specific genetic disorders; however, reliable data are scarce. This study aimed to evaluate the natural history of height, weight, and BMI in early childhood in a large European group of individuals with monogenic obesity. This multicentre observational study analysed height, weight, and BMI from birth to age 5 years in individuals diagnosed with biallelic (likely) pathogenic LEP, LEPR, POMC, PCSK1, or MC4R variants or monoallelic (likely) pathogenic MC4R variants from six European centres (Berlin and Ulm, Germany; Cambridge, UK; Madrid, Spain; Paris, France; Rotterdam, Netherlands). All patient data up to May 31, 2022 were included in this analysis. All individuals had at least two height or weight measurements between birth and age 5 years. Early childhood growth trajectories were compared with those of control children with obesity without a known genetic cause, following a negative next-generation sequencing panel. Diagnostic performance of BMI as a predictor test for monogenic obesity was also evaluated. We included 147 individuals with monogenic obesity. From the age of 6 months onwards, children with biallelic variants (n=88, 55% female vs 45% male) had substantially higher BMIs than those with monoallelic MC4R variants (n=59, 53% female vs 47% male) and control children (n=113, 59% female vs 41% male). Children with biallelic LEP, LEPR, and MC4R variants showed a steep BMI increase during the first year of life, followed by a plateau until age 5 years, whereas those with biallelic POMC variants did not plateau. Accelerated linear growth was only observed in children with biallelic MC4R variants starting from age 1 year. The optimal BMI cut-off for distinguishing individuals with biallelic variants from control individuals was identified at age 2 years, with a test positivity cutoff of 24·0 kg/m This study identified characteristic early childhood BMI trajectories for different forms of monogenic obesity. From age 6 months onwards, individuals with biallelic variants can be distinguished from those with monoallelic variants and common obesity. A BMI ≥24 kg/m Federal Ministry of Education and Research as part of the German Center for Child and Adolescent Health, German Research Foundation, Spanish Ministry of Health, The Wellcome Trust, Botnar Fondation, Leducq Foundation, National Institute for Health Research (NIHR) Cambridge Biomedical Research Centre, and NIHR Senior Investigator Award. Show less
The objective of this study was to investigate head circumference (HC) in patients with melanocortin 4 receptor (MC4R) deficiency, the most common cause of monogenetic obesity. Patients with (likely) Show more
The objective of this study was to investigate head circumference (HC) in patients with melanocortin 4 receptor (MC4R) deficiency, the most common cause of monogenetic obesity. Patients with (likely) pathogenic MC4R variants were included. HC, height, and weight were measured, and BMI and standard deviation score (SDS) were calculated. HC SDS was compared to the Dutch reference population. Children were matched 1:1 to a control group with common obesity. Children with MC4R deficiency (n = 63, mean age, 10.32 years) had significantly larger HC (mean, +1.73 SDS) compared to the reference population (0 SDS; p < 0.001) and controls (+1.22 SDS; p = 0.009). In adults (n = 13), HC (median, + 0.86 SDS) did not differ from the reference population (0 SDS; p = 0.152). Macrocephaly (HC ≥ 2 SDS) was present in 43%, 25%, and 23% of pediatric patients with MC4R deficiency, controls, and adult patients, respectively. Children with MC4R deficiency were taller than controls (+1.00 SDS vs. +0.42 SDS; p = 0.016), with similar BMI (+3.99 SDS vs. +3.75 SDS; p = 0.157). HC SDS was associated with height SDS (R Macrocephaly is a common feature of patients with MC4R deficiency. We recommend measuring HC in patients suspected for genetic obesity, as it can be a clue for MC4R deficiency. Show less
We sought to assess body mass index trajectories of children with genetic obesity to identify optimal early age of onset of obesity (AoO) cut-offs for genetic screening. This longitudinal, observation Show more
We sought to assess body mass index trajectories of children with genetic obesity to identify optimal early age of onset of obesity (AoO) cut-offs for genetic screening. This longitudinal, observational study included growth measurements from birth onward of children with nonsyndromic and syndromic genetic obesity and control children with obesity from a population-based cohort. Diagnostic performance of AoO was evaluated. We describe the body mass index trajectories of 62 children with genetic obesity (29 nonsyndromic, 33 syndromic) and 298 controls. Median AoO was 1.2 years in nonsyndromic genetic obesity (0.4 and 0.6 years in biallelic LEPR and MC4R; 1.7 in heterozygous MC4R); 2.0 years in syndromic genetic obesity (0.9, 2.3, 4.3, and 6.8 years in pseudohypoparathyroidism, Bardet-Biedl syndrome, 16p11.2del syndrome, and Temple syndrome, respectively); and 3.8 years in controls. The optimal AoO cut-off was ≤3.9 years (sensitivity, 0.83; specificity, 0.49; area under the curve, 0.79; P < .001) for nonsyndromic and ≤4.7 years (sensitivity, 0.82; specificity, 0.37; area under the curve, 0.68; P = .001) for syndromic genetic obesity. Optimal AoO cut-off as single parameter to determine which children should undergo genetic testing was ≤3.9 years. In case of older AoO, additional features indicative of genetic obesity should be present to warrant genetic testing. Optimal cut-offs might differ across different races and ethnicities. Show less