Growth Curves for Intracranial Volume and Two-dimensional Parameters for Japanese Children without Cranial Abnormality: Toward Treatment of Craniosynostosis
In the management of patients with craniosynostosis, it is important to understand growth curve of the normal cranium. Although three-dimensional (3D) computed tomography (CT) images taken in thin slices are easily available nowadays, data on the growth curves of intracranial volume (ICV), cranial l...
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| Published in | Neurologia medico-chirurgica Vol. 62; no. 2; pp. 89 - 96 |
|---|---|
| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Japan
The Japan Neurosurgical Society
2022
THE JAPAN NEUROSURGICAL SOCIETY Japan Science and Technology Agency |
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| Online Access | Get full text |
| ISSN | 0470-8105 1349-8029 1349-8029 |
| DOI | 10.2176/nmc.oa.2021-0208 |
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| Abstract | In the management of patients with craniosynostosis, it is important to understand growth curve of the normal cranium. Although three-dimensional (3D) computed tomography (CT) images taken in thin slices are easily available nowadays, data on the growth curves of intracranial volume (ICV), cranial length, cranial width, and cranial height in the normal cranium are mainly based on older studies using radiography, and there are insufficient reports using CT images especially taken in thin slices. The purpose of this study was to establish growth curves in the normal cranium of Japanese children using thin-slice images. Cranial images of 106 subjects (57 males, 49 females; aged 0–83 months) without significant cranial abnormalities were retrospectively analyzed. Using thin-slice CT images, the ICV and two-dimensional parameters such as cranial length, cranial width, and cranial height were measured by iPlan, followed by generating growth curves and calculating cephalic index (CI). ICV calculated from thin-slice CT images was compared with that obtained by substituting two-dimensional parameters into Mackinnon formula. The ICV growth curves for males and females were similar in shape. As with the ICV, the two-dimensional parameters increased most rapidly in the first year after birth. There was no significant difference in CI between the sexes or among any age groups. ICV calculated from thin-slice 3D CT images was 60% of that obtained from Mackinnon formula. These data will enable us to compare these specific measurements in craniosynostosis patients directly with those of normal children, which will hopefully help in managing these patients. |
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| AbstractList | [Abstract] In the management of patients with craniosynostosis, it is important to understand growth curve of the normal cranium. Although three-dimensional (3D) computed tomography (CT) images taken in thin slices are easily available nowadays, data on the growth curves of intracranial volume (ICV), cranial length, cranial width, and cranial height in the normal cranium are mainly based on older studies using radiography, and there are insufficient reports using CT images especially taken in thin slices. The purpose of this study was to establish growth curves in the normal cranium of Japanese children using thin-slice images. Cranial images of 106 subjects (57 males, 49 females; aged 0-83 months) without significant cranial abnormalities were retrospectively analyzed. Using thin-slice CT images, the ICV and two-dimensional parameters such as cranial length, cranial width, and cranial height were measured by iPlan, followed by generating growth curves and calculating cephalic index (CI). ICV calculated from thin-slice CT images was compared with that obtained by substituting two-dimensional parameters into Mackinnon formula. The ICV growth curves for males and females were similar in shape. As with the ICV, the two-dimensional parameters increased most rapidly in the first year after birth. There was no significant difference in CI between the sexes or among any age groups. ICV calculated from thin-slice 3D CT images was 60% of that obtained from Mackinnon formula. These data will enable us to compare these specific measurements in craniosynostosis patients directly with those of normal children, which will hopefully help in managing these patients. In the management of patients with craniosynostosis, it is important to understand growth curve of the normal cranium. Although three-dimensional (3D) computed tomography (CT) images taken in thin slices are easily available nowadays, data on the growth curves of intracranial volume (ICV), cranial length, cranial width, and cranial height in the normal cranium are mainly based on older studies using radiography, and there are insufficient reports using CT images especially taken in thin slices. The purpose of this study was to establish growth curves in the normal cranium of Japanese children using thin-slice images. Cranial images of 106 subjects (57 males, 49 females; aged 0–83 months) without significant cranial abnormalities were retrospectively analyzed. Using thin-slice CT images, the ICV and two-dimensional parameters such as cranial length, cranial width, and cranial height were measured by iPlan, followed by generating growth curves and calculating cephalic index (CI). ICV calculated from thin-slice CT images was compared with that obtained by substituting two-dimensional parameters into Mackinnon formula. The ICV growth curves for males and females were similar in shape. As with the ICV, the two-dimensional parameters increased most rapidly in the first year after birth. There was no significant difference in CI between the sexes or among any age groups. ICV calculated from thin-slice 3D CT images was 60% of that obtained from Mackinnon formula. These data will enable us to compare these specific measurements in craniosynostosis patients directly with those of normal children, which will hopefully help in managing these patients. |
| ArticleNumber | oa.2021-0208 |
| Author | KAWAUCHI, Satoshi DATE, Isao SENOO, Takaya TOMITA, Yousuke SUGAHARA, Chiaki YABUNO, Satoru HOSOMOTO, Kakeru KAMEDA, Masahiro SASAKI, Tatsuya TOKUYAMA, Eijiro OKAZAKI, Yosuke YASUHARA, Takao |
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| Copyright | 2022 The Japan Neurosurgical Society 2022. This work is published under https://creativecommons.org/licenses/by-nc-nd/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2022 The Japan Neurosurgical Society 2022 |
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| Keywords | cranial height cranial breadth intracranial volume cranial length normal cranial morphology of Japanese children |
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| References | 20) Kuwahara K, Hikosaka M, Takamatsu A, et al.: Average models and 3-dimensional growth patterns of the healthy infant cranium. Plast Reconstr Surg Glob Open 8: e3032, 2020 23) Yamauchi-Kawaura C, Fujii K, Akahane K, et al.: Development of age-specific Japanese head phantoms for dose evaluation in paediatric head CT examinations. Radiat Prot Dosimetry 163: 188–201, 2015 2) Fata JJ, Turner MS: The reversal exchange technique of total calvarial reconstruction for sagittal synostosis. Plast Reconstr Surg 107: 1637–1646, 2001 3) Ghali GZ, Zaki Ghali MG, Ghali EZ, et al.: Intracranial venous hypertension in craniosynostosis: mechanistic underpinnings and therapeutic implications. World Neurosurg 127: 549–558, 2019 16) Takamatsu A, Hikosaka M, Kaneko T, Mikami M, Kaneko A: Evaluation of the molding helmet therapy for Japanese infants with deformational plagiocephaly. JMA J 4: 50–60, 2021 6) Guimarães-Ferreira J, Gewalli F, David L, Olsson R, Friede H, Lauritzen CG: Spring-mediated cranioplasty compared with the modified pi-plasty for sagittal synostosis. Scand J Plast Reconstr Surg Hand Surg 37: 208–215, 2003 4) Senoo T, Tokuyama E, Yamada K, Kimata Y: Determination of reference values for normal cranial morphology by using mid-sagittal vector analysis in Japanese children. J Plast Reconstr Aesthet Surg 71: 670–680, 2018 8) Kameda M, Tokuyama E, Senoo T, Date I: Morphological improvement after multi-directional cranial distraction osteogenesis (MCDO) procedure for syndromic craniosynostosis. Neurosurg Focus Video FOCVID 4: V17, 2021 19) Rogers GF: Deformational plagiocephaly, brachycephaly, and scaphocephaly. Part II: prevention and treatment. J Craniofac Surg 22: 17–23, 2011 22) Likus W, Bajor G, Gruszczyn´ska K, et al.: Cephalic index in the first three years of life: study of children with normal brain development based on computed tomography. ScientificWorldJournal 2014, 502836, 2014. 26) Matsui C, Tokuyama E, Senoo T, et al.: Utilization of a simple surgical guide for multidirectional cranial distraction osteogenesis in craniosynostosis. Plast Reconstr Surg Glob Open 8: e2797, 2020 12) Kamdar MR, Gomez RA, Ascherman JA: Intracranial volumes in a large series of healthy children. Plast Reconstr Surg 124: 2072–2075, 2009 17) Mackinnon IL, Kennedy JA, Davis TV: The estimation of skull capacity from roentgenologic measurements. Am J Roentgenol Radium Ther Nucl Med 76: 303–310, 1956 15) Koizumi T, Komuro Y, Hashizume K, Yanai A: Cephalic index of Japanese children with normal brain development. J Craniofac Surg 21: 1434–1437, 2010 10) Sgouros S, Hockley AD, Goldin JH, Wake MJ, Natarajan K: Intracranial volume change in craniosynostosis. J Neurosurg 91: 617–625, 1999 11) Abbott AH, Netherway DJ, Niemann DB, et al.: CT-determined intracranial volume for a normal population. J Craniofac Surg 11: 211–223, 2000 7) Marcus JR, Domeshek LF, Loyd AM, et al.: Use of a three-dimensional, normative database of pediatric craniofacial morphology for modern anthropometric analysis. Plast Reconstr Surg 124: 2076–2084, 2009 21) Waitzman AA, Posnick JC, Armstrong DC, Pron GE: Craniofacial skeletal measurements based on computed tomography: Part II. Normal values and growth trends. Cleft Palate Craniofac J 29: 118–128, 1992 14) Kim YS, Park IS, Kim HJ, Kim D, Lee NJ, Rhyu IJ: Changes in intracranial volume and cranial shape in modern Koreans over four decades. Am J Phys Anthropol 166: 753–759, 2018 18) Gordon IRS: Measurement of cranial capacity in children. Br J Radiol 39: 377–381, 1966 5) Panchal J, Marsh JL, Park TS, Kaufman B, Pilgram T, Huang SH: Sagittal craniosynostosis outcome assessment for two methods and timings of intervention. Plast Reconstr Surg 103: 1574–1584, 1999 9) Sgouros S, Goldin JH, Hockley AD, Wake MJ, Natarajan K: Intracranial volume change in childhood. J Neurosurg 91: 610–616, 1999 13) Kamochi H, Sunaga A, Chi D, et al.: Growth curves for intracranial volume in normal Asian children fortify management of craniosynostosis. J Craniomaxillofac Surg 45: 1842–1845, 2017 1) Rijken BF, den Ottelander BK, van Veelen ML, Lequin MH, Mathijssen IM: The occipitofrontal circumference: reliable prediction of the intracranial volume in children with syndromic and complex craniosynostosis. Neurosurg Focus 38: E9, 2015 24) Derderian CA, Wink JD, McGrath JL, Collinsworth A, Bartlett SP, Taylor JA: Volumetric changes in cranial vault expansion: comparison of fronto-orbital advancement and posterior cranial vault distraction osteogenesis. Plast Reconstr Surg 135: 1665–1672, 2015 25) Komuro Y, Shimizu A, Shimoji K, Miyajima M, Arai H: Posterior cranial vault distraction osteogenesis with barrel stave osteotomy in the treatment of craniosynostosis. Neurol Med Chir (Tokyo) 55: 617–623, 2015 22 23 24 25 26 10 11 12 13 14 15 16 17 18 19 1 2 3 4 5 6 7 8 9 20 21 |
| References_xml | – reference: 6) Guimarães-Ferreira J, Gewalli F, David L, Olsson R, Friede H, Lauritzen CG: Spring-mediated cranioplasty compared with the modified pi-plasty for sagittal synostosis. Scand J Plast Reconstr Surg Hand Surg 37: 208–215, 2003 – reference: 24) Derderian CA, Wink JD, McGrath JL, Collinsworth A, Bartlett SP, Taylor JA: Volumetric changes in cranial vault expansion: comparison of fronto-orbital advancement and posterior cranial vault distraction osteogenesis. Plast Reconstr Surg 135: 1665–1672, 2015 – reference: 2) Fata JJ, Turner MS: The reversal exchange technique of total calvarial reconstruction for sagittal synostosis. Plast Reconstr Surg 107: 1637–1646, 2001 – reference: 12) Kamdar MR, Gomez RA, Ascherman JA: Intracranial volumes in a large series of healthy children. Plast Reconstr Surg 124: 2072–2075, 2009 – reference: 17) Mackinnon IL, Kennedy JA, Davis TV: The estimation of skull capacity from roentgenologic measurements. Am J Roentgenol Radium Ther Nucl Med 76: 303–310, 1956 – reference: 10) Sgouros S, Hockley AD, Goldin JH, Wake MJ, Natarajan K: Intracranial volume change in craniosynostosis. J Neurosurg 91: 617–625, 1999 – reference: 4) Senoo T, Tokuyama E, Yamada K, Kimata Y: Determination of reference values for normal cranial morphology by using mid-sagittal vector analysis in Japanese children. J Plast Reconstr Aesthet Surg 71: 670–680, 2018 – reference: 14) Kim YS, Park IS, Kim HJ, Kim D, Lee NJ, Rhyu IJ: Changes in intracranial volume and cranial shape in modern Koreans over four decades. Am J Phys Anthropol 166: 753–759, 2018 – reference: 9) Sgouros S, Goldin JH, Hockley AD, Wake MJ, Natarajan K: Intracranial volume change in childhood. J Neurosurg 91: 610–616, 1999 – reference: 19) Rogers GF: Deformational plagiocephaly, brachycephaly, and scaphocephaly. Part II: prevention and treatment. J Craniofac Surg 22: 17–23, 2011 – reference: 25) Komuro Y, Shimizu A, Shimoji K, Miyajima M, Arai H: Posterior cranial vault distraction osteogenesis with barrel stave osteotomy in the treatment of craniosynostosis. Neurol Med Chir (Tokyo) 55: 617–623, 2015 – reference: 13) Kamochi H, Sunaga A, Chi D, et al.: Growth curves for intracranial volume in normal Asian children fortify management of craniosynostosis. J Craniomaxillofac Surg 45: 1842–1845, 2017 – reference: 21) Waitzman AA, Posnick JC, Armstrong DC, Pron GE: Craniofacial skeletal measurements based on computed tomography: Part II. Normal values and growth trends. Cleft Palate Craniofac J 29: 118–128, 1992 – reference: 26) Matsui C, Tokuyama E, Senoo T, et al.: Utilization of a simple surgical guide for multidirectional cranial distraction osteogenesis in craniosynostosis. Plast Reconstr Surg Glob Open 8: e2797, 2020 – reference: 11) Abbott AH, Netherway DJ, Niemann DB, et al.: CT-determined intracranial volume for a normal population. J Craniofac Surg 11: 211–223, 2000 – reference: 3) Ghali GZ, Zaki Ghali MG, Ghali EZ, et al.: Intracranial venous hypertension in craniosynostosis: mechanistic underpinnings and therapeutic implications. World Neurosurg 127: 549–558, 2019 – reference: 7) Marcus JR, Domeshek LF, Loyd AM, et al.: Use of a three-dimensional, normative database of pediatric craniofacial morphology for modern anthropometric analysis. Plast Reconstr Surg 124: 2076–2084, 2009 – reference: 23) Yamauchi-Kawaura C, Fujii K, Akahane K, et al.: Development of age-specific Japanese head phantoms for dose evaluation in paediatric head CT examinations. Radiat Prot Dosimetry 163: 188–201, 2015 – reference: 5) Panchal J, Marsh JL, Park TS, Kaufman B, Pilgram T, Huang SH: Sagittal craniosynostosis outcome assessment for two methods and timings of intervention. Plast Reconstr Surg 103: 1574–1584, 1999 – reference: 8) Kameda M, Tokuyama E, Senoo T, Date I: Morphological improvement after multi-directional cranial distraction osteogenesis (MCDO) procedure for syndromic craniosynostosis. Neurosurg Focus Video FOCVID 4: V17, 2021 – reference: 22) Likus W, Bajor G, Gruszczyn´ska K, et al.: Cephalic index in the first three years of life: study of children with normal brain development based on computed tomography. ScientificWorldJournal 2014, 502836, 2014. – reference: 1) Rijken BF, den Ottelander BK, van Veelen ML, Lequin MH, Mathijssen IM: The occipitofrontal circumference: reliable prediction of the intracranial volume in children with syndromic and complex craniosynostosis. Neurosurg Focus 38: E9, 2015 – reference: 15) Koizumi T, Komuro Y, Hashizume K, Yanai A: Cephalic index of Japanese children with normal brain development. J Craniofac Surg 21: 1434–1437, 2010 – reference: 16) Takamatsu A, Hikosaka M, Kaneko T, Mikami M, Kaneko A: Evaluation of the molding helmet therapy for Japanese infants with deformational plagiocephaly. JMA J 4: 50–60, 2021 – reference: 18) Gordon IRS: Measurement of cranial capacity in children. Br J Radiol 39: 377–381, 1966 – reference: 20) Kuwahara K, Hikosaka M, Takamatsu A, et al.: Average models and 3-dimensional growth patterns of the healthy infant cranium. 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| Snippet | In the management of patients with craniosynostosis, it is important to understand growth curve of the normal cranium. Although three-dimensional (3D) computed... [Abstract] In the management of patients with craniosynostosis, it is important to understand growth curve of the normal cranium. Although three-dimensional... |
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| SubjectTerms | Birth defects Child Child, Preschool Children Computed tomography cranial breadth cranial height cranial length Cranial sutures Craniosynostoses - diagnostic imaging Craniosynostosis Female Growth curves Humans Infant Infant, Newborn intracranial volume Japan Male normal cranial morphology of Japanese children Original Patients Radiography Retrospective Studies Skull Skull - diagnostic imaging Tomography, X-Ray Computed - methods |
| Title | Growth Curves for Intracranial Volume and Two-dimensional Parameters for Japanese Children without Cranial Abnormality: Toward Treatment of Craniosynostosis |
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