Комплексная Лучевая Диагностика Гидроцефалий У Детей (Обзор Литературы)
Keywords:
дети, гидроцефалия, нейросонография, компьютерная томография, магнитно-резонансная томография
Abstract
Актуальность проблемы диагностики и лечения гидроцефалий у детей остаётся важной социально-медицинской проблемой ввиду распространенности патологических состояний в популяции, тяжелых проявлениями заболевания и низкой эффективности применяемых методов лечения. В настоящее время для диагностики гидроцефалии используется широкий спектр инструментальных методов исследования. Возможность ранней неинвазивной диагностики гидроцефалии появилась благодаря активному внедрению в клиническую практику компьютерной томографии (КТ), магнитно-резонансной томографии (МРТ), ультразвуковых методов исследования, в частности, нейросонографии (НСГ) и транскраниальной допплерографии (ТКДГ) сосудов головного мозга.
References
1. Varagur K, Sanka SA, Strahle JM. Syndromic hydrocephalus. Neurosurg Clin N Am. 2022; 33(1):67–79.
2. Duy PQ, Rakic P, Alper SL, Butler WE, Walsh CA, Sestan N, Geschwind DH, Jin SC, Kahle KT. Brain ventricles as windows into brain development and disease. Neuron. 2022; 110(1):12–5.
3. Hale AT, Bastarache L, Morales DM, Wellons JC 3rd, Limbrick DD Jr, Gamazon ER. Multi-omic analysis elucidates the genetic basis of hydrocephalus. Cell Rep. 2021; 35(5): 109085.
4. Shaheen R, Sebai MA, Patel N, Ewida N, Kurdi W, Altweijri I, Sogaty S, Almardawi E, Seidahmed MZ, Alnemri A, Madirevula S, Ibrahim N, Abdulwahab F, Hashem M, Al-Sheddi T, Alomar R, Alobeid E, Sallout B, AlBaqawi B, AlAali W, Ajaji N, Lesmana H, Hopkin RJ, Dupuis L, Mendoza-Londono R, Al Rukban H, Yoon G, Faqeih E, Alkuraya FS. The genetic landscape of familial congenital hydrocephalus. Ann Neurol. 2017; 81(6):890–7.
5. Kahle KT, Kulkarni AV, Limbrick DD, Warf BC. Hydrocephalus in children. Lancet. 2016; 387(10020):788–99.
6. Ross ME. Unlocking the genetic complexity of congenital hydrocephalus. Nat Med. 2020; 6:1682–3.
7. Jaraj D, Rabiei K, Marlow T, Jensen C, Skoog I, Wikkelsø C. Prevalence of idiopathic normal-pressure hydrocephalus. Neurology. 2014; 82(16):1449-54.
8. Liew BS, Takagi K, Kato Y, Duvuru S, Thanapal S, Mangaleswaran B. Current updates on idiopathic normal pressure hydrocephalus. Asaian J Neurosurg. 2019; 14(3):648–56.
9. Robinson S. Neonatal posthemorrhagic hydrocephalus from prematurity: pathophysiology and current treatment concepts. J Neurosurg Pediatr. 2012;9(3):10.
10. Kammersgaard LP, Linnemann M, Tibaek M. Hydrocephalus following severe traumatic brain injury in adults. Incidence, timing, and clinical predictors during rehabilitation. Neuro Rehab. 2013; 33(3):473–80.
11. Berns J, Priddy B, Belal A, Seibold D, Zieles K, Jea A. Standardization of cerebrospinal fluid shunt valves in pediatric hydrocephalus: an analysis of cost, operative time, length of stay, and shunt failure. J Neurosurg Pediatr. 2021; 27:400-5.
12. Lim J, Tang AR, Liles C, Hysong AA, Hale AT, Bonfield CM, Naftel RP, Wellons JC III, Shannon CN. The cost of hydrocephalus: a cost-effectiveness model for evaluating surgical techniques. J Neuro:Ped. 2019; 23(1):109–18.
13. Muir RT, Wang S, Warf BC. Global surgery for pediatric hydrocephalus in the developing world: a review of the history, challenges, and future directions. Neurosurg Foc. 2016; 41(5):11.
14. Fame RM, Cortés-Campos C, Sive HL. Brain ventricular system and cerebrospinal fluid development and function: light at the end of the tube: a primer with latest insights. BioEssays. 2020; 42(3): e1900186.
15. Fame RM, Lehtinen MK. Emergence and developmental roles of the cerebrospinal fluid system. Dev Cell. 2020; 52(3):261–75.
16. Li J, Zhang X, Guo J, Yu C, Yang J. Molecular mechanisms and risk factors for the pathogenesis of hydrocephalus. Front Genet. 2022; 12: 777926.
17. Kelly EJ, Yamada S. Cerebrospinal fluid flow studies and recent advancements. Semin Ultrasound CT MR. 2016; 37(2):92–9.
18. Karimy JK, Reeves BC, Damisah E, Duy PQ, Antwi P, David W, Wang K, Schiff SJ, Limbrick DD Jr, Alper SL, Warf BC, Nedergaard M, Simard JM, Kahle KT. Inflammation in acquired hydrocephalus: pathogenic mechanisms and therapeutic targets. Nat Rev Neurol. 2020; 16(5):285–96.
19. McAllister JP 2nd. Pathophysiology of congenital and neonatal hydrocephalus. Semin Fetal Neonatal Med. 2012; 17(5):285–94.
20. Reeves BC, Karimy JK, Kundishora AJ, Mestre H, Cerci HM, Matouk C, Alper SL, Lundgaard I, Nedergaard M, Kahle KT. Glymphatic System impairment in Alzheimer’s disease and idiopathic normal pressure hydrocephalus. Trends Mol Med. 2020; 26(3):285–95.
21. Williams MA, Malm J. Diagnosis and Treatment of Idiopathic Normal Pressure Hydrocephalus. Continuum (Minneap Minn). 2016; 22:579–99.
22. Wang Z, Zhang Y, Hu F, Ding J, Wang X. Pathogenesis and pathophysiology of idiopathic normal pressure hydrocephalus. CNS Neurosci Ther. 2020; 26(12):1230–40.
23. Authors V. Issue supplement_1: pediatric hydrocephalus: systematic literature review and evidence-based guidelines. J Neurosurg Pediatr. 2014; 14(S1):1–81.
24. Thomale UW, Ginalli G, Kulkarni AV, Al-Hakin S, Roth J, Schaumann A, Buhrer C, Cavalheiro S, Sgouros S, Constanini S, Bock HC. TROPHY registry study design: a prospective, international multicenter study for the surgical treatment of post-hemorrhagic hydrocephalus in neonates. Child Nerv Sys. 2019; 35:613–9.
25. Stagno V, Arcas Navarrete E, Mirone G, Esposito F. Management of hydrocephalus around the World. World Neurosurg. 2013; 79(2): S23.e17-S23.e20.
26. Warf BC. Comparison of endoscopic third ventriculostomy alone and combined with choroid plexus cauterization in infants younger than 1 year of age: a prospective study in 550 African children. J Neurosurg. 2005; 106(6S):475–81.
27. Kulkarni AV, Drake JM, Kestle JRW, Mallucci CL, Sgouros S, Constantini S, Canadian Pediatric Neurosurgery Study Group. Predicting who will benefit from endoscopic third ventriculostomy compared with shunt insertion in childhood hydrocephalus using the ETV Success Score. J Neurosurg Pediatr. 2010; 6(4):310–5.
28. Shannon CN, Kr C, Tomycz L, Wellons JC, Tulipan N. Time to first shunt failure in pediatric patients over 1 year old: a 10-year retrospective study. Pediatr Neurosurg. 2013; 49(6):353–9.
2. Duy PQ, Rakic P, Alper SL, Butler WE, Walsh CA, Sestan N, Geschwind DH, Jin SC, Kahle KT. Brain ventricles as windows into brain development and disease. Neuron. 2022; 110(1):12–5.
3. Hale AT, Bastarache L, Morales DM, Wellons JC 3rd, Limbrick DD Jr, Gamazon ER. Multi-omic analysis elucidates the genetic basis of hydrocephalus. Cell Rep. 2021; 35(5): 109085.
4. Shaheen R, Sebai MA, Patel N, Ewida N, Kurdi W, Altweijri I, Sogaty S, Almardawi E, Seidahmed MZ, Alnemri A, Madirevula S, Ibrahim N, Abdulwahab F, Hashem M, Al-Sheddi T, Alomar R, Alobeid E, Sallout B, AlBaqawi B, AlAali W, Ajaji N, Lesmana H, Hopkin RJ, Dupuis L, Mendoza-Londono R, Al Rukban H, Yoon G, Faqeih E, Alkuraya FS. The genetic landscape of familial congenital hydrocephalus. Ann Neurol. 2017; 81(6):890–7.
5. Kahle KT, Kulkarni AV, Limbrick DD, Warf BC. Hydrocephalus in children. Lancet. 2016; 387(10020):788–99.
6. Ross ME. Unlocking the genetic complexity of congenital hydrocephalus. Nat Med. 2020; 6:1682–3.
7. Jaraj D, Rabiei K, Marlow T, Jensen C, Skoog I, Wikkelsø C. Prevalence of idiopathic normal-pressure hydrocephalus. Neurology. 2014; 82(16):1449-54.
8. Liew BS, Takagi K, Kato Y, Duvuru S, Thanapal S, Mangaleswaran B. Current updates on idiopathic normal pressure hydrocephalus. Asaian J Neurosurg. 2019; 14(3):648–56.
9. Robinson S. Neonatal posthemorrhagic hydrocephalus from prematurity: pathophysiology and current treatment concepts. J Neurosurg Pediatr. 2012;9(3):10.
10. Kammersgaard LP, Linnemann M, Tibaek M. Hydrocephalus following severe traumatic brain injury in adults. Incidence, timing, and clinical predictors during rehabilitation. Neuro Rehab. 2013; 33(3):473–80.
11. Berns J, Priddy B, Belal A, Seibold D, Zieles K, Jea A. Standardization of cerebrospinal fluid shunt valves in pediatric hydrocephalus: an analysis of cost, operative time, length of stay, and shunt failure. J Neurosurg Pediatr. 2021; 27:400-5.
12. Lim J, Tang AR, Liles C, Hysong AA, Hale AT, Bonfield CM, Naftel RP, Wellons JC III, Shannon CN. The cost of hydrocephalus: a cost-effectiveness model for evaluating surgical techniques. J Neuro:Ped. 2019; 23(1):109–18.
13. Muir RT, Wang S, Warf BC. Global surgery for pediatric hydrocephalus in the developing world: a review of the history, challenges, and future directions. Neurosurg Foc. 2016; 41(5):11.
14. Fame RM, Cortés-Campos C, Sive HL. Brain ventricular system and cerebrospinal fluid development and function: light at the end of the tube: a primer with latest insights. BioEssays. 2020; 42(3): e1900186.
15. Fame RM, Lehtinen MK. Emergence and developmental roles of the cerebrospinal fluid system. Dev Cell. 2020; 52(3):261–75.
16. Li J, Zhang X, Guo J, Yu C, Yang J. Molecular mechanisms and risk factors for the pathogenesis of hydrocephalus. Front Genet. 2022; 12: 777926.
17. Kelly EJ, Yamada S. Cerebrospinal fluid flow studies and recent advancements. Semin Ultrasound CT MR. 2016; 37(2):92–9.
18. Karimy JK, Reeves BC, Damisah E, Duy PQ, Antwi P, David W, Wang K, Schiff SJ, Limbrick DD Jr, Alper SL, Warf BC, Nedergaard M, Simard JM, Kahle KT. Inflammation in acquired hydrocephalus: pathogenic mechanisms and therapeutic targets. Nat Rev Neurol. 2020; 16(5):285–96.
19. McAllister JP 2nd. Pathophysiology of congenital and neonatal hydrocephalus. Semin Fetal Neonatal Med. 2012; 17(5):285–94.
20. Reeves BC, Karimy JK, Kundishora AJ, Mestre H, Cerci HM, Matouk C, Alper SL, Lundgaard I, Nedergaard M, Kahle KT. Glymphatic System impairment in Alzheimer’s disease and idiopathic normal pressure hydrocephalus. Trends Mol Med. 2020; 26(3):285–95.
21. Williams MA, Malm J. Diagnosis and Treatment of Idiopathic Normal Pressure Hydrocephalus. Continuum (Minneap Minn). 2016; 22:579–99.
22. Wang Z, Zhang Y, Hu F, Ding J, Wang X. Pathogenesis and pathophysiology of idiopathic normal pressure hydrocephalus. CNS Neurosci Ther. 2020; 26(12):1230–40.
23. Authors V. Issue supplement_1: pediatric hydrocephalus: systematic literature review and evidence-based guidelines. J Neurosurg Pediatr. 2014; 14(S1):1–81.
24. Thomale UW, Ginalli G, Kulkarni AV, Al-Hakin S, Roth J, Schaumann A, Buhrer C, Cavalheiro S, Sgouros S, Constanini S, Bock HC. TROPHY registry study design: a prospective, international multicenter study for the surgical treatment of post-hemorrhagic hydrocephalus in neonates. Child Nerv Sys. 2019; 35:613–9.
25. Stagno V, Arcas Navarrete E, Mirone G, Esposito F. Management of hydrocephalus around the World. World Neurosurg. 2013; 79(2): S23.e17-S23.e20.
26. Warf BC. Comparison of endoscopic third ventriculostomy alone and combined with choroid plexus cauterization in infants younger than 1 year of age: a prospective study in 550 African children. J Neurosurg. 2005; 106(6S):475–81.
27. Kulkarni AV, Drake JM, Kestle JRW, Mallucci CL, Sgouros S, Constantini S, Canadian Pediatric Neurosurgery Study Group. Predicting who will benefit from endoscopic third ventriculostomy compared with shunt insertion in childhood hydrocephalus using the ETV Success Score. J Neurosurg Pediatr. 2010; 6(4):310–5.
28. Shannon CN, Kr C, Tomycz L, Wellons JC, Tulipan N. Time to first shunt failure in pediatric patients over 1 year old: a 10-year retrospective study. Pediatr Neurosurg. 2013; 49(6):353–9.
Published
2023-11-09
How to Cite
Юсупалиева Гулнора Акмаловна, Абзалова Муниса Якупджановна, & Хусенов Мухриддин Матёкубович. (2023). Комплексная Лучевая Диагностика Гидроцефалий У Детей (Обзор Литературы). Central Asian Journal of Medical and Natural Science, 4(6), 246-252. Retrieved from https://cajmns.centralasianstudies.org/index.php/CAJMNS/article/view/2021
Section
Articles
