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Radiology Case Reports Aug 2024Ventricular meningiomas are neoplastic cells originating from the ependymal lining of the central canal of the spinal cord and the ventricles of the brain. These...
Ventricular meningiomas are neoplastic cells originating from the ependymal lining of the central canal of the spinal cord and the ventricles of the brain. These tumorigenic cells predominantly manifest in the fourth ventricle, followed by the spinal cord. Most intraparenchymal ventricular meningiomas are located within the brain tissue, exhibiting a higher degree of malignancy compared to their intracerebroventricular counterparts. While intracranial dissemination and metastasis to the spinal cord can occur, extra-neurologic metastasis is an exceedingly rare phenomenon that lacks a clear elucidation regarding its underlying mechanism. The authors presented a case of supratentorial brain parenchymal type ventricular meningioma surgical treatment in a young female patient, occurring two years after the development of multiple metastases in both lungs, pleura, and mediastinum. This may be attributed to the high malignancy degree and strong invasiveness of this lesion, as well as its proximity to the dura mater and venous sinus. The craniotomy provided an opportunity for tumor cells to invade the adjacent venous sinus, leading to dissemination through the blood system. Additionally, postoperative radiation and chemotherapy were administered to inhibit tumor angiogenesis; however, these treatments also increased the likelihood of tumor cell invasion into neighboring brain tissues and distant metastasis.
PubMed: 38845628
DOI: 10.1016/j.radcr.2024.04.092 -
Journal of Materials Chemistry. B Jun 2024Typically occurring after trauma or neurosurgery treatments, dura mater defect and the ensuing cerebrospinal fluid (CSF) leakage could lead to a number of serious...
Typically occurring after trauma or neurosurgery treatments, dura mater defect and the ensuing cerebrospinal fluid (CSF) leakage could lead to a number of serious complications and even patient's death. Although numerous natural and synthetic dura mater substitutes have been reported, none of them have been able to fulfill the essential properties, such as anti-adhesion, leakage blockage, and pro-dura rebuilding. In this study, we devised and prepared a series of robust and biodegradable hydroxyapatite/poly(lactide--ε-caprolactone) (HA/PLCL) membranes for dura repair an electrospinning technique. In particular, PLLA/PCL (80/20) was selected for electrospinning due to its mechanical properties that most closely resembled natural dural tissue. Studies by SEM, XRD, water contact angle and degradation showed that the introduction of HA would destroy PLCL's crystalline structure, which would further affect the mechanical properties of the HA/PLCL membranes. When the amount of HA added increased, so did the wettability and degradation rate, which accelerated the release of HA. In addition, the high biocompatibility of HA/PLCL membranes was demonstrated by cytotoxicity data. The rabbit dura repair model results showed that HA/PLCL membranes provided a strong physical barrier to stop tissue adhesion at dura defects. Meanwhile, the HA/PLCL and commercial group's CSF had a significantly lower number of inflammatory cells than the control groups, validating the HA/PLCL's ability to effectively lower the risk of intracranial infection. Findings from H&E and Masson-trichrome staining verified that the HA/PLCL electrospun membrane was more favorable for fostering dural defect repair and skull regeneration. Moreover, the relative molecular weight of PLCL declined dramatically after 3 months of implantation, according to the results of the degradation test, but it retained the fiber network structure and promoted tissue growth, demonstrating the good stability of the HA/PLCL membranes. Collectively, the HA/PLCL electrospun membrane presents itself as a viable option for dura repair.
Topics: Dura Mater; Polyesters; Animals; Durapatite; Biocompatible Materials; Rabbits; Membranes, Artificial; Materials Testing
PubMed: 38841904
DOI: 10.1039/d4tb00863d -
Surgical Neurology International 2024Minimally invasive endoscopic and stereotactic surgery have been established as surgical treatments for putaminal hemorrhage. However, facilities that do not have...
BACKGROUND
Minimally invasive endoscopic and stereotactic surgery have been established as surgical treatments for putaminal hemorrhage. However, facilities that do not have equipment for endoscopic or stereotactic surgery will likely have to perform conventional craniotomy. Using a tubular retractor, we were able to perform minimally invasive surgery, such as endoscopic surgery.
METHODS
A craniotomy was performed for left putaminal hemorrhage after cerebral infarction treatment. A 3-4 cm craniotomy centered at Kocher's point was performed under general anesthesia. A 2 cm incision was made in the cortex, and a tubular retractor was inserted under a microscope. The hematoma was reached at a position 4-5 cm from the cortex.
RESULTS
Thanks to the tubular retractor, it was relatively easy to observe the hematoma, and it was possible to remove it and confirm hemostasis without difficulty. Brain injury caused by the retractor insertion cavity was small, and no hemostasis was required. The surgery was completed by dura mater closure, bone flap fixation, and wound closure as per the standard. Most of the putaminal hemorrhage could be removed, and there was no rebleeding after the operation. The patient is still undergoing rehabilitation because of aphasia and muscle weakness. Manual Muscle Testing was at three points in the upper limb, and four points in the lower limb remained.
CONCLUSION
For putaminal hemorrhage, microscopic craniotomy was performed using a tubular retractor and an approach such as endoscopic surgery. Craniotomy, hematoma removal, and hemostasis operations are also considered to be minimally invasive surgeries.
PubMed: 38840616
DOI: 10.25259/SNI_265_2024 -
Neurologia Medico-chirurgica Jun 2024Dural dryness makes suturing difficult during dural closure after craniotomy. In this case, dural plasty is often performed using a membrane taken from the surrounding...
Dural dryness makes suturing difficult during dural closure after craniotomy. In this case, dural plasty is often performed using a membrane taken from the surrounding tissue (e.g., fascia or periosteum) or an artificial replacement membrane. Herein, we introduce our novel "roll-up technique" to reduce the utilization of substitute membranes and explore its effectiveness in dural closure. We retrospectively examined the medical records of 50 patients who underwent craniotomy for the first time for supratentorial intracranial lesions between 2015 and 2022. Furthermore, we divided them into two groups: (1) the conventional technique group, which consisted of patients in whom the dura mater was flipped after incision and protected with a moistened gauze (n = 23), and (2) the roll-up technique group, which consisted of patients in whom the dura mater was incised in a U shape, rolled up, and protected with a moist gauze (n = 27). After surgery, we compared the success rates of primary closure, operating time, craniotomy area, and percentage of complications (e.g., cerebrospinal fluid [CSF] leakage or infection) between the groups. Dural closure without dural substitutes using the roll-up technique had a higher success rate than that using the conventional technique (26/27 [96.3%] cases vs. 14/23 [60.9%] cases; P = 0.003). Postoperative CSF leakage or infection did not occur, and no statistically significant difference was observed in the operating time between the groups (P = 0.247). The roll-up technique for dural closure may effectively prevent post-incisional dural shrink after craniotomy.
PubMed: 38839297
DOI: 10.2176/jns-nmc.2023-0247 -
ACS Applied Electronic Materials May 2024Thermoelectric materials offer a promising avenue for energy management, directly converting heat into electrical energy. Among them, AgSbTe has gained significant... (Review)
Review
Thermoelectric materials offer a promising avenue for energy management, directly converting heat into electrical energy. Among them, AgSbTe has gained significant attention and continues to be a subject of research at further improving its thermoelectric performance and expanding its practical applications. This study focuses on Ag-deficient AgSbTe and AgSbTeSe materials, examining the impact of compositional engineering within the AgSbTe thermoelectric system. These materials have been rapidly synthesized using an arc-melting technique, resulting in the production of dense nanostructured pellets. Detailed analysis through scanning electron microscopy (SEM) reveals the presence of a layered nanostructure, which significantly influences the thermoelectric properties of these materials. Synchrotron X-ray diffraction reveals significant changes in the lattice parameters and atomic displacement parameters (ADPs) that suggest a weakening of bond order in the structure. The thermoelectric characterization highlights the enhanced power factor of Ag-deficient materials that, combined with the low glass-like thermal conductivity, results in a significant improvement in the figure of merit, achieving values of 1.25 in AgSbTe and 1.01 in AgSbTeSe at 750 K.
PubMed: 38828031
DOI: 10.1021/acsaelm.3c01653 -
Translational Stroke Research Jun 2024Timely relief of edema and clearance of waste products, as well as promotion of anti-inflammatory immune responses, reduce ischemic stroke pathology, and attenuate...
Timely relief of edema and clearance of waste products, as well as promotion of anti-inflammatory immune responses, reduce ischemic stroke pathology, and attenuate harmful long-term effects post-stroke. The discovery of an extensive and functional lymphatic vessel system in the outermost meningeal layer, dura mater, has opened up new possibilities to facilitate post-stroke recovery by inducing dural lymphatic vessel (dLV) growth via a single injection of a vector encoding vascular endothelial growth factor C (VEGF-C). In the present study, we aimed to improve post-stroke outcomes by inducing dLV growth in mice. We injected mice with a single intracerebroventricular dose of adeno-associated viral particles encoding VEGF-C before subjecting them to transient middle cerebral artery occlusion (tMCAo). Behavioral testing, Gadolinium (Gd) contrast agent-enhanced magnetic resonance imaging (MRI), and immunohistochemical analysis were performed to define the impact of VEGF-C on the post-stroke outcome. VEGF-C improved stroke-induced behavioral deficits, such as gait disturbances and neurological deficits, ameliorated post-stroke inflammation, and enhanced an alternative glial immune response. Importantly, VEGF-C treatment increased the drainage of brain interstitial fluid (ISF) and cerebrospinal fluid (CSF), as shown by Gd-enhanced MRI. These outcomes were closely associated with an increase in the growth of dLVs around the region where we observed increased vefgc mRNA expression within the brain, including the olfactory bulb, cortex, and cerebellum. Strikingly, VEGF-C-treated ischemic mice exhibited a faster and stronger Gd-signal accumulation in ischemic core area and an enhanced fluid outflow via the cribriform plate. In conclusion, the VEGF-C-induced dLV growth improved the overall outcome post-stroke, indicating that VEGF-C has potential to be included in the treatment strategies of post-ischemic stroke. However, to maximize the therapeutic potential of VEGF-C treatment, further studies on the impact of an enhanced dural lymphatic system at clinically relevant time points are essential.
PubMed: 38822994
DOI: 10.1007/s12975-024-01262-9 -
Child's Nervous System : ChNS :... Jun 2024Acalvaria, or acrania, is a rare congenital cranial vault defect with neurocranium absences, including complete or part of calvaria flat bones, dura mater, and...
BACKGROUND
Acalvaria, or acrania, is a rare congenital cranial vault defect with neurocranium absences, including complete or part of calvaria flat bones, dura mater, and associated muscles, but with a still present in the central nervous system, skull base, facial bones, and skin-covered the defect. It is a sporadic incidence without apparent genetic factors confirmed. Acalvaria is often misdiagnosed as anencephaly; the distinguishable difference is that anencephaly has an absence (partial or complete) of the brain tissue, including the skull and scalp. Acalvaria is considered a fatal anomaly with a low survival rate, and only a few cases of extended survival have been reported until now. To the best of the author's knowledge, no acalvaria case has been published in Papua, and only one reported case of the coexistence of acalvaria with schizencephaly in Brazil (2018).
CASE REPORT
Herein, we present a case of an indigenous South Papuan living newborn with primary acalvaria and open-lip schizencephaly in a frontoparietal region. A male newborn baby was born from a 39-year-old female Marind-Anim tribe patient with a 38th week of gestation, with no previous history of miscarriage, is not a consanguineous marriage, and had an unremarkable medical history during this pregnancy. Post-natal physical examinations showed an irregularly shaped head with 11.5 cm diameter concave of the right side, with a soft brain-like consistency palpable and the absence of half right frontoparietal calvarium covered with a presence of scalp and hair. Cranial 2-dimension ultrasonography shows an absence of half right frontoparietal calvaria bone with a complete presence of scalp and periosteum covering the defect with a fluid accumulation (anechoic) below the periosteum. A transverse axis view shows a complete structure but hypoplasia of brain cortex with visible slightly dysgenesis of gyrus and sulcus in both hemispheres convincing the acalvaria condition not anencephaly. A fluid accumulation above brain parenchyma of the frontoparietal region happened to be a cerebrospinal fluid coming from a wide-open cleft extending from the left lateral and fourth ventricles to the cerebral cortex, suggesting a typical condition of open-lip schizencephaly. Further health follow-ups until 6 months old showed still normal physical and behavioral development with no sign of complications.
CONCLUSIONS
No standard acalvaria treatment is being established; conservative and supportive therapy is mostly taken considering their low survival rate. With the advancement of medical technology nowadays, surgical approaches, including scalp defect closure, bone graft, and 3D-printed defect filling, are being performed and have succeeded in a few cases. Long-term follow-up is required to monitor their neuro-psychological development and complication incidences that need further intervention.
PubMed: 38822831
DOI: 10.1007/s00381-024-06473-x -
Neurosurgical Review Jun 2024This Article provides a concise summary of the comprehensive exploration into the dura mater, dural tears, and the groundbreaking medical device, ArtiFascia® Dura... (Review)
Review
This Article provides a concise summary of the comprehensive exploration into the dura mater, dural tears, and the groundbreaking medical device, ArtiFascia® Dura Substitute. The neuroanatomy of the dura mater is elucidated, emphasizing its resilience and susceptibility to tears during spinal surgery. Dural repair methods are scrutinized, with research findings revealing the efficacy of primary closure with or without a patch.The introduction of ArtiFascia®, a nanofiber-based resorbable dural repair graft, represents a pivotal moment in neurosurgery. Obtaining 510(k) clearance from the FDA, ArtiFascia® demonstrates exceptional biological benefits, including enhanced cellular adhesion and tissue regeneration. The device's safety is affirmed through chemical analysis and toxicological risk assessment.The NEOART study, a randomized clinical trial involving 85 subjects across prominent European medical centers, validates ArtiFascia®'s superiority over existing dural substitutes. Noteworthy findings include exceptional graft strength, durability, and its ability to withstand physiological pressures.In conclusion, ArtiFascia® marks a revolutionary era in neurosurgery, promising safer and more effective solutions. This innovative device has the potential to elevate standards of care, offering both patients and surgeons an improved experience in navigating the complexities of neurosurgical procedures. The abstract encapsulates the key elements of the research, emphasizing the transformative impact of ArtiFascia® in the field.
Topics: Humans; Dura Mater; Neurosurgical Procedures; Neurosurgery; Nanofibers
PubMed: 38822140
DOI: 10.1007/s10143-024-02488-9 -
British Journal of Neurosurgery Jun 2024
Topics: Humans; Dura Mater; Biocompatible Materials; Neurosurgical Procedures
PubMed: 38805615
DOI: 10.1080/02688697.2024.2350795 -
The Journal of Headache and Pain May 2024Pain, an evolutionarily conserved warning system, lets us recognize threats and motivates us to adapt to those threats. Headache pain from migraine affects approximately...
BACKGROUND
Pain, an evolutionarily conserved warning system, lets us recognize threats and motivates us to adapt to those threats. Headache pain from migraine affects approximately 15% of the global population. However, the identity of any putative threat that migraine or headache warns us to avoid is unknown because migraine pathogenesis is poorly understood. Here, we show that a stress-induced increase in pituitary adenylate cyclase-activating polypeptide-38 (PACAP38), known as an initiator of allosteric load inducing unbalanced homeostasis, causes headache-like behaviour in male mice via mas-related G protein-coupled receptor B2 (MrgprB2) in mast cells.
METHODS
The repetitive stress model and dural injection of PACAP38 were performed to induce headache behaviours. We assessed headache behaviours using the facial von Frey test and the grimace scale in wild-type and MrgprB2-deficient mice. We further examined the activities of trigeminal ganglion neurons using in vivo Pirt-GCaMP Ca imaging of intact trigeminal ganglion (TG).
RESULTS
Repetitive stress and dural injection of PACAP38 induced MrgprB2-dependent headache behaviours. Blood levels of PACAP38 were increased after repetitive stress. PACAP38/MrgprB2-induced mast cell degranulation sensitizes the trigeminovascular system in dura mater. Moreover, using in vivo intact TG Pirt-GCaMP Ca imaging, we show that stress or/and elevation of PACAP38 sensitized the TG neurons via MrgprB2. MrgprB2-deficient mice showed no sensitization of TG neurons or mast cell activation. We found that repetitive stress and dural injection of PACAP38 induced headache behaviour through TNF-a and TRPV1 pathways.
CONCLUSIONS
Our findings highlight the PACAP38-MrgprB2 pathway as a new target for the treatment of stress-related migraine headache. Furthermore, our results pertaining to stress interoception via the MrgprB2/PACAP38 axis suggests that migraine headache warns us of stress-induced homeostatic imbalance.
Topics: Animals; Pituitary Adenylate Cyclase-Activating Polypeptide; Mast Cells; Male; Mice; Stress, Psychological; Receptors, G-Protein-Coupled; Trigeminal Ganglion; Headache; Mice, Knockout; Mice, Inbred C57BL; Disease Models, Animal
PubMed: 38802819
DOI: 10.1186/s10194-024-01786-3