1/4. Can early postnatal closed head injury induce cortical dysplasia.PURPOSE: Increased availability of surgically resected epileptogenic tissues reveals often unsuspected cortical dysplasia (CD). There is some controversy about the ontogenic stages in which these occur. Although most take place during neuroblast proliferation and migration, there is some evidence for some CD occurring during postmigrational intrinsic cortical organization. It has been shown that various kinds of focal cortical manipulations in rats, if performed within 3-4 postnatal days, lead to the genesis of various cortical malformations including a four-layered microgyrus or an unlayered CD. It is not known whether such events also might occur in the human brain. methods: Two children sustained minor head trauma within 4 postnatal days and later developed intractable epilepsy, which was relieved by surgery. Neuropathologic analysis of the resected tissues revealed an unsuspected microdysplastic cortex immediately adjacent to a focal, modest meningeal fibrosis, presumably secondary to the old closed head trauma. RESULTS: The main histologic features were a disorganized, unlayered cortex; abnormal clusters of neurons, often with complex, randomly oriented proximal dendritic patterns with absent apical orientation; the presence of a number of heterotopic small and large neurons in the white matter; absence of inflammatory infiltrates, of hemosiderine, of reactive gliosis, or of an excessive number of blood vessels. The morphologic features in these surgical specimens suggest that these focal malformations occur because of a regional disorder of postmigrational intrinsic cortical remodeling. CONCLUSIONS: The clinical histories and the pathologic findings lend some support to the hypothesis that minor morbid events occuring in the immediate postnatal period may lead to microdysplasia in the human similar to those induced in rat pups. The animal model could be helpful to clarify the genesis of some cases of CD and of the epileptogenicity often manifesting later in life.- - - - - - - - - - ranking = 1keywords = vessel (Clic here for more details about this article) |
2/4. Ophthalmic manifestations of neonatal onset multisystem inflammatory disease.PURPOSE: To report the ophthalmic manifestations of neonatal onset multisystem inflammatory disease, a recently recognized, rare systemic disorder characterized by the triad of arthropathy, rash, and abnormal central nervous system development. METHOD: Case report. RESULTS: A 2-year-old female with neonatal onset multisystem inflammatory disease presented with visual acuity of fix and follow with each eye, bilateral optic nerve head pallor and gliosis, as well as marked sheathing of the peripapillary vessels. No vitreous inflammation or macular edema was found. visual acuity was stable from the neonatal period through the 3 months of follow-up after the changes involving the optic nerve heads and peripapillary vessels were observed (a total of 33 months). CONCLUSIONS: This report provides a description of the ocular manifestations of neonatal onset multisystem inflammatory disease and supports earlier suggestions that swelling of the optic nerve heads can occur. In this case, optic nerve head pallor may have been a sequela of such swelling. The pathogenesis of neonatal onset multisystem inflammatory disease is unknown.- - - - - - - - - - ranking = 2keywords = vessel (Clic here for more details about this article) |
3/4. prenatal diagnosis of 'true tail' with cartilage content?A human tail is a rare congenital anomaly with a prominent lesion from the lumbosacrococcygeal region. According to Dao and Netzky human tails are classified into 'true tails' and 'pseudotails'. True tails comprise only mesenchymal tissue (adipose, connective, muscle, nerve tissue, blood vessels, and cutis). They are presumed to be remnants of the embryologic tail. All other lumbosacrococcygeal protrusions are summarized as pseudotails. Superficially they may resemble true tails. They contain normal or abnormal tissue, e.g. cartilage, lipoma and glioma. We report a case of prenatal diagnosis of a human tail in association with omphalocele, hydrocephalus and antiphospholipid-antibody syndrome resulting in a severe fetal growth restriction. Due to cartilage content the appendage had to be classified as 'pseudotail'. However, anatomical position and the decrease of length observed by consecutive ultrasound examinations at 14 and 21 weeks of gestation was suggestive of delayed regression of a 'true tail'. Furthermore, the association of antiphospholipid-antibody syndrome with congenital malformations is discussed.- - - - - - - - - - ranking = 1keywords = vessel (Clic here for more details about this article) |
4/4. Effects of ischaemia and hypoxia on the development of the nervous system in acardiac foetus.The twin-reversed arterial perfusion (TRAP) sequence and development of an acardius are rare and severe complications in monozygotic twin pregnancy. Haemodynamic disturbances in placental perfusion via abnormal vascular anastomoses allow inter-twin transfusion to occur. Because of blood perfusion, one of the twins is poorly oxygenated and contains metabolic waste products. Retrograde placental perfusion leads to the formation of a non-viable malformed acardiac foetus. We studied the effects of haemodynamic disturbances in acardiac foetus on the development of the nervous system. The acardius was a product of a 32-weeks pregnancy. Caesarean section yielded a skin covered ovoid mass (size, 10 x 8 cm; weight, 220 g). The dissection of the acardiac twin showed a skin with hair and appendages, rudimentary lower limbs, vertebral column and brain mass. The rudimentary brain tissue was considerably disorganised structurally. We distinguished two main morphological forms of various appearances. In the centre, we observed a scarcely vascularised mass of tissue containing mature and immature neurones, glial cells and randomly distributed fibres. The mass of tissue appeared poorly differentiated, although there were some arrangements reminiscent of cerebral structures. Clusters of neurones provided a slight suggestion of nuclear or fibre structure. The cerebellar cortex was the only well recognisable structure. In the other fragment of the tissue, we found a slit cavity with ependymal outline and well-developed choroid plexus, which seemed to represent the 3rd ventricle. The scarcely vascularised disorganised tissue was surrounded by the highly vascularised one. It included many thin-walled sinusoid vessels. In some places, they were so concentrated that they resembled cavernous haemangioma. The spinal cord appeared comparatively well organised with a slightly dilated central canal. The morphological picture of the rudimentary brain tissue was similar to the picture of the cerebrovasculosa area. The effect of ischaemia in the presented case is the anomalous formation of the cerebral structures. The morphological features imply that the failure occurred after neurulation and before the prosencephalic began to grow. The failure of neural tube formation occurred on the 22nd-25th day of gestation. The malformed formation of the nervous system might be caused by impaired induction due to altered gene expression or to the interference of exogenous agents that interrupt normal development. The haemodynamic abnormal placental circulation, which induced lack of oxygen supply and nutritional deficiency, implies the morphological pattern of the anomaly.- - - - - - - - - - ranking = 1keywords = vessel (Clic here for more details about this article) |