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中华神经创伤外科电子杂志

中华神经创伤外科电子杂志 ›› 2023, Vol. 09 ›› Issue (05) : 313 -317. doi: 10.3877/cma.j.issn.2095-9141.2023.05.010

综述

儿童去骨瓣减压术后颅骨成形术的研究进展
冷昭富, 汪永新()   
  1. 830000 乌鲁木齐,新疆医科大学第一附属医院神经外科中心
  • 收稿日期:2022-11-14 出版日期:2023-10-15
  • 通信作者: 汪永新

Research progress of pediatric cranioplasty after decompressive craniectomy

Zhaofu Leng, Yongxin Wang()   

  1. Neurosurgical Center, The First Affiliated Hospital of Xinjiang Medical University, Urumqi 830000, China
  • Received:2022-11-14 Published:2023-10-15
  • Corresponding author: Yongxin Wang
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冷昭富, 汪永新. 儿童去骨瓣减压术后颅骨成形术的研究进展[J]. 中华神经创伤外科电子杂志, 2023, 09(05): 313-317.

Zhaofu Leng, Yongxin Wang. Research progress of pediatric cranioplasty after decompressive craniectomy[J]. Chinese Journal of Neurotraumatic Surgery(Electronic Edition), 2023, 09(05): 313-317.

去骨瓣减压术后因颅骨缺损往往需要行二期颅骨成形术。成人颅骨成形术在临床中已广泛应用,且技术成熟,疗效确切。儿童颅脑由于其特殊的生长发育特性,颅骨成形术相对于成人更具有挑战性:一方面,自体骨颅骨成形术有较高的骨吸收率,面临再次翻修的高风险;另一方面,儿童颅骨的动态生长特性限制了其异体材料的使用,且术后有一定的并发症风险。目前关于儿童颅骨成形术的文献报道相对较少,也尚无明确的指南来指导修补时间和修补材料的选择等。本文主要从儿童颅脑发育、术前颅骨缺损面积、修复材料、修复时间选择及其相关并发症等方面作一综述,分析和总结目前儿童颅骨成形术的研究现状,并为其临床诊疗和进一步探索提供方向。

关键词: 去骨瓣减压术, 颅骨成形术, 颅骨发育, 自体骨, 钛网, 聚醚醚酮, 儿童

After decompressive craniectomy, secondary cranioplasty is often required due to skull defects. Adult cranioplasty has been widely used in clinical practice, with mature technology and definite therapeutic effects. Due to its unique growth and developmental characteristics, cranioplasty in children is more challenging compared to adults. On the one hand, autologous bone cranioplasty has a higher bone absorption rate and faces a high risk of re revision; on the other hand, the dynamic growth characteristics of children's skulls limit the use of their allogeneic materials, and there is a certain risk of postoperative complications. At present, there are relatively few literature reports on pediatric cranioplasty, and there is no clear guide to guide the selection of repair time and materials. This article mainly reviews the development of children's brain, preoperative skull defect area, repair materials, repair time selection, and related complications. It analyzes and summarizes the current research status of pediatric cranioplasty, and provides direction for its clinical diagnosis, treatment, and further exploration.

Key words: Decompressive craniectomy, Pediatric cranioplasty, Skull growth, Autologous bone, Titanium mesh, Polyetheretherketone, Children
[1]
Beez T, Munoz-Bendix C, Ahmadi SA, et al. From decompressive craniectomy to cranioplasty and beyond-a pediatric neurosurgeryperspective[J]. Childs Nerv Syst, 2019, 35(9): 1517-1524. DOI: 10.1007/s00381-019-04303-z.
[2]
Hou HD, Liu M, Gong KR, et al. Growth of the skull in young children in Baotou, China[J]. Childs Nerv Syst, 2014, 30(9): 1511-1515. DOI: 10.1007/s00381-014-2468-6.
[3]
Geoffroy M, François PM, Khonsari RH, et al. Paediatric skull growth models: a systematic review of applications to normal skulls and craniosynostoses[J]. J Stomatol Oral Maxillofac Surg, 2022, 123(5): e533-e543. DOI: 10.1016/j.jormas.2022.01.002.
[4]
Göttsche J, Fritzsche F, Kammler G, et al. A comparison between pediatric and adult patients after cranioplasty: aseptic bone resorption causes earlier revision in children[J]. Neurol Surg A Cent Eur Neurosurg, 2020, 81(3): 227-232. DOI: 10.1055/s-0039-1698391.
[5]
Westropp CK, Barber CR. Growth of the skull in young children. I. Standards of head circumference[J]. Neurol Neurosurg Psychiatry, 1956, 19(1): 52-54. DOI: 10.1136/jnnp.19.1.52.
[6]
Barber CR, Hewitt D. Growth of the skull in young children. II. Changes in head shape[J]. Neurol Neurosurg Psychiatry, 1956, 19(1): 54-56. DOI: 10.1136/jnnp.19.1.54.
[7]
周昊, 吉瑶, 赵志军, 等. 儿童颅骨发育的研究进展[J]. 临床神经外科杂志, 2019, 16(4): 367-369. DOI: 10.3969/j.issn.1672-7770.2019.04.019.
[8]
Frassanito P, Bianchi F, Pennisi G, et al. The growth of the neurocranium: literature review and implications in cranial repair[J]. Childs Nerv Syst, 2019, 35(9): 1459-1465. DOI: 10.1007/s00381-019-04193-1.
[9]
童康强, 张春阳. 头颅CT三维重建测量正常儿童颅腔的研究[J]. 中国临床神经外科杂志, 2020, 25(8): 517-520. DOI: 10.13798/j.issn.1009-153X.2020.08.007.
[10]
Behbahani M, Rosenberg DM, Rosinski CL, et al. Cranioplasty in infants less than 24 months of age: a retrospective case review of pitfalls, outcomes, and complications[J]. World Neurosurg, 2019, 132: e479-e486. DOI: 10.1016/j.wneu.2019.08.106.
[11]
中华神经外科学会神经创伤专业组. 颅脑创伤去骨瓣减压术中国专家共识[J]. 中华神经创伤外科电子杂志, 2015, 1(2): 6-8. DOI: 10.3877/cma.j.issn.2095-9141.2015.02.003.
[12]
孙新林, 王继辉, 黄敏, 等. 聚醚醚酮与钛网在去骨瓣减压术后颅骨成形术中临床应用效果的单中心回顾性研究[J]. 中华神经医学杂志, 2018, 17(8): 825-830. DOI: 10.3760/cma.j.issn.1671-8925.2018.08.012.
[13]
Taggard DA, Menezes AH. Successful use of rib grafts for cranioplasty in children[J]. Pediatr Neurosurg, 2001, 34(3): 149-155. DOI: 10.1159/000056010.
[14]
Grant GA, Jolley M, Ellenbogen RG, et al. Failure of autologous bone-assisted cranioplasty following decompressive craniectomy in children and adolescents[J]. Neurosurg, 2004, 100(2 Suppl Pediatrics): 163-168. DOI: 10.3171/ped.2004.100.2.0163.
[15]
Greene AK, Mulliken JB, Proctor MR, et al. Pediatric cranioplasty using particulate calvarial bone graft[J]. Plast Reconstr Surg, 2008, 122(2): 563-571. DOI: 10.1097/PRS.0b013e31817d61c1.
[16]
杨玲, 张宇强, 侯俊, 等. 小儿颅骨缺损早期修补术26例[J]. 临床小儿外科杂志, 2015, 14(4): 341-342, 346. DOI: 10.3969/j.issn.1671-6353.2015.04.027.
[17]
Williams L, Fan K, Bentley R. Titanium cranioplasty in children and adolescents[J]. J Craniomaxillofac Surg, 2016, 44(7): 789-794. DOI: 10.1016/j.jcms.2016.03.010.
[18]
Fu KJ, Barr RM, Kerr ML, et al. An outcomes comparison between autologous and alloplastic cranioplasty in the pediatric population[J]. J Craniofac Surg, 2016, 27(3): 593-597. DOI: 10.1097/SCS.0000000000002491.
[19]
陈拓宇, 张玉琪, 崔福斋, 等. 仿生骨材料行儿童颅骨缺损修补的临床研究[J]. 中华神经外科杂志, 2016, 32(4): 353-357. DOI: 10.3760/cma.j.issn.1001-2346.2016.04.008.
[20]
Ma IT, Symon MR, Bristol RE, et al. Outcomes of titanium mesh cranioplasty in pediatric patients[J]. J Craniofac Surg, 2018, 29(1): 99-104. DOI: 10.1097/SCS.0000000000004045.
[21]
Sheng HS, Shen F, Zhang N, et al. Titaniummesh cranioplasty in pediatric patients after decompressive craniectomy: appropriate timing for pre-schoolers and early school age children[J]. J Craniomaxillofac Surg, 2019, 47(7): 1096-1103. DOI: 10.1016/j.jcms.2019.04.009.
[22]
Koenig WJ, Donovan JM, Pensler JM. Cranial bone grafting in children[J]. Plast Reconstr Surg, 1995, 95(1): 1-4. DOI: 10.1097/00006534-199501000-00001.
[23]
Vercler CJ, Sugg KB, Buchman SR. Split cranial bone grafting in children younger than 3 years old: debunking a surgical myth[J]. Plast Reconstr Surg, 2014, 133(6): 822e-827e. DOI: 10.1097/PRS.0000000000000222.
[24]
Hersh DS, Anderson HJ, Woodworth GF, et al. Bone flap resorption in pediatric patients following autologous cranioplasty[J]. Oper Neurosurg (Hagerstown), 2021, 20(5): 436-443. DOI: 10.1093/ons/opaa452.
[25]
李会兵, 李永事, 李锐祥, 等. 3D打印引导聚醚醚酮在儿童颅骨缺损的应用[J]. 中国微侵袭神经外科杂志, 2021, 26(6): 272-273. DOI: 10.11850/j.issn.1009-122X.2021.06.010.
[26]
吴水华, 陈朝晖, 范双石, 等. 个性化聚醚醚酮植入物在儿童颅骨修补术中的临床应用及分析[J]. 中华神经创伤外科电子杂志, 2021, 7(4): 252-255. DOI: 10.3877/cma.j.issn.2095-9141.2021.04.012.
[27]
周剑云, 张新, 高海滨, 等. 聚醚醚酮与钛网治疗去骨瓣减压术后颅骨缺损效果的对比分析[J]. 中国微侵袭神经外科杂志, 2021, 26(1): 7-10. DOI: 10.11850/j.issn.1009-122X.2021.01.002.
[28]
Yeap MC, Tu PH, Liu ZH, et al. Long-term complications of cranioplasty using stored autologous bone graft, three-dimensional polymethyl methacrylate, or titanium mesh after decompressive craniectomy: a single-center experience after 596 procedures[J]. World Neurosurg, 2019, 128: e841-e850. DOI: 10.1016/j.wneu.2019.05.005.
[29]
Nam HH, Ki HJ, Lee HJ, et al. Complications of cranioplasty following decompressive craniectomy: risk factors of complications and comparison between autogenous and artificial bones[J]. Korean J Neurotrauma, 2022, 18(2): 238-245. DOI: 10.13004/kjnt.2022.18.e40.
[30]
Shie CSM, Antony D, Thien A. Outcomes and associated complications of cranioplasty following craniectomy in Brunei Darussalam[J]. Asian J Neurosurg, 2022, 17(3): 423-428. DOI: 10.1055/s-0042-1751007.
[31]
Abu-Ghname A, Banuelos J, Oliver JD, et al. Outcomes and complications of pediatric cranioplasty: a systematic review[J]. Plast Reconstr Surg, 2019, 144(3): 433e-443e. DOI: 10.1097/PRS.0000000000005933.
[32]
Piedra MP, Thompson EM, Selden NR, et al. Optimal timing of autologous cranioplasty after decompressive craniectomy in children[J]. Neurosurg Pediatr, 2012, 10(4): 268-272. DOI: 10.3171/2012.6.PEDS1268.
[33]
Martin KD, Franz B, Kirsch M, et al. Autologous bone flap cranioplasty following decompressive craniectomy is combined with a high complication rate in pediatric traumatic brain injury patients[J]. Acta Neurochir (Wien), 2014, 156(4): 813-824. DOI: 10.1007/s00701-014-2021-0.
[34]
Rocque BG, Agee BS, Thompson EM, et al. Complications following pediatric cranioplasty after decompressive craniectomy: a multicenter retrospective study[J]. J Neurosurg Pediatr, 2018, 22(3): 225-232. DOI: 10.3171/2018.3.PEDS17234.
[35]
Josan VA, Sgouros S, Walsh AR, et al. Cranioplasty in children[J]. Childs Nerv Syst, 2005, 21(3): 200-204. DOI: 10.1007/s00381-004-1068-2.
[36]
Bowers CA, McMullin JH, Brimley C, et al. Minimizing bone gaps when using custom pediatric cranial implants is associated with implant success[J]. J Neurosurg Pediatr, 2015, 16(4): 439-444. DOI: 10.3171/2015.2.PEDS14536.
[37]
Fiaschi P, Pavanello M, Imperato A, et al. Surgical results of cranioplasty with a polymethylmethacrylate customized cranial implant in pediatric patients: a single-center experience[J]. Neurosurg Pediatr, 2016, 17(6): 705-710. DOI: 10.3171/2015.10.PEDS15489.
[38]
Blum KS, Schneider SJ, Rosenthal AD. Methyl methacrylate cranioplasty in children: long-term results[J]. Pediatr Neurosurg, 1997, 26(1): 33-35. DOI: 10.1159/000121158.
[39]
Waqas M, Ujjan B, Hadi YB, et al. Cranioplasty after craniectomy in a pediatric population: single-cente experience from a developing country[J]. Pediatr Neurosurg, 2017, 52(2): 77-79. DOI: 10.1159/000452808.
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