Object: Therapy of posthaemorrhagic hydrocephalus (PHH) by using ventriculo-peritoneal drainage bears considerable rate of complications and remains a challenge in premature newborns. The role of endoscopic third ventriculostomy (ETV) in these patients is unclear, through obstruction is proven in some patients with PHH. Transforming growth factor beta 1 (TGF-beta1) release into the cerebrospinal fluid (CSF) in time of primary bleeding is suggested as one of the possible pathophysiologic reasons of PHH formation. Relation between TGF-beta1 levels and ETV success rate has not been reported yet. The aim of our study is to detect group of patients, according to the levels of TGF-beta1, who have magnetic resonance imaging (MRI)-proven obstruction hydrocephalus without participation of hyporesorption-so that we can expect success of ETV.
Methods: We followed 29 premature newborns with PHH during 2005-2007, all of them treated by Ommaya reservoir implantation and repeated taps with TGF-beta1 levels examination. In case of persisting hydrocephalus, MRI was performed. In 16 patients with proven obstruction, ETV was performed. We were successful in six patients (37,5%). We evaluated pathophysiological type of hydrocephalus and ETV succes rate and their relation to TGF-beta1 CSF levels.
Results: We have proven statistically relevant probability in diagnosis of hyporesorptive hydrocephalus based on TGF-beta1 level in CSF. Value exceeding 3,296 pg/ml means 81,3% probability of present hyporesorption. Success rate of ETV in patients with MRI-verified obstruction and TGF-beta1 level lower than 3,296 pg/ml was 100% in our series.
Conclusion: TGF-beta1 level indicates participation of hyporesorption in hydrocephalus development and its level may influence decision making in ETV for premature newborns with PHH.