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1	Motor Conduction Alterations In Spinal Stenosis Patients Immediately After Physical Stress And Following Decompressive Surgery Baramki, Hani G. January 1998 (has links) No description available. Decompressive Surgery
2	A biomechanical investigation into the effects of decompressive surgery, on the stability of the lumbosacral joint in the dog Irvine-Smith, Gregory Stuart 17 February 2010 (has links) The primary objective of this biomechanical study was to investigate the effect of decompressive surgery, specifically dorsal laminectomy and discectomy, on the stability of the lumbosacral joint in the dog. Different size laminectomies were compared with respect to their effect on lumbosacral stability. A total of eighteen lumbosacral motion units were collected from cadavers and divided into three groups. Group 1 was a control group and received no modification, Group 2 specimens received mini-dorsal laminectomies and discectomies (lamina of L7 caudal to the dorsal spinous process excised, lamina of S1 not affected) while Group 3 specimens received standard dorsal laminectomies and discectomies (75% of L7 lamina and 50% of S1 lamina excised). All specimens were potted in aluminium tubing and mounted in a four-point bending jig and tested in a load cell. Specimens were stressed to 21° in dorsiflexion and ventroflexion. The relevant surgical modification was then performed and the specimens re-tested to 21° in dorsiflexion and ventroflexion. All specimens were then tested to failure in ventroflexion. Force and angular displacement was recorded and used to obtain load-deformation curves for each specimen (5 curves for each specimen). From the load-deformation curves the stiffness (gradient of the graph) was determined at three set angles of deflection. These points were 6°-8°, 12°-16° and 18°-20°. The percentage change in stiffness for each specimen in both dorsiflexion and ventroflexion was obtained. Peak force at failure and angular deformation at failure were obtained when tested to failure in ventroflexion. When examining the overall stiffness of the specimen (dorsiflexion and ventroflexion and all angles of deflection) mini-dorsal laminectomy was shown to result in a 48.3% reduction in stiffness (P < 0.001) while standard dorsal laminectomy and discectomy resulted in a 59.8% reduction in stiffness (P < 0.001). These results were statistically significant. The difference between the two different types of laminectomies could be described as approaching significance (P=0.066). Larger group size would be required to determine whether this is in fact statistically significant Dorsal laminectomy combined with discectomy does have an effect on the stability of the lumbosacral joint. This may contribute to the relatively high recurrence rate following surgical treatment of degenerative lumbosacral stenosis especially in large breed highly active dogs. The study provides further support for decompressive surgery combined with a stabilisation technique when treating degenerative lumbosacral stenosis. It also provides potential support for the use of mini-dorsal laminectomies. / Dissertation (MMedVet)--University of Pretoria, 2009. / Companion Animal Clinical Studies / unrestricted Stability Dogs Lumbosacral joint Decompressive surgery Biomechanical investigation UCTD
3	On evolution of intracranial changes after severe traumatic brain injury and its impact on clinical outcome Bobinski, Lukas January 2016 (has links) Severe traumatic brain injury (sTBI) is a cause of death and disability worldwide and requires treatment at specialized neuro-intensive care units (NICU) with a multimodal monitoring approach. The CT scan imaging supports the monitoring and diagnostics. The level of S100B and neuron specific enolase (NSE) reflects the severity of the injury. The therapy resistant intracranial hypertension requires decompressive craniectomy (DC). After DC, the cranium must be reconstructed to recreate the normal intracranial physiology as well as to address cosmetic issues. The evolution of the pathological intracranial changes was analyzed in accordance with the three CT classifications: Marshall, Rotterdam and Morris-Marshall. The Rotterdam scale was best in describing the dynamics of the pathological evolution. Both the Rotterdam score and Morris- Marshall classification showed strong correlation with the clinical outcome, a finding that suggests that they could be used for prognostication. We demonstrated a clear correlation between the CT classifications and concentrations of S100B and NSE. The results revealed a concomitant correlation between NSE and S100B and clinical outcome. We found that the interaction between the ICP, Rotterdam CT classification, and concentrations of biochemical biomarkers are all associated with DC. We found a high percentage of complications following cranioplasty. Our results call into question whether custom-made allograft should be considered the best material for cranioplasty. It is concluded that both the Rotterdam and Morris-Marshall classification contribute to clinical evaluation of intracranial dynamics after sTBI, and might be used in combination with biochemical biomarkers for better assessment. The decision to perform DC should include a re-assesment of ICP evolution, CT scan images and concentration of the biochemical biomarkers. Furthermore, when determining whether DC treatment should be used, surgeon should also consider the risks of the following cranioplasty. Severe traumatic brain injury ICP targeted therapy ICP decompressive craniectomy S100B NSE cranioplasty
4	Distúrbios hidrodinâmicos em pacientes submetidos a craniectomia descompressiva SILVA NETO, Ângelo Raimundo da 24 November 2016 (has links) Submitted by Fabio Sobreira Campos da Costa (fabio.sobreira@ufpe.br) on 2017-07-25T12:32:10Z No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Angelo-tese doutorado.pdf: 2038180 bytes, checksum: be401d99f221bbdf4a8d892feb579538 (MD5) / Made available in DSpace on 2017-07-25T12:32:10Z (GMT). No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Angelo-tese doutorado.pdf: 2038180 bytes, checksum: be401d99f221bbdf4a8d892feb579538 (MD5) Previous issue date: 2016-11-24 / Introdução: A incidência de hidrocefalia pós craniectomia descompressiva(CD) em pacientes com traumatismo cranioencefálico(TCE) é entre 0-45% segundo a literatura. A hidrocefalia traz prejuízos ao prognóstico neurológico e demanda reconhecimento clínico precoce. Existem diversas variáveis radiológicas e clínicas descritas com associação ao risco de hidrocefalia. Para estudar a influência desses fatores conduzimos um estudo retrospectivo, observacional em um centro terciário de atendimento a pacientes com TCE com foco principal na análise do volume de herniação transcraniana (VHTC) após CD. Métodos: selecionamos 50 pacientes que realizaram CD para TCE entre janeiro de 2014 e janeiro de 2015. Hidrocefalia foi reconhecida e definida na presença de critérios radiológicos de Gudeman, indicação de derivação ventricular, e na mensuração do Índice de Evans modificado maior que 33%. Analisamos as seguintes variáveis: Idade, Sexo, Escala de Coma de Glasgow à admissão, reatividade pupilar, índice de Zunkeller, presença de higroma, VHCE, diâmetro da craniectomia e distância da craniectomia em relação à linha média. Regressão logística foi utilizada definindo o desfecho com ou sem hidrocefalia como medida de análise. Resultados: 17 pacientes desenvolveram hidrocefalia (34%). VHCE após CD (p<0.001), Higroma subdural (p<0.001) ), Escala de coma de Glasgow abaixo de 6( p=0.015), sinais de herniação uncal(p=0.042) e maior valor no índice de Zumkeller(p=0.04) foram associados com o desenvolvimento de hidrocefalia pós-CD. Regressão logística demonstrou que entre essas variáveis as que foram consideradas como fatores de risco independente são o VHTC (OR 11.08; 95%IC 2.10,58.4; p=0.004) e a presença de higroma (OR 49.59; 95%IC 4.1,459;p=0.002). Conclusões: Observamos uma forte associação entre a severidade do TCE, o volume de herniação cerebral transcraniana e presença de higroma subdural com o desenvolvimento de hidrocefalia. Pacientes com esses achados devem ser acompanhados rigorosamente visando evitar prejuízo clínico. / In patients undergoing decompressive craniectomy(DC) for traumatic brain injury(TBI) there has been reported an incidence of hydrocephalus between 0-45%. Hydrocephalus affects long term survival and needs a prompt and correct diagnosis. There are several radiological and clinical features described in association with development of hydrocephalus. For study the influence of these factors we conducted a retrospective observational single-center cohort study in a tertiary care center with special attention to the transcalvarial brain herniation volume(TCH) after DC. Methods: We selected 50 patients that underwent DC after closed head injury between january 2014 and January 2015. Hydrocephalus was defined as a modified frontal horn index greater than 33%, Gudeman CT scan criteria or insertion of ventriculoperitoneal Shunt. Variables we analyzed were: age, post-resuscitation Glasgow Coma Scale (GCS) score, pupil reactivity, Zunkeller index, presence of hygroma, TCH volume, craniectomy diameter and distance of craniectomy from midline. Logistic regression was used with hydrocephalus as the primary outcome measure. Results: 17 patients developed hydrocephalus(34%). TCH volume after decompression ( p<0.001), subdural hygroma ( p ), lower admission Glasgow Coma Scale score ( p=0.015), unilateral pupil reactivity(p=0.042) and higher Zumkeller index(p=0.044) were significant risk factors for hydrocephalus after decompressive craniectomy. Logistic regression analysis showed that factors independently associated with the development of hydrocephalus was the TCH volume (odds ratio 11.08; 95%CI 2.10, 58.4; p = 0.0046), and presence of hygroma (odds ratio 49.59; 95%IC 4.1, 459; p=0.002). Conclusions: There is a clear association between severity of TBI, TCH volume and subdural hygroma with the development of hydrocephalus. Clinicians should follow closely patients with those findings in order to avoid late deterioration. Traumatismos encefálicos Hidrocefalia Craniectomia descompressiva Edema encefálico Decompressive craniectomy Hydrocephalus posttraumatic hydrocephalus traumatic brain Injury
5	Hemodinâmica encefálica avaliada pela tomografia computadorizada com estudo de perfusão em doentes com acidente vascular cerebral isquêmico submetidos à craniectomia descompressiva com duroplastia / Hemodynamic changes evaluated by CT perfusion in patients with malignant ischemic stroke submitted to decompressive craniectomy Amorim, Robson Luis Oliveira de 17 December 2013 (has links) Introdução e Objetivos: A craniectomia descompressiva com duroplastia (CDD) reduz a mortalidade e melhora o prognóstico funcional em doentes com acidente vascular encefálico isquêmico (AVEi) hemisférico e proporciona a redução da pressão intracraniana. Entretanto, pouco se sabe sobre sua repercussão na hemodinâmica cerebral. O objetivo do presente trabalho é o de avaliar com a tomografia computadorizada com estudo de perfusão (TCP) as alterações hemodinâmicas nos doentes com AVEi após a CDD e identificar possíveis marcadores prognósticos substitutos. Métodos: Foram avaliados 27 doentes com AVEi com indicação de CDD. Os parâmetros hemodinâmicos da TCP estudados no período pré-operatório e em até 24h após a cirurgia foram: duração média de trânsito (DMT), volume sanguíneo encefálico (VSE) e fluxo sanguíneo encefálico (FSE). O desfecho primário utilizado foi a melhora ou a ausência de melhora hemodinâmica. Os desfechos secundários foram a escala de Rankin modificada em seis meses, dicotomizada como favorável (0-3) ou desfavorável (4-6); casos fatais em um mês e em seis meses. Resultados: 18 (70,3%) doentes eram do sexo feminino e 12 (44,4%) tinham idade superior a 55 anos. Houve melhora da DMT (queda de 8,74 para 8,24, p=0,01) e tendência a melhora do FSE (aumento de 22,37 para 25,26, p=0,06) após a CDD. Não houve diferença estatística em relação ao VSC (aumento de 2,14 para 2,26, p=0,33). A idade superior a 55 anos foi o preditor independente de prognóstico desfavorável (p=0,03) e a DMT pré-operatória, foi preditora hemodinâmica para mortalidade em seis meses (8,20 vs 9,23, p=0,04). Conclusões: A craniectomia descompressiva com expansão dural determinou melhora hemodinâmica na maioria dos doentes com AVEi hemisférico. A DTM préoperatória é um bom marcador substituto para a possibilidade de óbito em seis meses / Background and Objectives: Decompressive craniectomy (DC) reduces the mortality and improves the functional outcome in patients with malignant cerebral infarction (MCI). This procedure causes a decrease of the intracranial pressure, however, little is known about its impact in brain hemodynamics. Therefore, our goal is to study through CT perfusion the hemodynamics changes that may occur in patients with MCI after the DC. Methods: 27 patients with MCI treated with DC were studied. The CT perfusion hemodynamic parameters - the mean transit time (MTT), the cerebral blood volume (CBV) and cerebral blood flow (CBF) - were evaluated preoperatively and within the first 24 hours after the DC. The primary outcome measure was improvement or lack of improvement in cerebral hemodynamics. Secondary outcomes were the modified Rankin scale in 6 months, classified as favorable (0-3) and unfavorable (4-6); and, fatal cases at 1 month and 6 months. Results: 18 (70.3%) patients were female and 12 (44.4%) were older than 55 years. There was improvement of MTT (decrease from 8.74 to 8.24, p = 0.01) and a trend towards improvement of the CBF (increase from 22.37 to 25.26, p = 0.06) after DC. There was no statistical difference in the CBV before and after DC (increase from 2.14 to 2.26, p = 0.33). Patients over 55 years had poorer prognosis (p=0.03) and preoperative MTT was an independent hemodynamic predictor of mortality at 6 months (8.20 vs 9.23, p=0.04). Conclusions: DC improved cerebral hemodynamics in most patients with malignant ischemic stroke. Preoperative MTT seems to be a good marker for case fatality in 6 months Brain infarction Cerebrovascular circulation Circulação cerebrovascular Craniectomia descompressiva Decompressive craniectomy Hemodinâmica Hemodynamics Imagem de perfusão Infarto cerebral Perfusion imaging
6	Hemodinâmica encefálica avaliada pela tomografia computadorizada com estudo de perfusão em doentes com acidente vascular cerebral isquêmico submetidos à craniectomia descompressiva com duroplastia / Hemodynamic changes evaluated by CT perfusion in patients with malignant ischemic stroke submitted to decompressive craniectomy Robson Luis Oliveira de Amorim 17 December 2013 (has links) Introdução e Objetivos: A craniectomia descompressiva com duroplastia (CDD) reduz a mortalidade e melhora o prognóstico funcional em doentes com acidente vascular encefálico isquêmico (AVEi) hemisférico e proporciona a redução da pressão intracraniana. Entretanto, pouco se sabe sobre sua repercussão na hemodinâmica cerebral. O objetivo do presente trabalho é o de avaliar com a tomografia computadorizada com estudo de perfusão (TCP) as alterações hemodinâmicas nos doentes com AVEi após a CDD e identificar possíveis marcadores prognósticos substitutos. Métodos: Foram avaliados 27 doentes com AVEi com indicação de CDD. Os parâmetros hemodinâmicos da TCP estudados no período pré-operatório e em até 24h após a cirurgia foram: duração média de trânsito (DMT), volume sanguíneo encefálico (VSE) e fluxo sanguíneo encefálico (FSE). O desfecho primário utilizado foi a melhora ou a ausência de melhora hemodinâmica. Os desfechos secundários foram a escala de Rankin modificada em seis meses, dicotomizada como favorável (0-3) ou desfavorável (4-6); casos fatais em um mês e em seis meses. Resultados: 18 (70,3%) doentes eram do sexo feminino e 12 (44,4%) tinham idade superior a 55 anos. Houve melhora da DMT (queda de 8,74 para 8,24, p=0,01) e tendência a melhora do FSE (aumento de 22,37 para 25,26, p=0,06) após a CDD. Não houve diferença estatística em relação ao VSC (aumento de 2,14 para 2,26, p=0,33). A idade superior a 55 anos foi o preditor independente de prognóstico desfavorável (p=0,03) e a DMT pré-operatória, foi preditora hemodinâmica para mortalidade em seis meses (8,20 vs 9,23, p=0,04). Conclusões: A craniectomia descompressiva com expansão dural determinou melhora hemodinâmica na maioria dos doentes com AVEi hemisférico. A DTM préoperatória é um bom marcador substituto para a possibilidade de óbito em seis meses / Background and Objectives: Decompressive craniectomy (DC) reduces the mortality and improves the functional outcome in patients with malignant cerebral infarction (MCI). This procedure causes a decrease of the intracranial pressure, however, little is known about its impact in brain hemodynamics. Therefore, our goal is to study through CT perfusion the hemodynamics changes that may occur in patients with MCI after the DC. Methods: 27 patients with MCI treated with DC were studied. The CT perfusion hemodynamic parameters - the mean transit time (MTT), the cerebral blood volume (CBV) and cerebral blood flow (CBF) - were evaluated preoperatively and within the first 24 hours after the DC. The primary outcome measure was improvement or lack of improvement in cerebral hemodynamics. Secondary outcomes were the modified Rankin scale in 6 months, classified as favorable (0-3) and unfavorable (4-6); and, fatal cases at 1 month and 6 months. Results: 18 (70.3%) patients were female and 12 (44.4%) were older than 55 years. There was improvement of MTT (decrease from 8.74 to 8.24, p = 0.01) and a trend towards improvement of the CBF (increase from 22.37 to 25.26, p = 0.06) after DC. There was no statistical difference in the CBV before and after DC (increase from 2.14 to 2.26, p = 0.33). Patients over 55 years had poorer prognosis (p=0.03) and preoperative MTT was an independent hemodynamic predictor of mortality at 6 months (8.20 vs 9.23, p=0.04). Conclusions: DC improved cerebral hemodynamics in most patients with malignant ischemic stroke. Preoperative MTT seems to be a good marker for case fatality in 6 months Circulação cerebrovascular Craniectomia descompressiva Hemodinâmica Imagem de perfusão Infarto cerebral Brain infarction Cerebrovascular circulation Decompressive craniectomy Hemodynamics Perfusion imaging
7	Efeitos da cranioplastia em doentes submetidos à craniectomia descompressiva: avaliação anatômica, neurológica e da hemodinâmica encefálica / Cranioplasty effects on patients submitted to decompressive craniectomy: anatomical, neurological and hemodynamic assessment Oliveira, Arthur Maynart Pereira 14 August 2015 (has links) Introdução e Objetivos: Falha óssea craniana após craniectomia descompressiva (CD) causa alterações neurológicas que podem estar associadas a modificações da anatomia cortical e hemodinâmica encefálica. Nosso objetivo foi avaliar se essas alterações ocorrem e se estão associadas ao prognóstico neurológico. Métodos: Avaliamos prospectivamente doentes com falha craniana após CD pelo método de Tomografia com estudo de perfusão (TCP) e Doppler Transcraniano (DTC) antes e entre 15 e 30 dias após a cranioplastia. O exame neurológico sistematizado e avaliação de escalas prognósticas (mRs, MEEM, índice de Barthel) foi realizado antes e seis meses após a operação. Resultados: Nós avaliamos 30 doentes, 15 (50%) com CD relacionada a traumatismo cranioencefálico (TCE) e 15 (50%) devido a doença cerebrovascular (DCV). Observamos que houve melhora satisfatória de queixas neurológicas, além de melhora significativa da mRs (p=0,003), MEEM (p < 0,001) e índice de Barthel (p=0,002). Houve reestruturação significativa da superfície cortical, tanto anterior (p < 0,001) quanto posterior (p=0,045). A diferença cortical posterior mostrou correlação com melhora do MEEM (p=0,03; r=-0,4) e índice de Barthel (p=0,035; r=-0,39). As alterações da anatomia encefálica foram mais evidentes em doentes com antecedente de DCV do que TCE. A relação entre a radiodensidade da substância cinzenta (SC) e branca (SB) apresentou elevação (p=0,007), sem correlação com prognóstico. A TCP demonstrou redução da duração média de trânsito (DMT) de 8,23 ± 1,30 segundos(s) para 7,50 ± 1,21 s (p=0,02) e do volume sanguíneo cerebral de 2,29 ± 0,58 ml/100g para 2,00±0,59 ml/100g (p=0,037) apenas no lado operado. O fluxo sanguíneo cerebral (FSC) não demonstrou alterações significativas em nenhum dos lados. Observamos correlação moderada entre DMT (diferença entre lado operado e não operado) com força muscular contralateral (r=-0,4, p =0,034). Na divisão entre grupos, a redução da DMT ocorreu no TCE e DCV mas, foi significativa apenas no primeiro grupo. Houve aumento significativo da velocidade de fluxo na artéria cerebral média tanto homolateral de 49,89±14,79 para 62,32±14,29 (p < 0,001) quanto contralateral de 53,95 ± 11,65 para 58,84±14,17 (p < 0,002) no exame de DTC. Observamos correlação com prognóstico neurológico tanto homolateral (MEEM; p=0,033, r= 0,55) quanto contralateral (mRs; p=0,031, r= -0,48) além de evidência de aumento da velocidade de fluxo em doentes com TCE e DCV mas, significativa apenas em doentes com DVC. Conclusões: As alterações do DTC e DMT apresentam correlação com prognóstico neurológico, representam possível recuperação da hemodinâmica encefálica mas, com comportamento diferente entre doentes com TCE e DCV. Após a cranioplastia ocorre melhora neurológica que se correlaciona com as alterações da anatomia cortical / Introduction and Objectives: Cranial vault defects after decompressive craniectomy (DC) causes neurological disorders that may be associated with changes in brain anatomy and hemodynamics. Our objective was to evaluate whether these changes occur and if they were associated with neurological prognosis. Methods: We prospectively evaluated patients with bone defect after DC with computed tomography perfusion (CTP) and transcranial Doppler Sonography (TCD) before and between 15 and 30 days after cranioplasty . We performed neurological examination and prognostic scales (mRs, MMSE and Barthel index) before and after six months. Results: We studied 30 patients, 15 (50%) had DC related to traumatic brain injury (TBI) and 15 (50%) due to cerebrovascular disease (CVD). We observed a satisfactory improvement of neurological complaints, as well as significant improvement in mRs (p= 0.003), MMSE (p < 0.001) and Barthel index (p=0.002). Significant anatomical expansion of both cerebral hemispheres, including anterior (p < 0.001), posterior (p=0.045), and cortical surface. The posterior measurements was correlated with improvement in the MMSE (p=0.03; r=-0.4) and Barthel index (p=0.035; r=-0.39). Brain anatomy changes were more evident in patients with history of CVD than TBI. Increase in radiodensity relationship between gray and white matter by CT scan (p=0.007) were observed without correlation with prognosis. TCP showed mean transit time (MTT) decrease from 8.23 ± 1.30 seconds (s) to 7.50 ± 1.21 s (p=0.02) and cerebral blood volume (CBV) from 2.29 ± 0.58 ml/100g to 2.00 ± 0.59 ml/100g (p=0.037) both in operated side. Cerebral blood flow (CBF) did not show significant changes in either side. We verified moderate correlation between MTT and contralateral muscle strength (r=-0.4; p=0.034). In the sub groups analysis, MTT decrease in TBI and CVD but was significant only in TBI patients. TCD showed a significant increase in middle cerebral artery flow velocity from 49.89±14.79 to 62.32±14.29 (p < 0.001) ipsilateral and from 53.95 ± 11.65 to 58.84 ± 14.17 (p < 0.002) contralateral to cranioplasty side. There was correlation between TCD changes and neurological prognosis ipsilateral (MMSE; p=0.033, r=0.55) and contralateral (MRS; p=0.031, r=-0.48) to operated side, besides flow velocity increased in TBI and CVD but was significant only in CVD patients. Conclusions: The TCD and MTT changes were correlated with neurological prognosis, represent recovery of brain hemodynamic condition but different behavior between TBI and CVD patients. After cranioplasty occurs neurological improvement that also correlates with anatomical changes in cortical surface Cerebrovascular disorders Craniectomia descompressiva Cranio/cirurgia Cranioencephalic trauma Decompressive craniectomy Hemodinâmica Hemodynamics Imagem por perfusão Perfusion imaging Skull/surgery Transtornos cerebrovasculares Traumatismos cranioencefálicos
8	Bone flap survival and resorption after autologous cranioplasty Korhonen, T. (Tommi) 28 May 2019 (has links) Abstract This thesis evaluated the factors affecting bone flap survival and bone flap resorption after primary cranial reparation surgery, cranioplasty, conducted to repair a cranial bone defect with an autologous cryopreserved bone flap. Emphasis is put on the predictors, progression, and definition of an important yet poorly understood postoperative complication, bone flap resorption. Study I assessed the rates and predictors of bone flap removal and bone flap resorption in a Finnish retrospective multicentre setting. 40% of patients developed complications of whom half required bone flap removal. Bone flap resorption and surgical site infections were the underlying cause in 90% of bone flap removal surgeries. The prevalence of both surgical site infections and bone flap resorption was 9%. In summary, young age was found to predict bone flap resorption and smoking predisposed patients to infections requiring bone flap removal. Study II applied computed tomography-based volumetry to evaluate the prevalence of subclinical bone flap resorption and to monitor its progression. In the follow-up, 90% of patients were found to have decreased bone flap volumes indicating varying degrees of resorption. However, the progression of bone flap resorption as a function of follow-up time was non-linear on the cohort level, and thus routine radiological follow-up seems unjustified. Most bone flaps do not appear to resorb enough to require removal even in the long-term follow-up. Study III addressed the unclarity in the definition of bone flap resorption. The computed tomography-based Oulu Resorption Score was developed to standardise the interpretation of radiological bone flap resorption and to guide follow-up interventions. The score values range from 0 to 9 with increasing values implying more severe bone flap resorption. Coupled with radiological evaluation conducted by independent neurosurgeons, an Oulu Resorption Score of ≥5 was defined to be clinically relevant. Further, the scores were divided into four grades based on the recommended follow-up procedures. Grades 0 (score 0) and I (scores 1 to 4) require no additional follow-up, but those with a grade II (score 5 to 8) or III (score 9) should be referred to neurosurgical consultation with reoperation considered at least in cases of grade III bone flap resorption. / Tiivistelmä Tässä väitöstyössä selvitettiin potilaan omalla kylmäsäilytetyllä luuistutteella tehtyjen kallon luupuutosten ensikertaisten korjausleikkausten tuloksiin vaikuttavia tekijöitä. Erityisesti tarkasteltiin luuistutteen liukenemisen, erään tärkeän, joskin heikosti ymmärretyn komplikaation ennustavia tekijöitä, etenemistä ja määritelmää. Tutkimuksessa I selvitettiin luuistutteen poiston ja liukenemisen yleisyyttä ja näihin vaikuttavia tekijöitä suomalaisessa takautuvassa monikeskusaineistossa. Potilaista 40 %:lle kehittyi komplikaatio. Komplikaatioista puolet johti istutteen poistoon. Luuistutteen liukeneminen ja leikkausalueinfektiot muodostivat 90 % poistoon johtaneista komplikaatioista. Sekä infektioiden että istutteen liukenemi¬sen esiintyvyys oli 9 %. Nuori ikä altisti istutteen liukenemiselle ja tupakointi leikkausalueinfektiolle. Tutkimuksessa II sovellettiin tietokonetomografiaan perustuvaa tilavuusmittausta luuistutteen oireettoman liukenemisen esiintyvyyden ja etenemistaipumuksen selvittämiseksi. Seurannassa 90 %:lla potilaista todettiin alentunut luuistutteen tilavuus viitaten asteeltaan vaihtelevaan istutteen liukenemiseen. Koko tutkimusjoukon tasolla istutteiden liukeneminen ei kuitenkaan edennyt lineaarisesti seuranta-ajan funktiona, joten rutiininomainen seuranta kuvantamistutkimuksin ei vaikuta perustellulta. Suurin osa luuistutteista liukeni niin vähän, ettei uutta leikkausta tarvittu pitkässäkään seurannassa. Tutkimuksessa III käsiteltiin luuistutteen liukenemisen nykyisellään epäselvää määritelmää ja kehitettiin uusi tietokonetomografiaan perustuva pisteytysjärjestelmä (Oulu resorption score) tarkoituksena vakioida radiologisten luuistutteen liukenemislöydösten tulkinta ja ohjata hoitolinjan valintaa. Pisteytysarvot vaihtelevat välillä 0-9. Kasvava arvo kuvaa luuistutteen liukenemisen vaikeusasteen kasvua. Luokitus yhdistettiin riippumattomien neurokirurgien radiologisiin arvioihin, joiden perusteella pistemäärä ≥5 määriteltiin kliinisesti merkitykselliseksi. Pistemäärät jaettiin neljään luokkaan suositeltujen jatkotoimenpiteiden mukaisesti. Luokkia 0 (0 pistettä) ja I (1–4 pistettä) vastaava luuistutteen liukeneminen ei vaadi jatkotoimenpiteitä. Luokkia II (5–8 pistettä) ja III (9 pistettä) vastaavasta luuistutteen liukenemisesta suositellaan konsultoitavan neurokirurgia. Uusintaleikkausta suositellaan harkittavan ainakin luokan III tapauksissa. bone flap resorption bone flap survival computed tomography cranioplasty cryopreservation decompressive craniectomy score volumetry dekompressiivinen kraniektomia kranioplastia kylmäsäilytys luuistutteen resorptio luuistutteen selviäminen tietokonetomografia volumetria
9	Efeitos da cranioplastia em doentes submetidos à craniectomia descompressiva: avaliação anatômica, neurológica e da hemodinâmica encefálica / Cranioplasty effects on patients submitted to decompressive craniectomy: anatomical, neurological and hemodynamic assessment Arthur Maynart Pereira Oliveira 14 August 2015 (has links) Introdução e Objetivos: Falha óssea craniana após craniectomia descompressiva (CD) causa alterações neurológicas que podem estar associadas a modificações da anatomia cortical e hemodinâmica encefálica. Nosso objetivo foi avaliar se essas alterações ocorrem e se estão associadas ao prognóstico neurológico. Métodos: Avaliamos prospectivamente doentes com falha craniana após CD pelo método de Tomografia com estudo de perfusão (TCP) e Doppler Transcraniano (DTC) antes e entre 15 e 30 dias após a cranioplastia. O exame neurológico sistematizado e avaliação de escalas prognósticas (mRs, MEEM, índice de Barthel) foi realizado antes e seis meses após a operação. Resultados: Nós avaliamos 30 doentes, 15 (50%) com CD relacionada a traumatismo cranioencefálico (TCE) e 15 (50%) devido a doença cerebrovascular (DCV). Observamos que houve melhora satisfatória de queixas neurológicas, além de melhora significativa da mRs (p=0,003), MEEM (p < 0,001) e índice de Barthel (p=0,002). Houve reestruturação significativa da superfície cortical, tanto anterior (p < 0,001) quanto posterior (p=0,045). A diferença cortical posterior mostrou correlação com melhora do MEEM (p=0,03; r=-0,4) e índice de Barthel (p=0,035; r=-0,39). As alterações da anatomia encefálica foram mais evidentes em doentes com antecedente de DCV do que TCE. A relação entre a radiodensidade da substância cinzenta (SC) e branca (SB) apresentou elevação (p=0,007), sem correlação com prognóstico. A TCP demonstrou redução da duração média de trânsito (DMT) de 8,23 ± 1,30 segundos(s) para 7,50 ± 1,21 s (p=0,02) e do volume sanguíneo cerebral de 2,29 ± 0,58 ml/100g para 2,00±0,59 ml/100g (p=0,037) apenas no lado operado. O fluxo sanguíneo cerebral (FSC) não demonstrou alterações significativas em nenhum dos lados. Observamos correlação moderada entre DMT (diferença entre lado operado e não operado) com força muscular contralateral (r=-0,4, p =0,034). Na divisão entre grupos, a redução da DMT ocorreu no TCE e DCV mas, foi significativa apenas no primeiro grupo. Houve aumento significativo da velocidade de fluxo na artéria cerebral média tanto homolateral de 49,89±14,79 para 62,32±14,29 (p < 0,001) quanto contralateral de 53,95 ± 11,65 para 58,84±14,17 (p < 0,002) no exame de DTC. Observamos correlação com prognóstico neurológico tanto homolateral (MEEM; p=0,033, r= 0,55) quanto contralateral (mRs; p=0,031, r= -0,48) além de evidência de aumento da velocidade de fluxo em doentes com TCE e DCV mas, significativa apenas em doentes com DVC. Conclusões: As alterações do DTC e DMT apresentam correlação com prognóstico neurológico, representam possível recuperação da hemodinâmica encefálica mas, com comportamento diferente entre doentes com TCE e DCV. Após a cranioplastia ocorre melhora neurológica que se correlaciona com as alterações da anatomia cortical / Introduction and Objectives: Cranial vault defects after decompressive craniectomy (DC) causes neurological disorders that may be associated with changes in brain anatomy and hemodynamics. Our objective was to evaluate whether these changes occur and if they were associated with neurological prognosis. Methods: We prospectively evaluated patients with bone defect after DC with computed tomography perfusion (CTP) and transcranial Doppler Sonography (TCD) before and between 15 and 30 days after cranioplasty . We performed neurological examination and prognostic scales (mRs, MMSE and Barthel index) before and after six months. Results: We studied 30 patients, 15 (50%) had DC related to traumatic brain injury (TBI) and 15 (50%) due to cerebrovascular disease (CVD). We observed a satisfactory improvement of neurological complaints, as well as significant improvement in mRs (p= 0.003), MMSE (p < 0.001) and Barthel index (p=0.002). Significant anatomical expansion of both cerebral hemispheres, including anterior (p < 0.001), posterior (p=0.045), and cortical surface. The posterior measurements was correlated with improvement in the MMSE (p=0.03; r=-0.4) and Barthel index (p=0.035; r=-0.39). Brain anatomy changes were more evident in patients with history of CVD than TBI. Increase in radiodensity relationship between gray and white matter by CT scan (p=0.007) were observed without correlation with prognosis. TCP showed mean transit time (MTT) decrease from 8.23 ± 1.30 seconds (s) to 7.50 ± 1.21 s (p=0.02) and cerebral blood volume (CBV) from 2.29 ± 0.58 ml/100g to 2.00 ± 0.59 ml/100g (p=0.037) both in operated side. Cerebral blood flow (CBF) did not show significant changes in either side. We verified moderate correlation between MTT and contralateral muscle strength (r=-0.4; p=0.034). In the sub groups analysis, MTT decrease in TBI and CVD but was significant only in TBI patients. TCD showed a significant increase in middle cerebral artery flow velocity from 49.89±14.79 to 62.32±14.29 (p < 0.001) ipsilateral and from 53.95 ± 11.65 to 58.84 ± 14.17 (p < 0.002) contralateral to cranioplasty side. There was correlation between TCD changes and neurological prognosis ipsilateral (MMSE; p=0.033, r=0.55) and contralateral (MRS; p=0.031, r=-0.48) to operated side, besides flow velocity increased in TBI and CVD but was significant only in CVD patients. Conclusions: The TCD and MTT changes were correlated with neurological prognosis, represent recovery of brain hemodynamic condition but different behavior between TBI and CVD patients. After cranioplasty occurs neurological improvement that also correlates with anatomical changes in cortical surface Craniectomia descompressiva Cranio/cirurgia Hemodinâmica Imagem por perfusão Transtornos cerebrovasculares Traumatismos cranioencefálicos Cerebrovascular disorders Cranioencephalic trauma Decompressive craniectomy Hemodynamics Perfusion imaging Skull/surgery
10	Finite Element and Neuroimaging Techniques toImprove Decision-Making in Clinical Neuroscience Li, Xiaogai January 2012 (has links) Our brain, perhaps the most sophisticated and mysterious part of the human body, to some extent, determines who we are. However, it’s a vulnerable organ. When subjected to an impact, such as a traffic accident or sport, it may lead to traumatic brain injury (TBI) which can have devastating effects for those who suffer the injury. Despite lots of efforts have been put into primary injury prevention, the number of TBIs is still on an unacceptable high level in a global perspective. Brain edema is a major neurological complication of moderate and severe TBI, which consists of an abnormal accumulation of fluid within the brain parenchyma. Clinically, local and minor edema may be treated conservatively only by observation, where the treatment of choice usually follows evidence-based practice. In the first study, the gravitational force is suggested to have a significant impact on the pressure of the edema zone in the brain tissue. Thus, the objective of the study was to investigate the significance of head position on edema at the posterior part of the brain using a Finite Element (FE) model. The model revealed that water content (WC) increment at the edema zone remained nearly identical for both supine and prone positions. However, the interstitial fluid pressure (IFP) inside the edema zone decreased around 15% by having the head in a prone position compared with a supine position. The decrease of IFP inside the edema zone by changing patient position from supine to prone has the potential to alleviate the damage to axonal fibers of the central nervous system. These observations suggest that considering the patient’s head position during intensive care and at rehabilitation should be of importance to the treatment of edematous regions in TBI patients. In TBI patients with diffuse brain edema, for most severe cases with refractory intracranial hypertension, decompressive craniotomy (DC) is performed as an ultimate therapy. However, a complete consensus on its effectiveness has not been achieved due to the high levels of severe disability and persistent vegetative state found in the patients treated with DC. DC allows expansion of the swollen brain outside the skull, thereby having the potential in reducing the Intracranial Pressure (ICP). However, the treatment causes stretching of the axons and may contribute to the unfavorable outcome of the patients. The second study aimed at quantifying the stretching and WC in the brain tissue due to the neurosurgical intervention to provide more insight into the effects upon such a treatment. A nonlinear registration method was used to quantify the strain. Our analysis showed a substantial increase of the strain level in the brain tissue close to the treated side of DC compared to before the treatment. Also, the WC was related to specific gravity (SG), which in turn was related to the Hounsfield unit (HU) value in the Computerized Tomography (CT) images by a photoelectric correction according to the chemical composition of the brain tissue. The overall WC of brain tissue presented a significant increase after the treatment compared to the condition seen before the treatment. It is suggested that a quantitative model, which characterizes the stretching and WC of the brain tissue both before as well as after DC, may clarify some of the potential problems with such a treatment. Diffusion Weighted (DW) Imaging technology provides a noninvasive way to extract axonal fiber tracts in the brain. The aim of the third study, as an extension to the second study was to assess and quantify the axonal deformation (i.e. stretching and shearing)at both the pre- and post-craniotomy periods in order to provide more insight into the mechanical effects on the axonal fibers due to DC. Subarachnoid injection of artificial cerebrospinal fluid (CSF) into the CSF system is widely used in neurological practice to gain information on CSF dynamics. Mathematical models are important for a better understanding of the underlying mechanisms. Despite the critical importance of the parameters for accurate modeling, there is a substantial variation in the poroelastic constants used in the literature due to the difficulties in determining material properties of brain tissue. In the fourth study, we developed a Finite Element (FE) model including the whole brain-CSF-skull system to study the CSF dynamics during constant-rate infusion. We investigated the capacity of the current model to predict the steady state of the mean ICP. For transient analysis, rather than accurately fit the infusion curve to the experimental data, we placed more emphasis on studying the influences of each of the poroelastic parameters due to the aforementioned inconsistency in the poroelastic constants for brain tissue. It was found that the value of the specific storage term S_epsilon is the dominant factor that influences the infusion curve, and the drained Young’s modulus E was identified as the dominant parameter second to S_epsilon. Based on the simulated infusion curves from the FE model, Artificial Neural Network (ANN) was used to find an optimized parameter set that best fit the experimental curve. The infusion curves from both the FE simulations and using ANN confirmed the limitation of linear poroelasticity in modeling the transient constant-rate infusion. To summarize, the work done in this thesis is to introduce FE Modeling and imaging technologiesincluding CT, DW imaging, and image registration method as a complementarytechnique for clinical diagnosis and treatment of TBI patients. Hopefully, the result mayto some extent improve the understanding of these clinical problems and improve theirmedical treatments. / QC 20120201 Traumatic brain injury Intracranial Pressure Brain edema Gravitational force Finite Element Model Poroelastic parameter Decompressive craniotomy Image registration Water content Strain level Diffusion Weighted Imaging

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