ABSTRACT
Spinal adhesive arachnoiditis is an inflammation and fibrosis of the subarachnoid space and pia mater caused by infection, trauma, spinal vascular anomalies, and iatrogenic (surgery and/or puncture). Adhesive arachnoiditis develops various symptoms and signs (gait disturbances, radiating pain, paralysis, and incontinence). On the other hand, adhesive arachnoiditis associated with cauda equina syndrome has not been reported in Korea until now. The authors experienced cauda equina syndrome caused by adhesive arachnoiditis of the lumbar spine with satisfactory results following decompression. We report this case with a review of the relevant literature.
Subject(s)
Adhesives , Arachnoid , Arachnoiditis , Cauda Equina , Decompression , Fibrosis , Hand , Inflammation , Korea , Paralysis , Pia Mater , Polyradiculopathy , Spine , Subarachnoid SpaceABSTRACT
STUDY DESIGN: Review of literature on anatomical and pathophysiological features of cauda equina. OBJECTIVES: To look into the anatomical and pathophysiological features of cauda equina and support their basic knowledge of treating cauda equina syndrome. SUMMARY OF LITERATURE REVIEW: Cauda equina has different anatomical and pathophysiological features to peripheral nerve. MATERIALS AND METHODS: Review of literature. RESULTS: When compressing to cauda equina, the pathophysiologic mechanism develop as follows; increasing the vascular permiablity of nerve root, intraneural edema, and subsequent blood and nutritional impairment. Nerve root injury develops through this pathophysiologic mechanism. CONCLUSIONS: Cauda equina has an extensive ateriovenous anastomosis and guaze-like pia mater, which supply blood and neutrition to it. These anatomical features prevent it from complete cauda equina syndrome when compressing to it under arterial blood pressure.
Subject(s)
Arterial Pressure , Cauda Equina , Edema , Peripheral Nerves , Pia Mater , PolyradiculopathyABSTRACT
<p><b>OBJECTIVE</b>To evaluate the clinical efficacy of incising spinal pia mater to relieve pressure and unilateral open-door laminoplasty with internal screw fixation for treatment of the dated spinal cord injury.</p><p><b>METHODS</b>From March, 2009 to July, 2010, 16 cases with chronic cervical cord injury underwent spinal dura mater incision and unilateral open-door laminoplasty with internal screw fixation. Nerve functions of pre- and postoperation were evaluated by Frankel classification and the Japanese Orthopaedic Association (JOA) scale.The improvement rate of JOA score at the indicated time was recorded.</p><p><b>RESULTS</b>Postoperative Frankel classification rating of 16 patients improved obviously.JOA scores at the 1st month, 3rd month, 6th month, and 12th month after surgery were 7.9 ± 2.3, 8.5 ± 1.6, 8.9 ± 2.1, and 12.4 ± 2.5, respectively, and significantly increased compared with that prior to surgery (5.5 ± 0.6). At the end of follow-up period, JOA score was significantly higher than that of pre-treatment (P<0.05). The recovery was relatively rapid during the first 3 months following the surgery, then entered a platform period.</p><p><b>CONCLUSION</b>It is effective for patients with dated spinal cord injury to undergo spinal decompression and laminoplasty.</p>
Subject(s)
Adult , Female , Humans , Male , Middle Aged , Bone Screws , Decompression, Surgical , Methods , Fracture Fixation, Internal , Laminectomy , Methods , Magnetic Resonance Imaging , Pia Mater , General Surgery , Spinal Cord Injuries , Diagnosis , Pathology , General SurgeryABSTRACT
Saimiri sciureus is a small New World primate (NHP) commonly called macaco-de-cheiro that inhabits the tropical forests of the Amazon basin. Anatomical features are not well studied in most primates, and the encephalic morphology and related structures are still quite unknown. Comparative anatomy of the meninges in South American primates is still scarce. Dura mater, arachnoid and pia mater are a group of stratified layers that surrounds and promotes protection to the medulla spinalis. This study aimed to shed light on the anatomy of dura mater in Samiri sciureus in order to contribute to the neuroscience in primates. We investigated three young females and two males of S. sciureus. Specimens were fixed through perfusion with a 10 percent formaldehyde aqueous solution. In S. sciureus encephalus few gyrus and circunvolutions, and a very delicate system consisting of eight sinus venosus was found between the dura mater layers. Based on our findings, we can conclude that the Saimiri sciureus dura mater is quite similar to other mammals, however we detected a new sinus venosus formation at the level of parietal bone, named sinus parietalis, what appears to be its first description.
Saimiri sciureus, com nome comum de macaco-de-cheiro, é um pequeno primata do Novo Mundo (PNM) que habita as florestas tropicais da Bacia Amazônica. Os detalhes anatômicos de primatas são pouco conhecidos e a anatomia comparada de animais selvagens da América do Sul é escassa, mais especificamente, sobre as meninges de PNM. Meninges pertencem a um sistema de membrana responsável por envolver e proteger o Sistema Nervoso Central; consiste em três membranas: dura mater, aracnoide e pia mater. Este estudo objetivou a elucidação do comportamento anatômico da dura mater de S. sciureus com o intuito de contribuir para a área de neurociências em primatas. Foram investigados três fêmeas e dois machos jovnes de S. sciureus. Os espécimes de meninges foram fixados por perfusão usando solução aquosa 10 por cento de formaldeído. O encéfalo de S. sciureus demonstrou um número baixo de giros e circunvoluções, e um sistema delicado de oito seios venosos foi verificado entre as camadas da dura mater. Baseados em nossos achados podemos concluir que a dura mater de S. sciureus é similar aos de outros mamíferos, no entanto, apresenta a formação de um novo seio venoso em nível ao osso parietal, sendo denominado de seio parietal. Isto parece ser a primeira descrição deste seio.
Subject(s)
Animals , Meninges/anatomy & histology , Saimiri/anatomy & histology , Arachnoid/anatomy & histology , Neurosciences , Pia Mater/anatomy & histologySubject(s)
Child, Preschool , Female , Humans , Arteriovenous Fistula/therapy , Embolization, Therapeutic/methods , Intracranial Arteriovenous Malformations/therapy , Pia Mater/blood supply , Arteriovenous Fistula/diagnosis , Cerebral Angiography , Intracranial Arteriovenous Malformations/diagnosis , Treatment OutcomeABSTRACT
Perivascular space (PVS) is a crevice between two slices of cerebral pia maters, filled with tissue fluid, which be formed by pia mater emboling in the surrounding of cerebral perforating branch (excluding micrangium). Normal PVS (diameter < 2 mm) can be found in almost all healthy adults; however enlarged PVS (diameter > 2 mm) has correlation with neurological disorders probably. The article reviews the formation mechanism, imageology characteristics and the relation with neurological disorders of PVS, which is beneficial to the research of some neurological disorders etiopathogenesis and treatment.
Subject(s)
Animals , Humans , Blood Vessels , Pathology , Nervous System Diseases , Pathology , Pia Mater , PathologyABSTRACT
En los textos de anestesiología se aportan pocos detalles sobre la aracnoides trabecular y la piamadre espinal humana, a pesar de ser estructuras íntimamente relacionadas con los anestésicos locales administrados en una anestesia subaracnoidea. Complicaciones tales como el síndrome de cauda equina y el síndrome de irritación radicular transitorio posterior a la realización de bloqueos subaracnoideos, sumado a la alta permeabilidad que ha sido asociada con la piamadre, nos ha motivado a investigar sobre la ultraestructura de estas meninges. Método. Las muestras estudiadas se tomaron de cadáveres recientes y fueron examinadas por microscopía electrónica de transmisión y de barrido. Resultados. El trabeculado aracnoideo rodeaba a las raíces nerviosas, a la médula y a los vasos que se encontraban dentro del espacio subaracnoideo, limitando zonas. La piamadre estaba formada por un plano celular y por un compartimiento subpial. En el plano celular existían perforaciones naturales, especialmente en la región del cono medular y en las raíces nerviosas. Conclusiones. La inyección accidental de anestésicos locales dentro de las fundas que formaban el trabeculado aracnoideo podría justificar una dilución inadecuada de estas soluciones y el origen de síndromes neurotóxicos transitorios o permanentes. La alta permeabilidad de la piamadre podría deberse, en parte, a la existencia de perforaciones naturales, las cuales facilitarían un pasaje rápido de las sustancias introducidas en el líquido cefalorraquídeo hacia las raíces nerviosas y la médula espinal. En este caso, la membrana basal ubicada por debajo de las fibras colágenas del compartimiento subpial sería la única estructura limitante previa al tejido glio-neuronal de la médula.
Few details are to be found in anesthesiology texts concerning the trabecular arachnoid membrane and the human spinal pia mater in spite of being structures that are intimately related to local anesthetics administered in subarachnoid anesthesia. We were driven to investigate the ultrastructure of these meninges by complications such as the cauda equina syndrome and the transitory radicular irritation syndrome following subarachnoid blocks, added to the high permeability associated to the pia mater. Method. The samples analyzed were taken from recently deceased cadavers and were examined under transmission and scanning electron microscopy. Results. The arachnoid trabeculation surrounded the nerve roots, the spinal cord and the vessels within the subarachnoid space, limiting areas. The pia mater was formed by a cellular plane and by a sub-pial compartment. There were natural perforations in the cellular plane, particularly in the medullar cone region and the nerve roots. Conclusions. Accidental injection of local anesthetics into the sheaths formed by arachnoid trabeculation could be the cause of inadequate dilution of these solutions and the source of transitory or permanent neurotoxic syndromes. The high permeability of the pia mater could be partly due to the existence of natural perforations, which enable the quick passage of the substances introduced in the cerebrospinal fluid into the nerve roots and spinal cord. ln this case, the basal membrane located underneath the collagen fibers of the subpial compartment would be the only limiting structure before the glioneural tissue of the spinal cord.
Os textos de anestesiologia fornecem poucos detalhes sobre a aracnóide trabecular e a pia-máter espinhal humana, apesar delas serem estruturas intimamente relacionadas com os anestésicos locais administrados em uma anestesia subaracnóidea. Complicações tais como a síndrome de cauda eqüina e a síndrome de irritação radicular transitória posterior a bloqueios subaracnóideosas quais se soma a alta permeabilidade, que tem sido associada à pia-máter -levou-nos a pesquisar a ultraestrutura dessas meninges. Método. As amostras estudadas foram coletadas de cadáveres recentes e examinadas por microscopia eletrónica de transmissão e de varredura. Resultados. A trabeculação aracnóidea rodea va as raízes nervosas, a medula e os vasos no interior do espaço subaracnóide, limitando zonas. A pia-máter estava formada por um plano celular e um espaço subpial. No plano celular existiam perfurações naturais, especialmente na regiáo do cone medular e nas raízes nervosas. Conclusóes. A injeção acidental de anestésicos locais no interior das coberturas que formavam a trabeculação aracnoidea poderia justificar uma diluição inadequada das soluções e a origem de síndromes neurotóxicas transitórias ou permanentes. A causa da alta permeabilidade da pia-máter seria, em parte, a existencia de perfurações naturais que facilitariam a rápida passagem das substancias introduzidas no líquido cefalorraquiano para as raizes nervosas e a medula espinhal. Neste caso, a membrana basal localizada abaixo das fibras colágenas do espaço subpial seria a única estrutura limitante anterior ao tecido glio-neuronal da medula.
Subject(s)
Humans , Anesthesia, Spinal/adverse effects , Arachnoid/anatomy & histology , Arachnoid/ultrastructure , Meninges/anatomy & histology , Meninges/ultrastructure , Anesthetics, Local/administration & dosage , Anesthetics, Local/adverse effects , Microscopy, Electron, Scanning , Pia Mater/anatomy & histology , Pia Mater/ultrastructure , Polyradiculopathy/etiology , Polyradiculopathy/prevention & control , Subarachnoid Space , Neurotoxicity Syndromes/etiology , Neurotoxicity Syndromes/prevention & controlABSTRACT
OBJECTIVE: To elucidate the role of aquaporin-4(AQP4) in cerebral edema formation, we studied the expression and subcellular localization of AQP4 in astrocytes after focal cerebral ischemia. METHODS: Cerebral ischemia were induced by permanent middle cerebral artery(MCA) occlusion in rats and estimated by the discoloration after triphenyltetrazolium chloride(TTC) immersion. Change of AQP4 expression were evaluated using western blot. Localization of AQP4 was assessed by confocal microscopy and its interaction with alpha-syntrophin was analyzed by immunoprecipitation. RESULTS: After right MCA occlusion, the size of infarct and number of apoptotic cells increased with time. The ratio of GluR1/GluR2 expression also increased during ischemia. The polarized localization of AQP4 in the endfeet of astrocytes contacting with ventricles, vessels and pia mater was changed into the diffuse distribution in cytoplasm. The interactions of AQP4 and Kir with alpha-syntrophin, an adaptor of dystrophin complex, were disrupted by cerebral ischemia. CONCLUSION: The deranged spatial buffering function of astrocytes due to mislocalized AQP4/Kir4.1 channel as well as increased assembly of Ca2+ permeable AMPA receptors might contribute to the development of edema formation and the excitotoxic neuronal cell death during ischemia.
Subject(s)
Animals , Rats , Apoptosis , Aquaporin 4 , Astrocytes , Blotting, Western , Brain Edema , Brain Ischemia , Cell Death , Cerebral Infarction , Cytoplasm , Dystrophin , Edema , Immersion , Immunoprecipitation , Ischemia , Microscopy, Confocal , Neurons , Pia Mater , Receptors, AMPA , Receptors, KIRABSTRACT
Pituitary adenoma accounts for 10% to 20% of intracranial tumors. Surgical approach to pituitary adenoma had been performed via craniotomy until the early 20th century, but transsphenoidal approach has been accepted as a primary procedure since 1910. However, there are frequent complications in the nose including nasal mucosal laceration, nasal septal perforation, and external nose deformities. Furthermore, cerebrospinal fluid leakage, visual field loss or blindness rarely occur. When blindness occurs by postoperative hematoma compression, revision operation is usually required for bleeding control and hematoma removal under general anesthesia. However, optic nerve decompression with postoperative hematoma removal via transsphenoidal approach can be adequately performed by endoscopic technique under local anesthesia, because there is no sensory nerve innervation in the pia mater and arachnoid membrane. We report a case of successful hematoma removal with bleeding control by endoscopic technique under local anesthesia in a patient who became blind due to postoperative hematoma after transphenoid approach for pituitary adenoma removal.
Subject(s)
Humans , Anesthesia, General , Anesthesia, Local , Arachnoid , Blindness , Cerebrospinal Fluid , Congenital Abnormalities , Craniotomy , Decompression , Hematoma , Hemorrhage , Lacerations , Membranes , Nasal Septal Perforation , Nose , Optic Nerve , Pia Mater , Pituitary Diseases , Pituitary Neoplasms , Visual FieldsABSTRACT
OBJECTIVE: Acute spontaneous subdural hematoma(SDH) secondary to a ruptured intracranial aneurysm is a rare event. The authors present nine cases with aneurysmal SDH. METHODS: We analyzed nine cases of aneurysmal SDH from 337 patients who underwent treatment for a ruptured aneurysm between January 1998 and May 2004. Clinical and radiological characteristics and postoperative course were evaluated by reviewing medical records, surgical charts and intraoperative videos. RESULTS: The nine patients comprised four males and five females with a mean age of 53years (range 15-67years). The World Federation of Neurosurgical Societies grades on admission were I in one patient, II in two patients, III in five patients and V in one patient. With respect to location, there were four internal carotid-posterior communicating artery(ICA-Pcom) aneurysms, one distal anterior cerebral artery(DACA) aneurysm, one anterior communicating artery and three middle cerebral artery aneurysms. CT scans obtained from the four patients with ICA-Pcom aneurysms revealed SDH over the convexity and along the tentorium, and two of these patients presented with pure SDH without subarachnoid hemorrhage(SAH). In three patients with ICA-Pcom aneurysm, the ruptured aneurysm domes adhered to the petroclinoid fold. In the patient with the DACA aneurysm, the domes adhered tightiy to the pia mater and the falx. CONCLUSION: Ruptured intracranial aneurysm may cause SDH with or without SAH. In the absence of trauma, the possibility of aneurysmal SDH should be considered.
Subject(s)
Female , Humans , Male , Aneurysm , Aneurysm, Ruptured , Arteries , Hematoma, Subdural , Intracranial Aneurysm , Medical Records , Pia Mater , Tomography, X-Ray ComputedABSTRACT
<p><b>OBJECTIVE</b>Multiple subpial transection (MST) is one approach to the surgical treatment of intractable epilepsy with epileptogenic lesion located in functional areas. To verify the effect of MST, an experimental study was performed first, followed by clinical application.</p><p><b>METHODS</b>On the basis of the experimental study, MST was performed in 200 intractable epileptic patients from 1991 to 2000. Of them, 80 cases underwent MST only while 120 others underwent MST combined with other techniques, such as corpus callosotomy, temporal lobectomy and focus resection. A series of modifications of the surgical techniques were made.</p><p><b>RESULTS</b>The results of the experimental study indicated that MST could inhibit the formation and spreading of epileptic discharge and limit the damage to neurons in a minimal area on the epileptogenic agent injected cortex. MST does not impair major functions of the cortex. After the clinical application and modifications, 160 patients were followed up for 1 to 8 years. Complete control of seizure was obtained in 100 cases (62.5%), significant reduction (more than 75%) in 32, reduction (more than 50%) in 20 and no change in 8. The total rate of effectiveness was 95.0%, and the significant rate of effectiveness was 82.5%. No functional defects were found in any patients.</p><p><b>CONCLUSIONS</b>The results indicate that MST is an effective approach to the surgical treatment of intractable epilepsy. MST can be combined with other approaches. The outcome of the subdivision of the MST only group indicates that MST on local epileptogenic lesion without structural changes is as effective as that of the combined operation group. To evade hemispheric disturbance, MST should be done first to avoid severe complications. Hemispherectomy should be performed only on poor effected cases of MST.</p>
Subject(s)
Adolescent , Adult , Child , Child, Preschool , Female , Humans , Male , Middle Aged , Epilepsy , General Surgery , Pia Mater , Surgical Procedures, Operative , MethodsABSTRACT
A 43 year old man with thirty years history of recurrent hemiplegic migraine, consistently occurring on one side (left sided paresthesia and weakness of less than forty five minutes followed by right sided headache) and lately increasing to once in three days was investigated. CT head and carotid angiogram showed gyral calcification with prominent medullary and subependymal veins confirming the diagnosis of leptomeningeal angiomatosis. Management and followup is discussed.
Subject(s)
Adult , Angiomatosis/complications , Arachnoid , Central Nervous System Diseases/complications , Hemiplegia/etiology , Humans , Male , Migraine Disorders/etiology , Pia MaterABSTRACT
Type IV spinal cord arteriovenous malformation is a spinal vascular anomaly supplied by the anterior spinal artery and drained directly into an enlarged venous outflow. Direct fistula lies completely outside the spinal cord and pia mater. We report a case of intradural perimedullary arteriovenous fistula in 58-years-old man who presented with progressive paraparesis. Angiographically single fistulous perimedullary communication with moderate-sized abnormal venous engorgement was demonstrated through anterior spinal artery. Direct surgical obliteration of the fistulous site was performed. Spinal angiographic evaluation and recognition of their exact pathophysiology according to individual types of spinal AVMs is the most important in successful execution of planned surgery and to achieve the good outcome.
Subject(s)
Arteries , Arteriovenous Fistula , Arteriovenous Malformations , Fistula , Hyperemia , Paraparesis , Pia Mater , Spinal CordABSTRACT
Type IV spinal cord arteriovenous malformation is a spinal vascular anomaly supplied by the anterior spinal artery and drained directly into an enlarged venous outflow. Direct fistula lies completely outside the spinal cord and pia mater. We report a case of intradural perimedullary arteriovenous fistula in 58-years-old man who presented with progressive paraparesis. Angiographically single fistulous perimedullary communication with moderate-sized abnormal venous engorgement was demonstrated through anterior spinal artery. Direct surgical obliteration of the fistulous site was performed. Spinal angiographic evaluation and recognition of their exact pathophysiology according to individual types of spinal AVMs is the most important in successful execution of planned surgery and to achieve the good outcome.
Subject(s)
Arteries , Arteriovenous Fistula , Arteriovenous Malformations , Fistula , Hyperemia , Paraparesis , Pia Mater , Spinal CordABSTRACT
GFAP (Glial Fibrillary Acidic Protein) was one of the intermediate filament group and used as an astrocyte marker. The numerous studies about GFAP immunoreactive cell's distribution were investigated for fetus, neonate and aged brains. There are several reports about that GFAP immunoreactive cells were appeared at early fetus and after birth. In cases of mammalian fetus radial glia cells migrated toward pial surface at early stage and revealed GFAP immunoreactivity by the immunostain. But in cases of rodents, they migrated at late gestation or after birth. This study, the GFAP immunoreactive cells' localizations and distribution in the fetuses (the 30 th, 45 th, 60 th, 90 th, 105 th, 120 th of gestation) and neonate mesencephalon of korean native goat were investigated by immunohistoche-mistry (ABC method). The results obtained in this study were summarized as followings; 1. Multipolar astrocytes at 60 days of gestation were found in midbrain, in 90 days of gestation were found in cerebral aqueduct. 2. Radial glial cell presented 60 days of gestation and process of GFAP immunoreaction was to stretch out from ventricular to pia mater and nonpolar immunoreactive cell was transformed to bipolar, monopolar and multipolar immunoreactive cell. 3. The number of GFAP immunoreactive cells of field were gradually decreased from 90 days of gestation till 105 days of gestation. But in 120 days of gestation and newborn were slightly increased. 4. Immunoreactivity of GFAP immunoreactive cells were gradually decreased from 95 days of gestation till 120 days of gestatioin. These results were suggested that radial glial cell of midbrain developed very earlier than that of cerebral aqueduct. However, cerebral aqueduct developed lately than that of midbrain, but faster developing than other.
Subject(s)
Humans , Infant, Newborn , Pregnancy , Astrocytes , Brain , Cerebral Aqueduct , Ependymoglial Cells , Fetus , Goats , Intermediate Filaments , Mesencephalon , Neuroglia , Parturition , Pia Mater , RodentiaABSTRACT
Neuropeptide Y(NPY) was first isolated from porcine brain. This discovery has led some workers to study the distribution of this peptide in the central nervous system of various mammals. In this study examined the distribution pattern of NPY-immunoreactive (NPY-IR) neurons in the Striped Field Mouse (Apodemus agrarius coreae) cerebral cortex and striatum, using immunohistochemical method. The results obtained in this study were summarized as followings. 1. NPY-IR neurons distributed in all layer of cerebral cortex. The number of neurons were higher in layer V and VI than in layer I and IV. 2. The shape of neurons was predominantly round or oval in layer I and II, and triangular in layer V and VI. And the processes were parallel to pia mater in layer I and II and were vertical in layer III. 3. The highest number of NPY-IR neurons were found in the perirhinal cortex but a few distinct population were found in the retrosplenial cortex. 4. In stiatum NPY-IR neurons were observed only in caudate-putamen nucleus. 5. The Immunoreactive neurons in caudate-putamen varied in their shape, but most of them were triangular or multiform neurons had omnidirectional processes.
Subject(s)
Animals , Mice , Brain , Central Nervous System , Cerebral Cortex , Corpus Striatum , Mammals , Neurons , Neuropeptide Y , Neuropeptides , Pia MaterABSTRACT
GFAP (Glial Fibrillary Acidic Protein) was one of the intermediate filament group and used as an astrocyte marker. The numerous studies about GFAP immunoreactive cell's distribution were investigated for fetus, neonate and aged brains. There are several reports about that GFAP immunoreactive cells were appeared at early fetus or after birth. In cases of mammalian fetus radial glia cells migrated toward pial surface at early stage and revealed GFAP immunoreactivity by the immunostain. But in cases of rodents, they migrated last gestation or after birth. This study, the GFAP immunoreactive cells' localizations and distribution in the fetuses (the 30th, 45th, 60th, 90th, 95th, 105th 120th of gestation) and neonate telencephalon of Korean native goat were investigated by immunohisto-chemistry (ABC method). The results obtained in this study were summarized as followings; 1. Multipolar astrocytes of 60 days of gestation were found cerebral cortex, in 95 days of gestation were found cerebral medulla, in 105 days of gestation were found lateral ventricle. 2. Radial glial cell presented 45 days of gestation and process of GFAP immunoreactive was to stretch out from ventricular to pia mater. And the nonpolar immunoreactive cells were transformed bipolar immunoreactive cells and they were transformed to monopolar and multipolar immunoreactive cell. 3. The number of GFAP immunoreactive cells of a field were gradually increased from 45 days of gestation till 90 days of gestation and decreased from 90 days of gestation till 105 days of gestation. But in 120 days of gestation and newborn were slightly increased. 4. Immunoreactivity of GFAP immunoreactive cells were gradually decreased from 95 days of gestation till 120 days of gestatioin. However, most pia mater areas and ventricles had high immunoreactivity and medulla part had low immunoreactivity. These results were suggested that radial glial cell of cerebral cortex and cerebral medulla were developed faster than lateral ventricle.
Subject(s)
Humans , Infant, Newborn , Pregnancy , Astrocytes , Brain , Cerebral Cortex , Ependymoglial Cells , Fetus , Goats , Immunohistochemistry , Intermediate Filaments , Lateral Ventricles , Neuroglia , Parturition , Pia Mater , Rodentia , TelencephalonABSTRACT
It is important to obtain a good exposure of the root exit zone(REZ) of the facial nerve during microvascular decompression(MVD) for hemifacial spasm(HFS). For this purpose, authors dissected cerebellar cortical artery in addition to exposing the proximal portion of lower cranial nerves. During MVD for HFS, surgeons frequently meet a cerebellar cortical artery along the inferolateral aspect of cerebellar hemisphere. It is usually hemispheric branch of anterior inferior cerebellar artery(AICA) or posterior inferior cerebellar artery(PICA). It is reason that authors have dissected the outside arachnoid membrane attached pia mater of cerebellar cortical artery with a arachnoid knife or microscissor but preserve the inside arachnoid membrane attached dura mater. Microsurgical retractor is placed inferolaterally between cerebellar cortical artery and cerebellar hemisphere and elevated from the floor of the posterior fossa. The subarachnoid cisterns over the lower cranial nerves are opened with sharp dissector and wide operative fields and good exposure of REZ of facial nerve is obtained.