Saturday, April 27, 2013

Neurosurgery App FREE


Neurosurgery App 



 

https://itunes.apple.com/br/app/neurosurgery-app/id587505622?l=en&mt=8

https://play.google.com/store/apps/details?id=com.sodavirtual.neurosurgery

 

DESCRIPTION

Latest news, researches and blog about Neurology, Neuroscience and Neurosurgery.


To provide neurosurgeons with the most timely comprehensive and relevant clinical information to improve patient care.


The mission of Neurosurgery blog is to facilitate the equitable, global dissemination of high-quality health research; to promote international dialogue and collaboration on health issues; to improve clinical practice; and to expand and deepen the understanding of health and health care.

Site: www.neurocirurgiabr.com/apps

Brain Atrophy Tied to MS Development (CME/CE)

(MedPage Today) -- Progression from clinically isolated syndrome to definite multiple sclerosis was significantly associated with atrophy in the thalamus among patients treated with interferon-beta-1a, researchers said.





Autism Tied to Valproate in Pregnancy (CME/CE)

(MedPage Today) -- Women who take valproate (Depacon) during pregnancy may increase the risk of childhood autism and its spectrum disorders in their children, a population-based study showed.





Enquete sobre a Plataforma Brasil e o Sistema CEP/CONEP.

Está disponível no site da SBPPC uma nova enquete sobre a Plataforma Brasil e o Sistema CEP/CONEP.O objetivo é saber a opinião dos profissionais de pesquisa clínica sobre a qualidade e praticidade dessa ferramenta, após um ano e três meses de uso.Inserimos também 5 questões sobre os novos fatos de relevância para o setor.Acesse Enquete sobre a Plataforma Brasil e o Sistema CEP/CONEP .





Incidence, diagnosis, and management of sacral fractures following multilevel spinal arthrodesis

Publication date: Available online 23 April 2013
Source:The Spine Journal
Author(s): Dennis S. Meredith , Fadi Taher , Frank P. Cammisa Jr. , Federico P. Girardi
Background Fractures of the sacrum are a rare complication following instrumented spinal fusion, with only 34 cases previously reported in the literature. Previous series have generally been limited to less than five cases. Purpose The purpose of this study is to determine the incidence of sacral fractures caudal to instrumented spinal fusion constructs, identify risk factors for fracture and for failure of conservative management, and describe strategies for surgical treatment of these fractures. Study design This is a retrospective review. Patient sample Patients undergoing instrumented posterior spinal arthrodesis between 2002 and 2011 were included in the sample. Outcome measures Clinical and radiographic data from hospital and surgeon records comprise outcome measures. Methods Methods include a review of clinical and radiographic data from a prospectively collected patient database recording all adjacent segment fractures during the study period. Results Twenty-four patients developed sacral fractures caudal to instrumented spinal fusion constructs during the study period. The overall incidence was 6.1% and was significantly greater in fusions greater than four levels (14.5%). The mean time from index surgery to fracture was 4.3 months. Only one fracture was evident on plain radiography at the onset of symptoms. Computed tomography, magnetic resonance imaging, and nuclear scintigraphy can all be used to establish the diagnosis. Eight patients were successfully treated conservatively. The mean time to fracture union was 21 weeks. Anterolisthesis of the fracture greater than 2 mm and kyphotic angulation were significantly associated with failure of conservative management. Surgical intervention included posterior extension of the fusion construct to S2 and the iliac wings with sacroiliac joint fusion. In 10 cases, a combined anterior and posterior approach was used that consisted of either revision anterior lumbar interbody fusion or transsacral posterior lumbar interbody fusion. Conclusions Sacral fractures following instrumented posterior spinal fusion are an uncommon complication; that is often unrecognized on plain radiographs. Risk factors include osteoporosis and long spinal fusions. Anterolisthesis and kyphosis of the fracture is associated with failure of conservative management.






Complications from minimally invasive lumbar interbody fusion: Experience from 100 patients

Publication date: Available online 25 April 2013
Source:Journal of Clinical Neuroscience
Author(s): Antonio Tsahtsarlis , Johnny L. Efendy , Richard J. Mannion , Martin J. Wood
Minimally invasive lumbar fusion is well described and is reported to offer significant advantages to patients in terms of blood loss, a reduction in post-operative pain and a quicker recovery. However, this technique may expose patients to a greater risk of complications when compared to open lumbar instrumented fusion that may negate these advantages. Between January 2007 and March 2001, we conducted a prospective observational study of 100 consecutive patients (48 males and 52 females, mean age of 54years) to investigate complications occurring from minimally invasive lumbar interbody fusion surgery using an image-guided technique. All patients underwent post-operative CT scans to assess implant placement. Scanning was repeated at 6months to assess bony fusion. We observed the following complications: 2.5% (11/435) pedicle screw misplacement, 1.7% (2/120) interbody cage misplacement; 0.8% (1/120) interbody cage migration; 0.8% (1/120) patients requiring a post-operative blood transfusion; 2% (2/100) venous thrombo-embolism and 3% (3/100) patients with complications thought to be related to the use of bone morphogenic protein. There were no occurrences of infection and no cerebrospinal fluid leaks. We concluded that the rate of complications from minimally invasive lumbar interbody fusion is low, and compares favourably with the rates of complication from open procedures. Moreover, computerised navigation systems can be used in place of real-time fluoroscopy to guide implant placement, without an increase in the rate of complications.






Complications from minimally invasive lumbar interbody fusion: Experience from 100 patients

Publication date: Available online 25 April 2013
Source:Journal of Clinical Neuroscience
Author(s): Antonio Tsahtsarlis , Johnny L. Efendy , Richard J. Mannion , Martin J. Wood
Minimally invasive lumbar fusion is well described and is reported to offer significant advantages to patients in terms of blood loss, a reduction in post-operative pain and a quicker recovery. However, this technique may expose patients to a greater risk of complications when compared to open lumbar instrumented fusion that may negate these advantages. Between January 2007 and March 2001, we conducted a prospective observational study of 100 consecutive patients (48 males and 52 females, mean age of 54years) to investigate complications occurring from minimally invasive lumbar interbody fusion surgery using an image-guided technique. All patients underwent post-operative CT scans to assess implant placement. Scanning was repeated at 6months to assess bony fusion. We observed the following complications: 2.5% (11/435) pedicle screw misplacement, 1.7% (2/120) interbody cage misplacement; 0.8% (1/120) interbody cage migration; 0.8% (1/120) patients requiring a post-operative blood transfusion; 2% (2/100) venous thrombo-embolism and 3% (3/100) patients with complications thought to be related to the use of bone morphogenic protein. There were no occurrences of infection and no cerebrospinal fluid leaks. We concluded that the rate of complications from minimally invasive lumbar interbody fusion is low, and compares favourably with the rates of complication from open procedures. Moreover, computerised navigation systems can be used in place of real-time fluoroscopy to guide implant placement, without an increase in the rate of complications.






Beneficial effects of physical exercise on neuroplasticity and cognition

Publication date: Available online 25 April 2013
Source:Neuroscience & Biobehavioral Reviews
Author(s): Kirsten Hötting , Brigitte Röder
The human brain adapts to changing demands by altering its functional and structural properties ("neuroplasticity") which results in learning and acquiring skills. Convergent evidence from both human and animal studies suggests that physical activity facilitates neuroplasticity of certain brain structures and as a result cognitive functions. Animal studies have identified an enhancement of neurogenesis, synaptogenesis, angiogenesis and the release of neurotrophins as neural mechanisms mediating beneficial cognitive effects of physical exercise. This review summarizes behavioral consequences and neural correlates at the system level following physical exercise interventions in humans of different ages. The results suggest that physical exercise may trigger processes facilitating neuroplasticity and, thereby, enhances an individual's capacity to respond to new demands with behavioral adaptations. Indeed, some recent studies have suggested that combining physical and cognitive training might result in a mutual enhancement of both interventions. Moreover, new data suggest that to maintain the neuro-cognitive benefits induced by physical exercise, an increase in the cardiovascular fitness level must be maintained.






Molecular Changes Akin To Alzheimer's Discovered In Brain Following Mild Blast Injury

A multicenter study led by scientists at the University of Pittsburgh School of Medicine shows that mild traumatic brain injury after blast exposure produces inflammation, oxidative stress and gene activation patterns akin to disorders of memory processing such as Alzheimer's disease. Their findings were recently reported in the online version of the Journal of Neurotrauma...





Genes and environments in schizophrenia: The different pieces of a manifold puzzle

Publication date: Available online 26 April 2013
Source:Neuroscience & Biobehavioral Reviews
Author(s): János M. Réthelyi , Judit Benkovits , István Bitter
Genetic research targeting schizophrenia has undergone tremendous development during recent years. Supported by recently developed high-throughput genotyping technologies, both rare and common genetic variants have been identified that show consistent association with schizophrenia. These results have been replicated by independent studies and refined in meta-analyses. The genetic variation uncovered consists of common alleles, i.e. single nucleotide polymorphisms (SNPs) conveying small effects (odds ratios below 1.1) on disease risk. The source of rare variants is copy number variations (CNVs), only detectable in a small proportion of patients (3-5% for all known CNVs) with schizophrenia, furthermore extremely rare de novo mutations captured by next generation sequencing, the most recent technological advancement in the field. Despite these findings, the search for the genetic architecture underlying schizophrenia continues since these variants explain only a small proportion of the overall phenotypic variance. Gene-environment interactions provide a compelling model for resolving this paradox and interpreting the risk factors of schizophrenia. Epidemiologically proven risk factors, such as prenatal infection, obstetric complications, urbanicity, cannabis, and trauma have been demonstrated to interact with genetic risk, giving rise to higher prevalence rates or more severe symptomatology in individuals with direct or indirect genetic predisposition for schizophrenia. Further research will have to explain how the different forms of genetic variation interact and how environmental factors modulate their effects. Moreover, the challenging question lying ahead of us is how genetic and environmental factors translate to molecular disease pathways. New approaches, including animal studies and in vitro disease modeling, as well as innovative real-world environment assessment methods, will help to understand the complex etiology of schizophrenia.






Advances in Functional Neuroanatomy: A Review of Combined DTI and fMRI Studies in Healthy Younger an

Publication date: Available online 26 April 2013
Source:Neuroscience & Biobehavioral Reviews
Author(s): Ilana J. Bennett , Bart Rypma
Structural connections between brain regions are thought to influence neural processing within those regions. It follows that alterations to the quality of structural connections should influence the magnitude of neural activity. The quality of structural connections may also be expected to differentially influence activity in directly versus indirectly connected brain regions. To test these predictions, we reviewed studies that combined diffusion tensor imaging (DTI) and functional magnetic resonance imaging (fMRI) in younger and older adults. By surveying studies that examined relationships between DTI measures of white matter integrity and fMRI measures of neural activity, we identified variables that accounted for variability in these relationships. Results revealed that relationships between white matter integrity and neural activity varied with (1) aging (i.e., positive and negative DTI-fMRI relationships in younger and older adults, respectively) and (2) spatial proximity of the neural measures (i.e., positive and negative DTI-fMRI relationships when neural measures were extracted from adjacent and non-adjacent brain regions, respectively). Together, the studies reviewed here provided support for both of our predictions.






Curing Epilepsies: NIH Conference Examines State of the Art

The latest NIH conference on state-of-the-art epilepsy research provides updates in areas such as genetic sequencing, brain mapping, and comorbid conditions.
Medscape Medical News





Guided pedicle screw insertion: techniques and training

Publication date: Available online 25 April 2013
Source:The Spine Journal
Author(s): Amir Manbachi , Richard S.C. Cobbold , Howard J. Ginsberg
Background context In spinal fusion surgery, the accuracy with which screws are inserted in the pedicle has a direct effect on the surgical outcome. Accurate placement generally involves considerable judgmental skills that have been developed through a lengthy training process. Because the impact of misaligning one or more pedicle screws can directly affect patient safety, a number of navigational and trajectory verification approaches have been described and evaluated in the literature to provide some degree of guidance to the surgeon. Purpose To provide a concise review to justify the need and explore the current state of developing navigational or trajectory verification techniques for ensuring proper pedicle screw insertion along with simulation methods for better educating the surgical trainees. Study design Recent literature review. Methods To justify the need to develop new methods for optimizing pedicle screw paths, we first reviewed some of the recent publications relating to the statistical outcomes for different types of navigation along with the conventional freehand (unassisted) screw insertion. Second, because of the importance of providing improved training in the skill of accurate screw insertion, the training aspects of relevant techniques are considered. The third part is devoted to the description of specific navigational assist methods or trajectory verification techniques and these include computer-assisted navigation, three-dimensional simulations, and also electric impedance and optical and ultrasonic image-guided methods. Conclusions This article presents an overview of the need and the current status of the guidance methods available for improving the surgical outcomes in spinal fusion procedures. It also describes educational aids that have the potential for reducing the training process.






Tuesday, April 23, 2013

Spinal Cord Stimulator Implants For Chronic Pain: New Techniques Reduce Complications

Two innovative techniques in the placement of an implanted spinal cord stimulator (SCS) are expected to reduce common complications at the implant site, according to new research...





New Music Tickles or Bores Brain Region

When you hear an unfamiliar tune, how do you wind up either tapping your foot or plugging your ears? A study finds that a specific brain region gives the song a thumbs up or down. The research is in the journal Science. [Valorie N. Salimpoor et al., Interactions Between the Nucleus Accumbens and Auditory Cortices Predict Music Reward Value ]

[More]

Add to digg Add to StumbleUpon Add to Reddit Add to Facebook Add to del.icio.us Email this Article





This is your brain on music

How do our brains respond to music? The quest to dissect exactly what chemical processes occur when we put our headphones on is far from over, but scientists have come across some clues.





Serotonergic PET in temporal lobe epilepsy: Biomarking or etiologic mapping?

PET and selected ligands offer brain mapping for a panoply of neuronal receptors and other important brain molecules. Neurochemically specific PET studies have yielded numerous biomarkers of hippocampal and extrahippocampal dysfunction, which often have been used to study groups with temporal lobe epilepsy (TLE). Etiologies and the development of epilepsy are poorly understood in TLE, however. Further, causative pathophysiologies are largely unelucidated with regard to the variations in neuronal function that induce seizure onset at a particular point in time, or the persistence of the interictal state; the mechanisms underlying interictal disorders of cognition and mood in TLE are equally obscure. Perhaps as a result, neurochemically specific PET biomarkers have been less helpful in helping us understand epilepsy progression or other manifestations in individual patients with TLE, than in simply contrasting differences in interictal biomarkers between groups with and without TLE. An even more elusive goal has been development of etiology-specific PET maps that might guide precise diagnosis and effective therapy of the individual patient with TLE.






Ketamine for acute neuropathic pain in patients with spinal cord injury

Publication date: Available online 22 April 2013
Source:Journal of Clinical Neuroscience
Author(s): Kyongsong Kim , Masahiro Mishina , Rinko Kokubo , Takao Nakajima , Daijiro Morimoto , Toyohiko Isu , Shiro Kobayashi , Akira Teramoto
Ketamine, an N-methyl-d-aspartic acid (NMDA) receptor antagonist, may be useful for treating neuropathic pain, which is often difficult to control. We report a prospective study of 13 patients with acute neuropathic pain due to spinal cord injury (SCI) treated with ketamine. All underwent a test challenge with 5mg ketamine. Patients with satisfactory responses were then treated intravenously and subsequently perorally with ketamine. Pre- and post-treatment pain was recorded on a visual analogue scale. All 13 patients responded positively to the ketamine test challenge and underwent continued ketamine administration. At the cessation of treatment and alter at final follow up, pain was decreased by 74.7% and 96.8%, respectively. The average administration period was 17.2days; it was longer (59days) in one patient treated in the subacute phase. All patients suffered allodynia-type pain and experienced 30% or less of their original pain intensity upon test challenge. Side effects were noted in five patients, although their severity did not require treatment cessation. In patients with SCI, ketamine reduced allodynia. Particularly good results were obtained in patients treated in the acute phase and these patients did not experience post-treatment symptom recurrence. Our results suggest that in patients with SCI, ketamine is useful for treating neuropathic pain in the acute phase.






Higher serum glucose levels are associated with cerebral hypometabolism in Alzheimer regions

Objective:

To investigate whether higher fasting serum glucose levels in cognitively normal, nondiabetic adults were associated with lower regional cerebral metabolic rate for glucose (rCMRgl) in brain regions preferentially affected by Alzheimer disease (AD).

Methods:

This is a cross-sectional study of 124 cognitively normal persons aged 64 ± 6 years with a first-degree family history of AD, including 61 APOE4 noncarriers and 63 carriers. An automated brain mapping algorithm characterized and compared correlations between higher fasting serum glucose levels and lower [18F]-fluorodeoxyglucose-PET rCMRgl measurements.

Results:

As predicted, higher fasting serum glucose levels were significantly correlated with lower rCMRgl and were confined to the vicinity of brain regions preferentially affected by AD. A similar pattern of regional correlations occurred in the APOE4 noncarriers and carriers.

Conclusions:

Higher fasting serum glucose levels in cognitively normal, nondiabetic adults may be associated with AD pathophysiology. Findings suggest that the risk imparted by higher serum glucose levels may be independent of APOE4 status. This study raises additional questions about the role of the metabolic process in the predisposition to AD and supports the possibility of targeting these processes in presymptomatic AD trials.






Cognitive Decline After Stroke: Relation to Inflammatory Biomarkers and Hippocampal Volume [Brief Re

Background and Purpose—

Inflammation may contribute to cognitive impairment after stroke. Inflammatory markers are associated with hippocampal atrophy. We tested whether markers of inflammation, erythrocyte sedimentation rate (ESR), and serum levels of C-reactive protein are associated with reduced hippocampal volume and poor cognitive performance among stroke survivors.

Methods—

We analyzed 368 consecutive cases from our prospective study of first-ever mild–moderate stroke patients. MRI, cognitive tests, and inflammatory markers were determined. Patients were reevaluated 6 and 12 months after the event.

Results—

ESR remained unchanged in follow-up examinations, suggesting a chronic inflammation background in some patients. Higher levels of C-reactive protein and ESR were associated with worse performance in cognitive tests, particularly memory scores. This association was maintained for ESR (but not C-reactive protein) after adjustment for confounders (P=0.002). Patients with smaller hippocampi had inferior cognitive results. Moreover, in a multivariate regression model, higher ESR values (but not C-reactive protein) were related to reduced hippocampal volume (P=0.049).

Conclusions—

This report shows a strong relationship between ESR and hippocampal volume, as well as with cognitive performance among poststroke patients. This could plausibly relate to incipient cognitive decline via hippocampal pathways.






Malignant Emboli on Transcranial Doppler During Carotid Stenting Predict Postprocedure Diffusion-Wei

Background and Purpose—

Carotid angioplasty and stenting (CAS) has a higher incidence of periprocedural stroke compared with endarterectomy. Identifying CAS steps with the highest likelihood of embolization may have important implications. We evaluated CAS safety by correlating the findings of procedural transcranial Doppler with postprocedure diffusion-weighted imaging (DWI) lesions.

Methods—

In this prospective study, transcranial Doppler monitoring was performed during CAS procedures, which were divided into 11 steps. Embolic signals on transcranial Doppler were counted and classified based on the relative energy index of microembolic signals into microemboli ≤1 or malignant macroemboli >1. Poststenting MRI was performed in all cases. A negative binomial regression model was used to evaluate the predictive value of transcranial Doppler emboli for new DWI lesions.

Results—

Thirty subjects were enrolled. Seven of 30 subjects (23.3%) were asymptomatic. The median embolic signal count was 212.5 (108 microemboli and 80 malignant macroemboli). Stent deployment phase showed the highest median embolic signals count at 58, followed by protection device deployment at 30 (P=0.0006). Twenty-four of 30 (80%) had new DWI lesions on post-CAS MRI. The median DWI count was 4 (interquartile range 7). Two of 30 (6.7%) had new or worsening clinical deficits post-CAS. For every malignant embolus, the expected count of DWI lesions increases by 1% ( 95% confidence interval, 0%–2%; P=0.032).

Conclusions—

We observed a high incidence of embolic signals during CAS procedure, especially, when devices were deployed. Most subjects developed new DWI lesions, but only 6.7% had deficits. Malignant macroemboli predicted new DWI lesions.






Risk Factors for Intracerebral Hemorrhage: The REasons for Geographic And Racial Differences in Stro

Background and Purpose—

Risk factors for intracerebral hemorrhage (ICH) have been largely identified in case–control studies, with few longitudinal studies available.

Methods—

Predictors of incident ICH among 27 760 black and white participants from the REasons for Geographic And Racial Differences in Stroke (REGARDS) cohort study were assessed.

Results—

There were 62 incident ICH events during an average follow-up of 5.7 years. The increase in risk with age differed substantially between blacks and whites (P=0.006), with a 2.25-fold (95% confidence interval, 1.63–3.12) increase per decade in whites, but no age association with ICH risk in blacks (hazard ratio=1.09; 95% confidence interval, 0.70–1.68). We observed increased risk among men, those with higher systolic blood pressure, and warfarin users.

Conclusions—

The racial differences in the impact of age contributed to a risk of ICH that was >5 times higher for blacks than whites at age 45, but only about one third as great by age 85. Confirming findings from other studies, men participants with elevated systolic blood pressure and warfarin users were also at greater risk. The contributors to the racial differences in ICH risk require additional investigation.






Risk of Rupture of an Intracranial Aneurysm Based on Patient Characteristics: A Case-Control Study [

Background and Purpose—

Knowledge about risk factors contributes to understanding the pathophysiological mechanisms that cause intracranial aneurysm rupture and helps to develop possible treatment strategies. We aimed to study lifestyle and personal characteristics as risk factors for the rupture of intracranial aneurysms.

Methods—

We performed a case–control study with 250 patients with an aneurysmal subarachnoid hemorrhage and 206 patients with an unruptured intracranial aneurysm. All patients with an aneurysmal subarachnoid hemorrhage and patients with a unruptured intracranial aneurysm were asked to fill in a structured questionnaire about their lifestyle and medical history. For patients with an unruptured intracranial aneurysm, we also collected data on the indication for imaging. With logistic regression analysis, we identified independent risk factors for aneurysmal rupture.

Results—

Reasons for imaging in patients with an unruptured intracranial aneurysm were atherosclerotic disease (23%), positive family history (18%), headache (8%), preventive screening (3%), and other (46%). Factors that increased risk for aneurysmal rupture were smoking (odds ratio, 1.9; 95% confidence interval, 1.2–3.0) and migraine (2.4; 1.1–5.1); hypercholesterolemia decreased this risk (0.4; 0.2–1.0), whereas a history of hypertension did not independently influence the risk.

Conclusions—

Smoking, migraine and, inversely, hypercholesterolemia are independent risk factors for aneurysmal rupture. Data from the questionnaire are insufficient to conclude whether hypercholesterolemia or its treatment with statins exerts a risk-reducing effect. The pathophysiological mechanisms through which smoking and migraine increase the risk of aneurysmal rupture should be investigated in further studies. Although a history of hypertension does not increase risk of rupture, a sudden rise in blood pressure might still trigger aneurysmal rupture.






Chronic Pain Syndromes After Ischemic Stroke: PRoFESS Trial [Clinical Sciences]

Background and Purpose—

Chronic pain syndromes are reported to be common after stroke, but most previous epidemiological studies have generally included small cohorts of patients with relatively short-term follow-up. In a large cohort with ischemic stroke (Prevention Regimen for Effectively avoiding Second Stroke [PRoFESS] trial), we determined the prevalence, risk factors, and clinical consequence of new poststroke pain syndromes.

Methods—

Within the PRoFESS trial (mean follow-up 2.5 years), a standardized chronic pain questionnaire was administered (at the penultimate follow-up visit) to all participants who reported chronic pain since their stroke and did not have a history of chronic pain before their index stroke. Multivariable logistic regression analyses were used to determine risk factors for poststroke pain (and pain subtypes), and the association between poststroke pain and cognitive (≥3 reduction in Mini-Mental State Examination score) and functional decline (≥1 increase in m-Rankin).

Results—

In total, 15 754 participants were included; of which 1665 participants (10.6%) reported new chronic poststroke pain, and included 431 participants (2.7%) with central poststroke pain, 238 (1.5%) with peripheral neuropathic pain, 208 (1.3%) with pain from spasticity, and 136 participants (0.9%) with pain from shoulder subluxation. More than 1 pain subtype was reported in 86 participants (0.6%). Predictors of poststroke pain included increased stroke severity, female sex, alcohol intake, statin use, depressive symptoms, diabetes mellitus, antithrombotic regimen, and peripheral vascular disease. A new chronic pain syndrome was associated with greater dependence (odds ratio, 2.16; 95% confidence interval, 1.82–2.56). Peripheral neuropathy and pain from spasticity/shoulder subluxation were associated with cognitive decline.

Conclusions—

Chronic pain syndromes are common after ischemic stroke and are associated with increased functional dependence and cognitive decline.






Sunday, April 21, 2013

Postoperative Pain in Infants: Acetaminophen or Morphine?

Can intravenous acetaminophen reduce the opioid doses needed for postoperative pain in infants?
Medscape Pediatrics





Microvascular Decompression for Classic Trigeminal Neuralgia: Determination of Minimum Clinically I

imageBACKGROUND: Outcomes studies use patient-reported outcome (PRO) measurements to assess treatment effectiveness, but can lack direct clinical meaning. Minimum clinically important difference (MCID) calculation provides a point estimate of the critical threshold needed to achieve clinically relevant treatment effectiveness. MCID remains uninvestigated for microvascular decompression (MVD), a common surgical procedure for trigeminal neuralgia. OBJECTIVE: We aimed to determine MCID for the most commonly used PRO measures of pain after MVD: Visual Analog Scale (VAS) and Barrow Neurological Institute Pain Scale (BNI-PS). METHODS: Sixty consecutive patients with classic trigeminal neuralgia who decided to undergo MVD by a single surgeon were prospectively assessed with VAS and BNI-PS preoperatively and 2 years postoperatively. Three anchors were used to assign each patient's outcome. We then used 3 well-established, anchor-based methods to calculate MCID. RESULTS: Patients experienced significant improvement in both VAS (9.9 vs 2.0, P < .001) and BNI-PS (5.0 vs 1.9, P < .001) after MVD. The area under the receiver-operating characteristic curve was greater for BNI-PS than for VAS for all 3 anchors, indicating that BNI-PS is probably better suited for calculating MCID. The 3 MCID calculation methods generated a range of MCID values for each of the PROs (VAS: 1.40-8.87, BNI-PS: 0.95-3.26). CONCLUSION: MVD-specific MCID is highly variable based on calculation technique. Some of these calculations appear to either overestimate or underestimate the patients' preoperative expectations. When the different MCID methods are averaged, the results are clinically appropriate and consistent with preoperative expectations. The average MCID for VAS is 6.25 and for BNI-PS is 2.44. ABBREVIATIONS: AUC, area under the receiver-operating characteristic curve BNI-PS, Barrow Neurological Institute Pain Scale CI, confidence interval HTI, Health Transition Index MCID, minimum clinically important difference MDC, minimum detectable change MVD, microvascular decompression PRO, patient-reported outcome SD, standard deviation TN, trigeminal neuralgia VAS, Visual Analog Scale





A Comparison of Language Mapping by Preoperative Navigated Transcranial Magnetic Stimulation and Dir

imageBACKGROUND: Navigated transcranial magnetic stimulation (nTMS) is increasingly used in presurgical brain mapping. Preoperative nTMS results correlate well with direct cortical stimulation (DCS) data in the identification of the primary motor cortex. Repetitive nTMS can also be used for mapping of speech-sensitive cortical areas. OBJECTIVE: The current cohort study compares the safety and effectiveness of preoperative nTMS with DCS mapping during awake surgery for the identification of language areas in patients with left-sided cerebral lesions. METHODS: Twenty patients with tumors in or close to left-sided language eloquent regions were examined by repetitive nTMS before surgery. During awake surgery, language-eloquent cortex was identified by DCS. nTMS results were compared for accuracy and reliability with regard to DCS by projecting both results into the cortical parcellation system. RESULTS: Presurgical nTMS maps showed an overall sensitivity of 90.2%, specificity of 23.8%, positive predictive value of 35.6%, and negative predictive value of 83.9% compared with DCS. For the anatomic Broca's area, the corresponding values were a sensitivity of 100%, specificity of 13.0%, positive predictive value of 56.5%, and negative predictive value of 100%, respectively. CONCLUSION: Good overall correlation between repetitive nTMS and DCS was observed, particularly with regard to negatively mapped regions. Noninvasive inhibition mapping with nTMS is evolving as a valuable tool for preoperative mapping of language areas. Yet its low specificity in posterior language areas in the current study necessitates further research to refine the methodology. ABBREVIATIONS: DCS, direct cortical stimulation fMRI, functional magnetic resonance imaging nTMS, navigated transcranial magnetic stimulation RMT, resting motor threshold rTMS, repetitive transcranial magnetic stimulation TMS, transcranial magnetic stimulation





Bypass and Flow Reduction for Complex Basilar and Vertebrobasilar Junction Aneurysms

imageBACKGROUND: Giant aneurysms of the vertebral and basilar arteries are formidable lesions to treat. OBJECTIVE: To evaluate the long-term outcomes of patients with vertebrobasilar aneurysms treated with extracranial-intracranial bypass and flow reduction. METHODS: We retrospectively reviewed a prospective database of aneurysms cases treated between December 1993 and August 2011. RESULTS: Eleven patients (8 male, 3 female) with 12 aneurysms were treated. There were 3 basilar apex aneurysms, 2 aneurysms of the basilar trunk, and 7 vertebrobasilar junction aneurysms. There were 5 saccular and 7 fusiform aneurysms. All patients underwent extracranial-intracranial bypass and vessel occlusion. Flow was reversed or reduced by complete (n = 6) or partial occlusion of the basilar artery (n = 3) or by occlusion of the vertebral arteries distal to the posterior inferior cerebellar artery (n = 3). Postoperatively (mean follow-up, 71.6 months; range, 4-228; median, 49 months), the bypass patency rate was 92.3% (12/13). The perioperative mortality rate for the initial treatment was 18.2% (2/11). In 4 cases, the aneurysms continued to grow and required further treatment; after re-treatment, 3 of these patients died. Of the initial 11 patients, 6 were treated successfully and 5 died. The mean preoperative modified Rankin Scale score was 2.1 (range, 1-3; median, 2). At last follow-up for all patients, the mean modified Rankin Scale score was 3.45 (range, 1-6; median, 3) and 2.5 (range, 1-4; median, 2.5) for the 6 long-term survivors. CONCLUSION: Vertebrobasilar aneurysms are challenging lesions with limited microsurgical or endovascular options. Despite aggressive surgical treatment, the long-term outcome remains poor for most patients. ABBREVIATIONS: EC-IC, extracranial-intracranial mRS, modified Rankin Scale PCA, posterior cerebellar artery PICA, posterior inferior cerebellar artery SCA, superior cerebellar artery STA, superficial temporal artery