A retrospective analysis of 480 newborns with post-hemorrhagic hydrocephalus was carried out for the period 2000-2018 years. Decompensation of cerebrospinal fluid dynamics (CSFD) was observed in 189 children. It is noted that quantitative indicators of dynamic of secondary reduction of periventricular brain density (PBD) in CSFD can serve as criteria for objective evaluation in the differential analysis of hypertensive and posthypoxic (ischemic) genesis of brain damage. The proposed algorithm correction of post-hemorrhagic hydrocephalus using methods of coronary-lambdoid subarachno-ventriculostomy and ventriculo-subarachnoid stenting expands the potential of early pathogenesis treatment with an increase in the surgical index of stabilization of CSFD, restoration of intracranial circulation and absorption of liquor.
Objective: To review the treatment outcome of germinal matrix hemorrhage (GMH) in premature infants in a single Ukrainian institution in an effort to determine optimal diagnostic and therapeutic approaches. Materials and Methods: Eight hundred and thirty-five premature newborns (gestational age 33.0 ± 2.50 weeks, birth weight 2,124.81 ± 282.54 g; mean ± SD) were examined for the development of perinatal hypoxic-ischemia injury and asphyxia condition. This research focuses on various types of massive intracranial hemorrhage (ICH) and posthemorrhagic hydrocephalus (PHH). The diagnostic methods were based on intracranial imaging studies and clinical features that are present at birth. The therapeutic and preventive strategies consist of parental counseling, supportive and rehabilitative care for affected infants. Surgical intervention was indicated for the prevention and treatment of severe PHH. Thirty-four preterm infants were treated by ventricular-peritoneal/subgaleal shunting with close monitoring of intracerebral pressure. Results: Massive GMH took place at 32–35 gestational weeks as a result of increased periventricular anastomosis. GMH was unusual in full-term newborns, whereas cerebral hypoxic-ischemic injuries were more common in full-term neonates. Approximately 98% of premature infants with low birth weight survived and 2% died due to respiratory distress syndrome and other complications. ICH which occurs in neonates at 24–28 gestational weeks was mainly due to immature vascular walls and insufficiency of vascular anastomosis at the germinal matrix. Conclusions: ICH occurring in the germinal matrix of premature newborns is closely related to the development of the brain vasculature. Evacuation of the hematoma is more detrimental than beneficial, despite the rapid strides being taken to keep low-birth weight premature infants alive. Therefore, the treatment of ICH and PHH requires a fundamental understanding of pathogenetic changes, which is necessary for the neurorehabilitation and immediate elimination of cerebral compression and its complications.
Background ― Posthemorrhagic hydrocephalus in newborns with occlusion of cerebrospinal fluid leads to decompensation of cerebrospinal fluid dynamics. There is no single method that meets all the criteria for the effectiveness and safety of treatment. The study goal was to investigate the use of coronary translambdoid subarachnoid ventriculostomy (CTSV) and ventricular subarachnoid stenting (VSS) in the treatment of neonatal hydrocephalus. Material and Methods ― The analysis of the posthemorrhagic hydrocephalus treatment in 327 newborns for the period of 2000-2018 in Crimea. Two groups have been identified. In the Group 1, 184 children underwent standard treatment according to the ‘LVV protocol’ with lumbar and ventricular punctures with 20-22G needles, while with progression of hydrocephalus, with ventriculosubgaleal drainage and ventriculoperitoneal shunt. In 143 children with occlusion and ventricular block, the treatment complex included CTSV – RF Patent No. 2715535, and ventricular drainage by the ventricular subarachnoid stenting (VSS) – RF Patent No. 2721455. Results ― An increase in the treatment radicality under CTSV is achieved through the use of the cerebral needles of a larger diameter (14G) and puncture access zones, elimination of occlusion, while under VSS, restoration of intracranial circulation and absorption of cerebrospinal fluid is ensured by prolonged sanitation with a saline solution of cerebrospinal fluid spaces. A positive outcome with compensation for hydrocephalus was achieved in 75.4% of cases versus 28.2% under the conventional protocol (p<0.001). In other cases, the imbalance of production and absorption of cerebrospinal fluid remained, which required the integration of the VSS with the peritoneal segment of the shunt, without further replacement and reinstallation of the system. Conclusion ― Our results allow us to consider the effectiveness of CTSV and VSS inclusion in the contemporary algorithm for the treatment of decompensated posthemorrhagic hydrocephalus in newborns.
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