Object: Young age is considered an important factor in determining outcomes after microsurgical resection of arteriovenous malformations (AVMs), but better results in children have not been adequately explained. A consecutive series of pediatric and adult patients was reviewed to determine whether differences in outcomes between these two groups were due to differences in AVM anatomy, rupture rates, neurological condition at presentation, treatment techniques, or other causes.
Methods: As assessed using the modified Rankin Scale (mRS), patient characteristics, clinical presentation, AVM anatomy, treatment techniques, and outcomes were compared between age groups. Thirty-two pediatric and 192 adult patients underwent microsurgical AVM resection during a 6.4-year period; complete resection was achieved in 97% of the children and 98% of adults. Superior outcomes were observed in children, who had better final mRS scores (p = 0.003) and more favorable changes in these scores (the condition of 94% of children improved or remained unchanged, compared with 70% of adults; p = 0.001). The change in the mean mRS scores was 1.31 for children and 0.14 for adults (p = 0.001). There were no significant clinical, anatomical, or therapeutic differences between children and adults.
Conclusions: This analysis confirms the observation that children fare better than adults after microsurgical AVM resection. This discrepancy cannot be explained by differences in AVM anatomy, lesion rupture rates, presenting neurological condition, or treatment techniques, leading the authors to infer that neural plasticity may augment surgical tolerance and recovery in children. These findings bolster the choice of aggressive microsurgical management of AVMs and recalibration of surgical risk assessment in children.
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http://dx.doi.org/10.3171/ped.2006.105.2.82 | DOI Listing |
Vestn Otorinolaringol
December 2024
Sverzhevsky Research Clinical Institute of Otorhinolaryngology, Moscow, Russia.
Arteriovenous malformation (AVM, arteriovenous dysplasia) is one of the variants of congenital vascular defects formed as a result of a defect in the development of the arterial and venous systems during ontogenesis with the formation of direct messages between vessels of different diameters. In this regard, high-speed shunting of blood from the arterial part of the vascular system to the venous through fistulas of various calibers occurs. This disease is characterized by a variety of clinical manifestations.
View Article and Find Full Text PDFCells
November 2024
Cell and Matrix Research Institute, School of Medicine, Kyungpook National University, Daegu 41944, Republic of Korea.
Arteriovenous malformations (AVMs) are characterized by direct connections between arteries and veins without intervening capillaries, with the concomitant formation of abnormal vascular networks associated with angiogenesis. However, the current understanding of the diagnosis and treatment of AVMs is limited, and no in vitro disease models exist at present for studying this condition. In this study, we produced endothelial cells (ECs) in two-dimensional cultures and three-dimensional (3D) blood vessel organoids (BVOs), comparing gene expression profiles between normal and AVM organoids.
View Article and Find Full Text PDFAngiogenesis
December 2024
Division of Vascular Biology, Department of Medical Biochemistry and Biophysics, Karolinska Institutet, Stockholm, 171 77, Sweden.
Angiogenesis
December 2024
Department of Cell and Developmental Biology, Perelman School of Medicine at the University of Pennsylvania, 1114 Biomedical Research Building, 421 Curie Boulevard, Philadelphia, PA, 19104, USA.
Hemodynamic cues are thought to control blood vessel hierarchy through a shear stress set point, where flow increases lead to blood vessel diameter expansion, while decreases in blood flow cause blood vessel narrowing. Aberrations in blood vessel diameter control can cause congenital arteriovenous malformations (AVMs). We show in zebrafish embryos that while arteries behave according to the shear stress set point model, veins do not.
View Article and Find Full Text PDFPhysiol Rep
November 2024
Department of Pediatrics, Division of Cardiology, Medical College of Wisconsin, Children's Wisconsin, Herma Heart Institute, Milwaukee, Wisconsin, USA.
Pulmonary arteriovenous malformations (PAVMs) universally develop in patients with single ventricle congenital heart disease. Single ventricle PAVMs have been recognized for over 50 years but remain poorly understood. To improve our understanding, we developed a surgical rat model of Glenn circulation and characterized PAVM physiology over multiple time points.
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