Frequency and outcome of olfactory impairment and sinonasal involvement in hospitalized patients with COVID-19

Background: Olfactory dysfunction has shown to accompany COVID-19. There are varying data regarding the exact frequency in the various study population. The outcome of the olfactory impairment is also not clearly defined. Objective: To find the frequency of olfactory impairment and its outcome in hospitalized patients with positive swab test for COVID-19. Methods: This is a prospective descriptive study of 100 hospitalized COVID-19 patients, randomly sampled, from February to March 2020. Demographics, comorbidities, and laboratory findings were analyzed according to the olfactory loss or sinonasal symptoms. The olfactory impairment and sinonasal symptoms were evaluated by 9 Likert scale questions asked from the patients. Results: Ninety-two patients completed the follow-up (means 20.1 (± 7.42) days). Twenty-two (23.91) patients complained of olfactory loss and in 6 (6.52) patients olfactory loss was the first symptom of the disease. The olfactory loss was reported to be completely resolved in all but one patient. Thirty-nine (42.39) patients had notable sinonasal symptoms while rhinorrhea was the first symptom in 3 (3.26). Fifteen patients (16.3) had a taste impairment. Patients with sinonasal symptoms had a lower age (p = 0.01). There was no significant relation between olfactory loss and sinonasal symptoms (p = 0.07). Conclusions: Sudden olfactory dysfunction and sinonasal symptoms have a considerable prevalence in patients with COVID-19. No significant association was noted between the sinonasal symptoms and the olfactory loss, which may suggest that other mechanisms beyond upper respiratory tract involvement are responsible for the olfactory loss. © 2020, Fondazione Società Italiana di Neurologia

Minicraniotomy Under Local Anesthesia and Monitored Sedation for the Operative Treatment of Uncomplicated Traumatic Acute Extradural Hematoma

Background: Major craniotomy is currently the de facto operative treatment for traumatic acute extradural hematoma (AEDH). This craniotomy, involving extensive scalp dissection (the trauma flap) and major cranial bone opening, can be impracticable in the remote regions of some Western countries, and even more so in the low-resource health systems of most developing countries. Methods: We describe the surgical technique of minicraniotomy under local anesthesia plus monitored sedation as a much less invasive operative treatment for AEDH. The results of its use in a preliminary patient group are also presented. Results: The procedure has been carried out in 10 consecutive patients (7 men), including an infant 4 months of age. The age range was 4 months to 56 years. The patients suffered varying severity of head injury, with a median Glasgow Coma Scale (GCS) score of 11 out of 15 (range, 4\u201315). The median trauma to surgery time was 25 hours (range, 13\u2013192 hours). The surgery was successfully completed, with hematoma evacuated and hemostasis achieved. The median duration of surgery was 90 minutes. The in-hospital outcome was Glasgow Outcome Scale score of normal status in 6 patients, moderate deficit in 2 patients, and vegetative state in the patient whose preoperative GCS score was 4. One other patient, admitted with a GCS score of 11, died 5 days postoperatively from extracranial causes. The surviving patients have been followed-up for a median time of 15 months with no new deficits. Conclusions: Compared with full craniotomy under general anesthesia, minicraniotomy under local anesthesia plus sedation may be a more pragmatic, less invasive, and low-cost surgical treatment option for uncomplicated traumatic acute extradural hematoma

NAVIGATION-ASSISTED MICROSCOPIC REMOVAL OF HYPOPHYSEAL ADENOMA:A RETROSPECTIVE STUDY

Neuronavigation is a commonly used technology that provides continuous, three-dimensional information for the precise localization of and surgical trajectory to brain lesions. This study was performed to evaluate the role that navigation can play in assisting microsurgical trans-sphenoidal surgery for precise localization and removal of pituitary tumours while simultaneously preserving pituitary gland function. Six patients (3 males and 33 females) with ypophyseal adenomas were treated with neuronavigation-assisted removal. Surgery was performed via endonasal trans-sphenoidal approach. Three patients had residual adenomas and two of the relapsed. There was one post operative rhinoliquorrea. In two cases the visual deficit did not significantly improved after operation. No statistical significance was detected among tumor dimensions with residual tumor, surgical complication (i.e. rhinoliquorrea), persisting visual deficit and used of abdominal fat for closing the sphenoidal field, respectively. Microneurosurgical trans-sphenoidal techniques combined with neuronavigation systems can precisely define the localization and removal of lesions in the sella region with respect to the margins of important anatomical structures in the neighbourhood and the endocrinological functionality of the pituitary gland. Neuronavigation can be easy applied during endonasal trans-sphenoidal microscopic surgery and requires a minimal amount of time. It makes operation easier, faster, and probably safe

Gliomi cerebrali: considerazioni sui protocolli terapeutici e sulla sopravvivenza.

none5Studio sugli oncotipi cerebrali e sui protocolli terapeutici più adeguati.noneR.Ghadirpour; G.Trapella; M.Yusuf; M.Migliore; PL ApiR., Ghadirpour; Trapella, Giorgio; M., Yusuf; M., Migliore; Pl, Ap

Idiopathic dissection of vertebral artery

No abstract availabl

Primary pituitary neuroendocrine tumor: Case report and literature review

Background: Neuroendocrine tumors (NET) originate from the diffuse neuroendocrine system. These can arise in almost every organ of the body, although they are most commonly found in the gastrointestinal tract and respiratory system. The skull base and sellar region are extremely rare sites for neuroendocrine carcinoma. Consequently, in this case, both diagnosis and definition of surgical goals, as well as further treatment strategies were challenging. Case Description: A 65-year-old woman was admitted to our Neurosurgery Department with a rapidly progressive visus reduction, drowsiness, polyuria, and polydipsia. Neuroimaging showed a sellar/suprasellar mass (diameter of 2 cm) with a heterogeneous signal compressing the optic chiasm and extending laterally toward the cavernous sinus. Differential diagnosis based on imaging included pituitary macroadenoma or metastasis. The patient underwent endoscopic endonasal transsphenoidal surgery. A total resection of the mass was impossible because of the infiltration of the optic chiasm and the intraoperative histological diagnosis of malignant epithelial neoplasm. Further histological evaluation revealed that the lesion was a NET with no other primary or metastatic sites detectable. Subsequently, the patient was successfully treated with fractioned stereotactic radiotherapy and polychemotherapy. Four years after the surgery, follow-up magnetic resonance imaging showed stability of the residual disease. Neurologic examination revealed a complete visual recovery. Conclusions: Primary pituitary NET, though rare, should be included in the differential diagnosis of sellar lesions. A multimodality treatment approach is needed. Finally, the present case highlights, that in the case of a pituitary lesion infiltrating the optic chiasm, including NET, the endoscopic endonasal transsphenoidal subtotal resection followed by fractioned stereotactic radiotherapy and chemotherapy may represent an effective and safe choice of treatment

Intraoperative neurophysiological monitoring for intradural extramedullary tumors: Why not?

BACKGROUND: While intraoperative neurophysiological monitoring (IOM) for intramedullary tumors has become a standard in neurosurgical practice, IOM for intradural extramedullary tumors (IDEMs) is still under debate. The aim of this study is to evaluate the role of IOM during surgery for IDEMs. METHODS: From March 2008 to March 2013, 68 patients had microsurgery with IOM for IDEMs (31 schwannomas, 25 meningiomas, 6 ependymomas of the cauda/filum terminalis, 4 dermoid cysts and 2 other lesions). The IOM included somatosensory evoked potentials (SEPs), motor evoked potentials (MEPs), and - in selected cases - D-waves. Also preoperative and postoperative neurophysiological assessment was performed with SEPs and MEPs. All patients were evaluated at admission and at follow up (minimum 6 months) with the Modified McCormick Scale (mMCs). RESULTS: Three different IOM patterns were observed during surgery: no change in evoked potentials (63 cases), transitory evoked potentials change (3 cases) and loss of evoked potentials (2 cases). In the first setting surgery was never stopped and a radical tumor removal was achieved (no stop surgery group). In 3 cases of transitory evoked potentials change, surgery was temporarily halted but the tumors were at the end completely removed (stop and go surgery group). In 2 more patients the loss of evoked potentials led to an incomplete resection (stop surgery group). No patients presented a worsening of the pre-operative clinical conditions (at admission 47 patients presented mMCs 1-2 and 21 patients mMCs 3-5, while at follow up 62 patients are mMCS 1-2 and 6 patients mMCs 3-5). CONCLUSIONS: In our series significant IOM changes occurred in 5 out of 68 patients with IDEMs (7.35%), and it is conceivable that the modification of the surgical strategy - induced by IOM - prevented or mitigated neurological injury in these cases. Vice versa, in 63 patients (92.65%) IOM invariably predicted a good neurological outcome. Furthermore this technique allowed a safer tumor removal in IDEMs placed in difficult locations as cranio-vertebral junction or in antero/antero-lateral position (where rotation of spinal cord can be monitored) and even in case of tumor adherent to the spinal cord without a clear cleavage plane

Significance of the radiotherapic techique in the treatment of glioblastoma

none7Effect of radiotherapy in brain tumorsnoneP.Api; A.Saletti; M.Nagliati; R.Ghadirpour; G.Trapella; V.Veronesi; L.PerazziniP., Api; A., Saletti; M., Nagliati; R., Ghadirpour; Trapella, Giorgio; V., Veronesi; L., Perazzin

Intraoperative neurophysiological monitoring for intradural extramedullary spinal tumors: Predictive value and relevance of D-wave amplitude on surgical outcome during a 10-year experience

OBJECTIVE The purpose of this study was to evaluate the technical feasibility, accuracy, and relevance on surgical outcome of D-wave monitoring combined with somatosensory evoked potentials (SSEPs) and motor evoked potentials (MEPs) during resection of intradural extramedullary (IDEM) spinal tumors. METHODS Clinical and intraoperative neurophysiological monitoring (IONM) data obtained in 108 consecutive patients who underwent surgery for IDEM tumors at the Institute for Scientific and Care Research “ASMN” of Reggio Emilia, Italy, were prospectively entered into a database and retrospectively analyzed. The IONM included SSEPs, MEPs, and—whenever possible—D-waves. All patients were evaluated using the modified McCormick Scale at admission and at 3, 6, and 12 months of follow-up . RESULTS A total of 108 patients were included in this study. A monitorable D-wave was achieved in 71 of the 77 patients harboring cervical and thoracic IDEM tumors (92.2%). Recording of D-waves in IDEM tumors was significantly associated only with a preoperative deeply compromised neurological status evaluated using the modified McCormick Scale (p = 0.04). Overall, significant IONM changes were registered in 14 (12.96%) of 108 patients and 9 of these patients (8.33%) had permanent loss of at least one of the 3 evoked potentials. In 7 patients (6.48%), the presence of an s18278 caudal D-wave was predictive of a favorable long-term motor outcome even when the MEPs and/or SSEPs were lost during IDEM tumor resection. However, in 2 cases (1.85%) the D-wave permanently decreased by approximately 50%, and surgery was definitively abandoned to prevent permanent paraplegia. Cumulatively, SSEP, MEP, and D-wave monitoring significantly predicted postoperative deficits (p = 0.0001; AUC = 0.905), with a sensitivity of 85.7% and a specificity of 97%. Comparing the area under the receiver operating characteristic curves of these tests, D-waves appeared to have a significantly greater predictive value than MEPs and especially SSEPs alone (0.992 vs 0.798 vs 0.653; p = 0.023 and p < 0.001, respectively). On multiple logistic regression, the independent risk factors associated with significant IONM changes in the entire population were age older than 65 years and an anterolateral location of the tumor (p < 0.0001). CONCLUSIONS D-wave monitoring was feasible in all patients without severe preoperative motor deficits. D-waves demonstrated a statistically significant higher ability to predict postoperative deficits compared with SSEPs and MEPs alone and allowed us to proceed with IDEM tumor resection, even in cases of SSEP and/or MEP loss. Patients older than 65 years and with anterolateral IDEM tumors can benefit most from the use of IONM