The predictive value of MRI scores for neurodevelopmental outcome in infants with neonatal encephalopathy.

BACKGROUND: MRI scoring systems are utilized to quantify brain injury and predict outcome in infants with neonatal encephalopathy (NE). Our aim was to evaluate the predictive accuracy of total scores, white matter (WM) and grey matter (GM) subscores of Barkovich and Weeke scoring systems for neurodevelopmental outcome at 2 years of age in infants receiving therapeutic hypothermia for NE. METHODS: Data of 162 infants were analyzed in this retrospective cohort study. DeLong tests were used to compare areas under the curve of corresponding items of the two scoring systems. LASSO logistic regression was carried out to evaluate the association between MRI scores and adverse composite (death or severe disabilities), motor and cognitive outcomes (Bayley developmental index <70). RESULTS: Weeke scores predicted each outcome measure with greater accuracy than the corresponding items of Barkovich system (DeLong tests p < 0.03). Total scores, GM and cerebellum involvement were associated with increased odds for adverse outcomes, in contrast to WM injury, after adjustment to 5' Apgar score, first postnatal lactate and aEEG normalization within 48 h. CONCLUSION: A more detailed scoring system had better predictive value for adverse outcome. GM injury graded on both scoring systems was an independent predictor of each outcome measure. IMPACT STATEMENTS: A more detailed MRI scoring system had a better predictive value for motor, cognitive and composite outcomes. While hypoxic-ischemic brain injuries in the deep grey matter and cerebellum were predictive of adverse outcome, white matter injury including cortical involvement was not associated with any of the outcome measures at 2 years of age. Structured MRI evaluation based on validated scores may aid future clinical research, as well as inform parents and caregivers to optimize care beyond the neonatal period.

Evaluation and diagnosis of spontaneous intracranial hypotension with magnetic resonance imaging / A spontán intracranialis hypotensio diagnosztikája mágneses rezonanciás képalkotással.

Összefoglaló. A klasszikus esetben ortosztatikus fejfájást okozó, spontán intracranialis hypotensiót az esetek túlnyomó többségében a gerinccsatornában, annak nyaki-háti átmenetében, illetve a háti szakaszán található liquorszivárgás okozza. Meglévo kötoszöveti betegség, degeneratív gerincbetegségek, illetve kisebb traumák szerepet játszhatnak a szivárgás kialakulásában. Az ortosztatikus fejfájás létrejöttében szerepet játszhat a meningealis szerkezetek, érzoidegek és hídvénák vongálódása. A klasszikus pozicionális, ortosztatikus fejfájásban szenvedo betegek körében gondolni kell a spontán intracranialis hypotensio lehetoségére, és az agykoponya, illetve a gerinc kontrasztanyaggal végzett mágneses rezonanciás vizsgálata (MRI) javasolt. A kontrasztanyaggal végzett koponya-MRI-vel klasszikus esetben diffúz, nem nodularis, intenzív, vaskos pachymeningealis kontrasztanyag-halmozás, kitágult vénássinus-rendszer, subduralis effusiók és az agytörzs caudalis diszlokációja ("slumping") látható. Fontos azonban szem elott tartani, hogy az esetek 20%-ában ezen eltérések nem detektálhatók. Jó minoségu, randomizált, kontrollált vizsgálatok nem történtek, a kezelés hagyományokon alapul. Kezdetben általában konzervatív terápiát alkalmaznak (ágynyugalom, koffein- és folyadékbevitel), ennek hatástalansága esetén epiduralis sajátvér-injekció, epiduralis fibrinragasztó-injektálás, illetve sebészi terápia jöhet szóba. Orv Hetil. 2021; 162(7): 246-251. Summary. Spontaneous intracranial hypotension, the classic feature of which is orthostatic headache, is most commonly caused by a cerebrospinal fluid leakage at the level of the spinal canal, in most cases at the thoracic level or cervicothoracic junction. Underlying connective tissue disorders, minor trauma, degenerative spinal diseases may play a role in the development of cerebrospinal fluid leaks. Traction on pain-sensitive intracranial and meningeal structures, particularly sensory nerves and bridging veins, may play a role in the development of orthostatic headache. In the case of patients with classic orthostatic headache, the possibility of spontaneous intracranial hypotension should be considered, and if suspected, brain magnetic resonance imaging (MRI) with gadolinium and additional spine MRI are recommended. Diffuse, non-nodular, intense, thick dural enhancement, subdural effusions, engorgement of cerebral venous sinuses, sagging of the brain are typical features on brain MRI, which, however, remain normal in up to 20 percent of patients with spontaneous intracranial hypotension. Unfortunately, no randomized clinical trials have evaluated the effectiveness of the various treatment strategies and no definitive treatment protocols have been established. In clinical practice, the first-line treatment of spontaneous intracranial hypotension is conservative (bed rest, caffeine and fluid intake). If conservative therapy is not effective, epidural blood patch, epidural fibrin glue, or surgical repair should be considered. Orv Hetil. 2021; 162(7): 246-251.