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3. Application of the Dutch, Finnish and British Screening Guidelines in a Cohort of Children with Growth Failure

Author

Stalman, S.E., Hellinga, I., Dommelen, P. van, Hennekam, R.C.M., Saari, A., Sankilampi, U., Dunkel, L., Wit, J.M., Kamp, G.A., and Plötz, F.B.

Subjects
Male, Practice guideline, Height standard deviation score, Child growth, Screening test, Growth disorders, Major clinical study, Height deflection, Life, CH - Child Health, Pediatric hospital, Clinical evaluation, Child, Diagnostic procedure, Finland, Netherlands, Patient referral, United Kingdom, Algorithm, Body height, Short stature, Sensitivity and specificity, Health, Parent, Target height, Assessment of humans, Medical history, Growth monitoring, Female, ELSS - Earth, Life and Social Sciences, Cohort analysis, Healthy for Life, Healthy Living
Abstract

Aims: To evaluate three guidelines for selecting short children for diagnostic workup in a general pediatric clinic. Methods: All patients (n = 131) aged 3.00-9.99 years who were referred for growth failure to a general pediatric clinic were evaluated for their medical history and growth and examined. All of them underwent the same standardized diagnostic workup. Retrospectively, the criteria for the diagnostic workup from three guidelines (proposed in the Netherlands, Finland and the UK) were applied, and their sensitivity was assessed. A Dutch reference sample (n = 958) was used for calculating population specificity. Results: In 23 patients (17.6%), a pathological cause of their growth failure was found. The sensitivity of the original Dutch, Finnish and British guidelines was 73.9, 78.3 and 56.5% and their specificity 98.5, 83.7 and 95.8%, respectively. When adding recent growth deflection to the Dutch guideline, sensitivity increased to 87%, but specificity decreased markedly (to 87%). Conclusion: The proposed cutoff values for height standard deviation score and distance to target height/mid-parental height, as used in the Netherlands and Finland, are effective for population growth monitoring, and superior to the monitoring algorithm in the UK. Growth deflection irrespective of height is an important sign of acquired growth disorders, but its specificity is too low for population screening.

Published
2015

5. A nonsense mutation in B3GALNT2 is concordant with hydrocephalus in Friesian horses

Author

Ducro, B.J., Schurink, A., Bastiaansen, J.W.M., Boegheim, I.J.M., van Steenbeek, F.G., Vos-Loohuis, M., Nijman, I.J., Monroe, G.R., Hellinga, I., Dibbits, B.W., Back, W., Leegwater, P.A.J., Ducro, B.J., Schurink, A., Bastiaansen, J.W.M., Boegheim, I.J.M., van Steenbeek, F.G., Vos-Loohuis, M., Nijman, I.J., Monroe, G.R., Hellinga, I., Dibbits, B.W., Back, W., and Leegwater, P.A.J.

Abstract

Background Hydrocephalus in Friesian horses is a developmental disorder that often results in stillbirth of affected foals and dystocia in dams. The occurrence is probably related to a founder effect and inbreeding in the population. The aim of our study was to find genomic associations, to investigate the mode of inheritance, to allow a DNA test for hydrocephalus in Friesian horses to be developed. In case of a monogenic inheritance we aimed to identify the causal mutation. Results A genome-wide association study of hydrocephalus in 13 cases and 69 controls using 29,720 SNPs indicated the involvement of a region on ECA1 (P T corresponding to XP_001491595 p.Gln475* was identical to a B3GALNT2 mutation identified in a human case of muscular dystrophy-dystroglycanopathy with hydrocephalus. All 16 available cases and none of the controls were homozygous for the mutation, and all 17 obligate carriers (= dams of cases) were heterozygous. A random sample of the Friesian horse population (n¿=¿865) was tested for the mutation in a commercial laboratory. One-hundred and forty-seven horses were carrier and 718 horses were homozygous for the normal allele; the estimated allele frequency in the Friesian horse population is 0.085. Conclusions Hydrocephalus in Friesian horses has an autosomal recessive mode of inheritance. A nonsense mutation XM_001491545 c.1423C>T corresponding to XP_001491595 p.Gln475* in B3GALNT2 (1:75,859,296–75,909,376) is concordant with hydrocephalus in Friesian horses. Application of a DNA test in the breeding programme will reduce the losses caused by hydrocephalus in the Friesian horse population.

Published
2015

10. Genetic correlations of clinical mastitis and feet and legs problems with milk yield and type traits in Dutch Black and White dairy cattle.

Author

Groen, A.F., Hellinga, I., Oldenbroek, J.K., Groen, A.F., Hellinga, I., and Oldenbroek, J.K.

Abstract

Direct selection for decreased disease incidence is difficult given low hsuperscript 2s and the absence of disease recording. Genetic correlations between diseases and type traits indicate possibilities for indirect selection; however, correlations often include experimentally instead of routinely scored type traits. The aim of this study was to estimate genetic correlations of clinical mastitis and feet and legs problems with milk yield and routinely scored type traits in Dutch Black and White [DBW; Dutch Black Pied] cows. From 1983 to 1991, the incidence of diseases was recorded at 44 farms with DBW dairy cattle. Records on 3617 cows sired by 224 bulls were analysed. Heritabilities for milk yield, type traits and diseases were obtained using an equal design multivariate Restricted Maximum Likelihood procedure considering all observations on a continuous scale. A bivariate threshold procedure was used to estimate hsuperscript 2s of diseases and genetic correlations of diseases with milk yield and type traits. Genetic correlations of clinical mastitis and feet and legs problems with milk yield were 0.16 and 0.26 respectively, and hsuperscript 2s for diseases were low 0.01-0.11. Unexpected positive relations between udder type traits and clinical mastitis were found (0.09-0.26), and possible reasons are discussed. Genetic correlations between type traits for feet and legs and problems of the feet and legs were negative -0.01 and -0.24 respectively. Final score for feet and legs could be used as a selection criterion to select to reduce the incidence of feet and legs problems.

Published
1994

12. Development of Hip Bone Geometry During Gender-Affirming Hormone Therapy in Transgender Adolescents Resembles That of the Experienced Gender When Pubertal Suspension Is Started in Early Puberty.

Author

van der Loos MA, Hellinga I, Vlot MC, Klink DT, den Heijer M, and Wiepjes CM

Subjects
Adolescent, Adult, Female, Humans, Infant, Newborn, Male, Puberty, Testosterone, Pelvic Bones, Transgender Persons, Transsexualism
Abstract

Bone geometry can be described in terms of periosteal and endocortical growth and is partly determined by sex steroids. Periosteal and endocortical apposition are thought to be regulated by testosterone and estrogen, respectively. Gender-affirming hormone (GAH) treatment with sex steroids in transgender people might affect bone geometry. However, in adult transgender people, no change in bone geometry during GAH was observed. In this study, we investigated changes in bone geometry among transgender adolescents using a gonadotropin-releasing hormone agonist (GnRHa) and GAH before achieving peak bone mass. Transgender adolescents treated with GnRHa and subsequent GAH before the age of 18 years were eligible for inclusion. Participants were grouped based on their Tanner stage at the start of GnRHa treatment and divided into early, mid, and late puberty groups. Hip structure analysis software calculating subperiosteal width (SPW) and endocortical diameter (ED) was applied to dual-energy X-ray absorptiometry scans performed at the start of GnRHa and GAH treatments, and after ≥2 years of GAH treatment. Mixed-model analyses were performed to study differences over time. Data were visually compared with reference values of the general population. A total of 322 participants were included, of whom 106 were trans women and 216 trans men. In both trans women and trans men, participants resembled the reference curve for SPW and ED of the experienced gender but only when GnRHa was started during early puberty. Those who started during mid and late puberty remained within the reference curve of the gender assigned at birth. A possible explanation might be sought in the phenomenon of programming, which conceptualizes that stimuli during critical windows of development can have major consequences throughout one's life span. Therefore, this study adds insights into sex-specific bone geometry development during puberty of transgender adolescents treated with GnRHa, as well as the general population. © 2021 The Authors. Journal of Bone and Mineral Research published by American Society for Bone and Mineral Research., (© 2021 The Authors. Journal of Bone and Mineral Research published by American Society for Bone and Mineral Research.)

Published
2021
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13. A Newborn Falsely Suspected of Congenital Hypothyroidism due to Mutated Thyroxine-Binding Globulin with Low Binding Affinity.

Author

Hengeveld RCC, Albersen M, Hadders MAH, Hellinga I, Bikker H, Heijboer AC, Paul van Trotsenburg AS, Hillebrand JJ, Boelen A, and Zwaveling-Soonawala N

Subjects
Congenital Hypothyroidism genetics, Diagnostic Errors, Genetic Diseases, X-Linked genetics, High-Throughput Nucleotide Sequencing, Humans, Infant, Newborn, Male, Neonatal Screening, Thyroid Function Tests, Congenital Hypothyroidism diagnosis, Genetic Diseases, X-Linked diagnosis, Mutation, Missense, Thyroxine-Binding Globulin deficiency, Thyroxine-Binding Globulin genetics
Abstract

Introduction: Neonatal screening programs for congenital hypothyroidism (CH) have been implemented worldwide to facilitate early diagnosis and treatment. The Dutch neonatal CH screening is primarily based on the measurement of thyroxine (T4). When T4 is low, an additional thyroxine-binding globulin (TBG) measurement is performed to reduce the number of false-positive screening results due to harmless TBG deficiency. Here, we present a case of a rare functional TBG deficiency leading to a false suspicion of CH., Case Presentation: Neonatal screening in this patient revealed a decreased T4, normal TSH, and normal TBG concentration, suggesting central CH. However, free T4 was normal. DNA sequencing analysis revealed a novel, hemizygous mutation (c.139G>A) in SERPINA7, the gene encoding TBG, resulting in the substitution of the conserved amino acid alanine to threonine at position 27. Crystal structure analyses showed that this substitution has a detrimental effect on binding of T4 to TBG., Conclusions: The novel SERPINA7 variant in this patient led to a false suspicion of central hypothyroidism in the Dutch T4-based neonatal screening program. It is important to recognize patients with such TBG defects to prevent unnecessary additional testing and treatment., (© 2021 The Author(s). Published by S. Karger AG, Basel.)

Published
2021
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14. Dwarfism with joint laxity in Friesian horses is associated with a splice site mutation in B4GALT7.

Author

Leegwater PA, Vos-Loohuis M, Ducro BJ, Boegheim IJ, van Steenbeek FG, Nijman IJ, Monroe GR, Bastiaansen JW, Dibbits BW, van de Goor LH, Hellinga I, Back W, and Schurink A

Subjects
Amino Acid Sequence, Animals, Chromosome Mapping, Female, Genetic Association Studies, Horses, Phenotype, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Dwarfism veterinary, Galactosyltransferases genetics, Horse Diseases genetics, Joint Instability genetics, Mutation, RNA Splice Sites
Abstract

Background: Inbreeding and population bottlenecks in the ancestry of Friesian horses has led to health issues such as dwarfism. The limbs of dwarfs are short and the ribs are protruding inwards at the costochondral junction, while the head and back appear normal. A striking feature of the condition is the flexor tendon laxity that leads to hyperextension of the fetlock joints. The growth plates of dwarfs display disorganized and thickened chondrocyte columns. The aim of this study was to identify the gene defect that causes the recessively inherited trait in Friesian horses to understand the disease process at the molecular level., Results: We have localized the genetic cause of the dwarfism phenotype by a genome wide approach to a 3 Mb region on the p-arm of equine chromosome 14. The DNA of two dwarfs and one control Friesian horse was sequenced completely and we identified the missense mutation ECA14:g.4535550C > T that cosegregated with the phenotype in all Friesians analyzed. The mutation leads to the amino acid substitution p.(Arg17Lys) of xylosylprotein beta 1,4-galactosyltransferase 7 encoded by B4GALT7. The protein is one of the enzymes that synthesize the tetrasaccharide linker between protein and glycosaminoglycan moieties of proteoglycans of the extracellular matrix. The mutation not only affects a conserved arginine codon but also the last nucleotide of the first exon of the gene and we show that it impedes splicing of the primary transcript in cultured fibroblasts from a heterozygous horse. As a result, the level of B4GALT7 mRNA in fibroblasts from a dwarf is only 2 % compared to normal levels. Mutations in B4GALT7 in humans are associated with Ehlers-Danlos syndrome progeroid type 1 and Larsen of Reunion Island syndrome. Growth retardation and ligamentous laxity are common manifestations of these syndromes., Conclusions: We suggest that the identified mutation of equine B4GALT7 leads to the typical dwarfism phenotype in Friesian horses due to deficient splicing of transcripts of the gene. The mutated gene implicates the extracellular matrix in the regular organization of chrondrocyte columns of the growth plate. Conservation of individual amino acids may not be necessary at the protein level but instead may reflect underlying conservation of nucleotide sequence that are required for efficient splicing.

Published
2016
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15. Growth failure in adolescents: etiology, the role of pubertal timing and most useful criteria for diagnostic workup.

Author

Stalman SE, Hellinga I, Wit JM, Hennekam RC, Kamp GA, and Plötz FB

Subjects
Adolescent, Child, Female, Growth Disorders physiopathology, Humans, Male, Time Factors, Body Height, Growth Disorders complications, Puberty, Delayed diagnosis, Puberty, Delayed etiology, Sexual Maturation physiology
Abstract

Background: The aim of the study was to evaluate the etiology, the role of pubertal timing and most useful criteria for diagnostic workup in adolescents with growth failure., Methods: Adolescents (n=182) aged 10.0-18.0 years underwent a standardized diagnostic protocol. Constitutional delay of growth and puberty (CDGP) was defined as late pubertal onset or a Tanner stage less than -2 SDS. Dutch and Finnish criteria for growth monitoring were retrospectively assessed., Results: In 13 children (7.1%) a specific diagnosis could be established. CDGP was diagnosed in 10% of patients aged ≥13 (girls) or ≥14 years (boys). Sensitivity to detect pathologic causes was 85% and 62% for, respectively Dutch and Finnish criteria for growth monitoring as used in younger children, but specificity was low (55%-59%)., Conclusions: In adolescents, pathological causes for growth failure and pubertal delay are common, and we recommend a combination of height SDS, distance to THSDS and growth deflection for deciding on further diagnostic testing.

Published
2016
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16. A nonsense mutation in B3GALNT2 is concordant with hydrocephalus in Friesian horses.

Author

Ducro BJ, Schurink A, Bastiaansen JW, Boegheim IJ, van Steenbeek FG, Vos-Loohuis M, Nijman IJ, Monroe GR, Hellinga I, Dibbits BW, Back W, and Leegwater PA

Subjects
Alleles, Animals, Breeding, Exons, Female, Genome-Wide Association Study, Horses, Humans, Hydrocephalus pathology, Inbreeding, Polymorphism, Single Nucleotide, Pregnancy, Codon, Nonsense genetics, Horse Diseases genetics, Hydrocephalus genetics, N-Acetylgalactosaminyltransferases genetics
Abstract

Background: Hydrocephalus in Friesian horses is a developmental disorder that often results in stillbirth of affected foals and dystocia in dams. The occurrence is probably related to a founder effect and inbreeding in the population. The aim of our study was to find genomic associations, to investigate the mode of inheritance, to allow a DNA test for hydrocephalus in Friesian horses to be developed. In case of a monogenic inheritance we aimed to identify the causal mutation., Results: A genome-wide association study of hydrocephalus in 13 cases and 69 controls using 29,720 SNPs indicated the involvement of a region on ECA1 (P <1.68 × 10(-6)). Next generation DNA sequence analysis of 4 cases and 6 controls of gene exons within the region revealed a mutation in β-1,3-N-acetylgalactosaminyltransferase 2 (B3GALNT2) as the likely cause of hydrocephalus in Friesian horses. The nonsense mutation XM&#95;001491545 c.1423C>T corresponding to XP&#95;001491595 p.Gln475* was identical to a B3GALNT2 mutation identified in a human case of muscular dystrophy-dystroglycanopathy with hydrocephalus. All 16 available cases and none of the controls were homozygous for the mutation, and all 17 obligate carriers (= dams of cases) were heterozygous. A random sample of the Friesian horse population (n = 865) was tested for the mutation in a commercial laboratory. One-hundred and forty-seven horses were carrier and 718 horses were homozygous for the normal allele; the estimated allele frequency in the Friesian horse population is 0.085., Conclusions: Hydrocephalus in Friesian horses has an autosomal recessive mode of inheritance. A nonsense mutation XM&#95;001491545 c.1423C>T corresponding to XP&#95;001491595 p.Gln475* in B3GALNT2 (1:75,859,296-75,909,376) is concordant with hydrocephalus in Friesian horses. Application of a DNA test in the breeding programme will reduce the losses caused by hydrocephalus in the Friesian horse population.

Published
2015
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17. Application of the Dutch, Finnish and British Screening Guidelines in a Cohort of Children with Growth Failure.

Author

Stalman SE, Hellinga I, van Dommelen P, Hennekam RC, Saari A, Sankilampi U, Dunkel L, Wit JM, Kamp GA, and Plötz FB

Subjects
Child, Child, Preschool, Female, Finland, Humans, Male, Netherlands, Practice Guidelines as Topic, Retrospective Studies, Sensitivity and Specificity, United Kingdom, Body Height physiology, Child Development physiology, Failure to Thrive diagnosis, Growth Disorders diagnosis
Abstract

Aims: To evaluate three guidelines for selecting short children for diagnostic workup in a general pediatric clinic., Methods: All patients (n = 131) aged 3.00-9.99 years who were referred for growth failure to a general pediatric clinic were evaluated for their medical history and growth and examined. All of them underwent the same standardized diagnostic workup. Retrospectively, the criteria for the diagnostic workup from three guidelines (proposed in the Netherlands, Finland and the UK) were applied, and their sensitivity was assessed. A Dutch reference sample (n = 958) was used for calculating population specificity., Results: In 23 patients (17.6%), a pathological cause of their growth failure was found. The sensitivity of the original Dutch, Finnish and British guidelines was 73.9, 78.3 and 56.5% and their specificity 98.5, 83.7 and 95.8%, respectively. When adding recent growth deflection to the Dutch guideline, sensitivity increased to 87%, but specificity decreased markedly (to 87%)., Conclusion: The proposed cutoff values for height standard deviation score and distance to target height/mid-parental height, as used in the Netherlands and Finland, are effective for population growth monitoring, and superior to the monitoring algorithm in the UK. Growth deflection irrespective of height is an important sign of acquired growth disorders, but its specificity is too low for population screening., (© 2015 S. Karger AG, Basel.)

Published
2015
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18. [A toddler with traumatic brain injury].

Author

Fiolet AT, Hellinga I, and Han KS

Subjects
Glasgow Coma Scale, Humans, Infant, Male, Treatment Outcome, Accidental Falls, Brain Injuries diagnosis, Skull Fractures complications, Skull Fractures surgery
Abstract

A 14-month-old boy presented with a haematoma and an oedematous swelling in the left parieto-occipital region after sustaining a fall from 3 meters. CT images of the brain showed a multifragmentary fracture in the parietotemporal region. Because the swelling progressed during admission, an MRI of the brain was performed, which revealed extrusion of brain tissue through a skull defect into the subgaleal space. Resultantly, the diagnosis of 'cranial burst fracture' was established. After neurosurgical resection and dural repair, the boy was discharged from the hospital without neurological symptoms.

Published
2013

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