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1	Severe traumatic brain injury : clinical course and prognostic factors Stenberg, Maud January 2016 (has links) Traumatic brain injury (TBI) constitutes a major health problem and is a leading cause of long-term disability and death. Patients with severe traumatic brain injury, S-TBI, comprise a heterogeneous group with varying complexity and prognosis. The primary aim of this thesis was to increase knowledge about clinical course and outcome with regard to prognostic factors. Papers I, II and III were based on data from a prospective multicentre observational study from six neurotrauma centers (NCs) in Sweden and Iceland of patients (n=103-114), 18-65 years with S-TBI requiring neurosurgical intensive care or collaborative care with a neurosurgeon (the “PROBRAIN” study). Paper IV and V were performed on a regional subset (n=37). In Paper I, patients with posttraumatic disorders of consciousness (DOC) were assessed as regards relationship between conscious state at 3 weeks and outcomes at 1 year. The number of patients who emerged from minimally conscious state (EMCS) 1 year after injury according to status at 3 weeks were: coma (0/6), unresponsive wakeful syndrome (UWS) (9/17), minimally conscious state (MCS) (13/13), anaesthetized (9/11). Outcome at 1 year was good (Glasgow Outcome Scale Extended (GOSE>4) in half of the patients in MCS (or anaesthetized) at 3 weeks, but not for any of the patients in coma or UWS. In Paper II, the relationships between clinical care descriptors and outcome at 1 year were assessed. A longer length of stay in intensive care, and longer time between discharge from intensive care and admission to inpatient rehabilitation, were both associated with a worse outcome on the GOSE. The number of intervening care units between intensive care and rehabilitation, was not significantly associated with outcome at 1 year. In Paper III, the clinical course of cognitive and emotional impairments as reflected in the Barrow Neurological Institute Screen for Higher Cerebral Functions (BNIS) and the Hospital Anxiety and Depression Scale (HADS) were assessed from 3 weeks to 1 year together with associations with outcomes GOSE and Rancho Los Amigos Cognitive Scale-Revised (RLAS-R) at 1 year. Cognition improved over time and appeared to be stable from 3 months to 1 year. In Paper IV, clinical parameters, the clinical pathways from injury to 3 months after discharge from the NC in relation to outcomes 3 months post-injury. Ratings on the RLAS-R improved significantly over time. Eight patients had both “superior cognitive functioning” on the RLAS-R and “favourable outcome” on the GOSE. Acute transfers to the one regional NC was direct and swift, transfers for postacute rehabilitation scattered patients to many hospitals/hospital departments, not seldom by several transitional stages. In Paper V, an initial computerized tomography of the brain (CTi) and a further posttraumatic brain CT after 24 hours (CT24) were evaluated according to protocols for standardized assessment, the Marshall and Rotterdam classifications. The CT scores only correlated with clinical outcome measures (GOSE and RLAS-R) at 3 months, but failed to yield prognostic information regarding outcome at 1 year. A prognostic model was also implemented, based on acute data (CRASH model). This model predicted unfavourable outcomes for 81% of patients with bad outcome and for 85% of patients with favourable outcome according to GOSE at 1 year. When assessing outcomes per se, both GOSE and RLAS-R improved significantly from 3 months to 1 year. The papers in this study point both to the generally favourable outcomes that result from active and aggressive management of S-TBI, while also underscore our current lack of reliable instruments for outcome prediction. In the absence of an ability to select patients based on prognostication, the overall favourable prognosis lends support for providing active rehabilitation to all patients with S-TBI. The results of these studies should be considered in conjunction with the prognosis of long-term outcomes and the planning of rehabilitation and care pathways. The results demonstrate the importance of a combination of active, acute neurotrauma care and intensive specialized neurorehabilitation with follow-up for these severely injured patients. Severe traumatic brain injury outcome rehabilitation prognosis
2	Acute neuro-endocrine profile and prediction of outcome after severe brain injury Olivecrona, Zandra, Dahlqvist, Per, Koskinen, Lars-Owe January 2013 (has links) Object: The aim of the study was to evaluate the early changes in pituitary hormone levels after severe traumatic brain injury (sTBI) and compare hormone levels to basic neuro-intensive care data, a systematic scoring of the CT-findings and to evaluate whether hormone changes are related to outcome. Methods: Prospective study, including consecutive patients, 15-70 years, with sTBI, Glasgow Coma Scale (GCS) score <= 8, initial cerebral perfusion pressure > 10 mm Hg, and arrival to our level one trauma university hospital within 24 hours after head trauma (n = 48). Serum samples were collected in the morning (08-10 am) day 1 and day 4 after sTBI for analysis of cortisol, growth hormone (GH), prolactin, insulin-like growth factor 1 (IGF-1), thyroid-stimulating hormone (TSH), free triiodothyronine (fT3), free thyroxine (fT4), follicular stimulating hormone (FSH), luteinizing hormone (LH), testosterone and sex hormone-binding globulin (SHBG) (men). Serum for cortisol and GH was also obtained in the evening (17-19 pm) at day 1 and day 4. The first CT of the brain was classified according to Marshall. Independent staff evaluated outcome at 3 months using GOS-E. Results: Profound changes were found for most pituitary-dependent hormones in the acute phase after sTBI, i.e. low levels of thyroid hormones, strong suppression of the pituitary-gonadal axis and increased levels of prolactin. The main findings of this study were: 1) A large proportion (54% day 1 and 70% day 4) of the patients showed morning s-cortisol levels below the proposed cut-off levels for critical illness related corticosteroid insufficiency (CIRCI), i.e. < 276 nmol/L (= 10 ug/dL), 2) Low s-cortisol was not associated with higher mortality or worse outcome at 3 months, 3) There was a significant association between early (day 1) and strong suppression of the pituitary-gonadal axis and improved survival and favorable functional outcome 3 months after sTBI, 4) Significantly lower levels of fT3 and TSH at day 4 in patients with a poor outcome at 3 months. 5) A higher Marshall CT score was associated with higher day 1 LH/FSH-and lower day 4 TSH levels 6) In general no significant correlation between GCS, ICP or CPP and hormone levels were detected. Only ICPmax and LH day 1 in men was significantly correlated. Conclusion: Profound dynamic changes in hormone levels are found in the acute phase of sTBI. This is consistent with previous findings in different groups of critically ill patients, most of which are likely to be attributed to physiological adaptation to acute illness. Low cortisol levels were a common finding, and not associated with unfavorable outcome. A retained ability to a dynamic hormonal response, i.e. fast and strong suppression of the pituitary-gonadal axis (day 1) and ability to restore activity in the pituitary-thyroid axis (day 4) was associated with less severe injury according to CT-findings and favorable outcome. Severe traumatic brain injury Hypopituitarism Outcome ICP targeted therapy Hypothalamic-pituitary dysfunction Prostacyclin
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	Der Einfluss des Blutglukosespiegels auf den frühen intensivmedizinischen Verlauf und der Benefit einer intensivierten Insulintherapie bei Patienten mit mittelschwerem und schwerem Schädel-Hirn-Trauma Bötel, Martina 29 March 2017 (has links) (PDF) Seit Veröffentlichung der Studien von G. Van den Berghe et al. im Jahre 2001 galt es die strikte Blutzuckereinstellung in normoglykämische Bereiche bei Schwerverletzten anzustreben. Die intensivierte Insulintherapie wurde daraufhin von verschiedensten Fachgesellschaften in Leitlinien und Therapieregimen integriert, so auch auf der neurochirurgischen ITS der Universitätsklinik Leipzig. Kurze Zeit später erschienen große multizentrische Studien, die den Benefit der intensivierten Insulintherapie in Frage stellten und sogar von einer signifikant höheren Letalität bei strikt normoglykäm eingestellten Patienten berichteten. Daher wird in dieser Studie die zwiespältige aktuelle Datenlage zum Anlass genommen, die Beziehungen zwischen Blutzuckereinstellung und ITS-Regime sowie die Auswirkungen hyperglykämischer Stoffwechselsituationen und mögliche Bedeutung des Blutglukosespiegels respektive der intensivierten Insulintherapie speziell für Patienten mit isoliertem mittelschwerem und schwerem Schädel-Hirn-Trauma zu evaluieren. Mit Hilfe der Integration wird erstmalig ein Verfahren zur Blutglukosedarstellung verwendet, dass durch die Flächenberechnung (Area under the Curve (AUC-BG)) ein Abbild von Höhe und Dauer der Hyperglykämie schafft. Es konnte gezeigt werden, dass die Blutzuckereinstellung mit dem klinischen Verlauf, krankheitsspezifischen Therapiekonzepten, Komplikationen und dem Outcome der Patienten korreliert und positiv Einfluss nimmt. Von besonderem Interesse war die Auswirkung auf den Hirndruck und die Notwendigkeit von Dekompressionskraniektomien, als auch auf Infektionsereignisse, die kontrollierte Beatmung, Ernährungsform und das Outcome. Nach Einführung der intensivierten Insulintherapie wurde ein Vergleich mit konventionell therapierten Patienten herbeigeführt. Es wurden vergleichende Analysen zwischen der retrospektiven (n = 65, konventionelle Insulintherapie, Blutzucker < 10,0 mmol/l [< 180 mg/dl]) und prospektiven Gruppe (n = 65, intensivierte Insulintherapie, Blutzucker 4,4 – 6,1 mmol/l [80 – 110 mg/dl]) bezüglich Blutzuckerfläche, Intensivverlauf und Outcome durchgeführt. Nach 1:1-Matching hinsichtlich Alter und Geschlechterzugehörigkeit waren die beiden Therapiegruppen homogen und es zeigten sich keine Unterschiede bezüglich der Aufnahmecharakteristik. Schädelhirntraumatisierte Patienten profitierten von einer intensivierten Insulintherapie im Vergleich zur Kontrollgruppe, auch wenn es nicht gelang, den Blutzuckerspiegel entsprechend der initiierten Therapierichtlinie signifikant hin zur Normoglykämie zu senken. Die positiven Effekte zeigten sich deutlich in Bezug auf die Infektionsrate und Ernährungsform. Die intensivierte Insulintherapie senkte den Hirndruck und die Rate risikobehafteter Dekompressionskraniektomien mit einem deutlicheren Trend zu besseren Outcomemesswerten. Vor allem Patienten mit einem besseren initialem GCS und Nicht-Diabetiker scheinen von einer guten Blutzuckereinstellung zu profitieren. Hypoglykämien (Blutzucker ≤ 3 mmol/l) traten entgegen der Vermutung dabei nicht gehäuft auf und stellten somit kein Gegenargument einer derartigen Therapie dar. Die Senkung des Blutzuckers in einen moderaten, therapeutischen Bereich sollte das Mindestziel in der Gesamttherapie von Patienten mit einem mittelschweren und schweren Schädel-Hirn-Trauma sein, wobei ein Konsens über den optimal therapeutischen Blutzuckerzielbereich bisher noch nicht gefunden wurde und somit weitere Untersuchungen gerechtfertigt sind. Schädel-Hirn-Trauma Intensivierte Insulintherapie Blutglukosespiegel severe traumatic brain injury intensive insuline therapy management of blood glucose ddc:610
5	On severe traumatic brain injury : aspects of an intra cranial pressure-targeted therapy based on the Lund concept Olivecrona, Magnus January 2008 (has links) Severe Traumatic Brain Injury (sTBI) is a major cause of mortality and morbidity. At the Department of Neurosurgery Umeå University Hospital subjects with sTBI are treated with an intracranial pressure (ICP) guided therapy based on physiological principles, aiming to optimise the microcirculation of the brain so avoiding secondary brain injuries. The investigations in this thesis are unique in the sense that all patients with sTBI were treated according to the guidelines of an ICP targeted therapy based on the “Lund concept”. As the treatment is based on normalisation of the ICP, the accuracy and reliability of the measuring device is of outmost importance. Therefore the accuracy, drift, and complications related to the measuring device was prospectively studied (n=128). The drift was 0,9 ± 0,2 mmHg during a mean of 7,2 ± 0,4 days and the accuracy high. No clinical significant complications were noted. In 1997 uni- or bilateral decompressive hemi-craniectomy (DC) was introduced into the treatment guidelines. The effect of DC on the ICP and outcome was retrospectively analysed for subjects with sTBI treated 1998-2001. In the subjects who underwent DC the ICP was 36,4 mmHg immediately before and 12,6 mmHg immediately after the DC. The ICP then levelled out at just above 20 mmHg. The ICP was significant lower during the 72 hours following DC. The outcome did not differ between subjects who had undergone DC or not. Subclinical electroencephalographic seizures and status epilepticus have been reported to be common in subjects treated for traumatic brain injury (TBI). This can negatively influence the outcome giving rise to secondary brain injuries. The occurrence of seizures in subjects treated for TBI using continuous EEG monitoring was therefore prospectively studied. During 7334 hours of EEG recording in 47 patients no electroencephalographic seizures were observed. Theoretically, and based on animal studies, prostacyclin (PGI2) can improve the microcirculation of the brain, decreasing the risk for secondary ischaemic brain injury. PGI2 was introduced to the treatment in a prospective randomised double blinded study (epoprostenol 0,5 ng/kg/min). The effect of PGI1 pkt was analysed using the lactate/pyruvate ratio (L/P) measured by cerebral microdialysis in order to study the energy metabolism in the brain. The outcome was measured as Glasgow Outcome Scale (GOS) at 3 months follow-up. Forty-eight subjects were included. The L/P was pathological high during the first day, thereafter decreasing. There was no significant difference in L/P or outcome between the treated and non-treated group. At 3 months the mortality was 12,5% (95,8% was discharged alive from the ICU), and favourable outcome (GOS 4-5) was 52%. In the same study the brain injury biomarkers S-100B and NSE were followed twice a day for five days to evaluate brain injury and investigate the possible use of these biomarkers for outcome prediction. Initially the biomarkers were elevated to pathological levels which decreased over time. The biomarkers were significant elevated in subjects with Glasgow Coma Scale 3 (GCS) and GOS 1 compared with subjects with GCS 4-8 and GOS 2–5, respectively. A correlation to outcome was found but this correlation could not be used to predict clinical outcome. It is concluded that the ICP measurements are valid and the treatment protocol is a safe and solid protocol, yielding among the best reported results in the world, in regard to favourable outcome as well as in regard to mortality. Epoprostenol in the given dose was not shown to have any effects on the microdialysis parameters nor the clinical outcome. In sTBI L/P and brain injury biomarkers can not be used to predict the final outcome. severe traumatic brain injury ICP targeted therapy ICP hemicraniectomy seizures prostacyclin microdialysis outcome S100B NSE Neurosurgery Neurokirurgi
6	Severe cerebral emergency : aspects of treatment and outcome in the intensive care patient Rodling Wahlström, Marie January 2009 (has links) Severe Traumatic Brain Injury (TBI) and aneurysmal Subarachnoid Hemorrhage (SAH) are severe cerebral emergencies. They are common reasons for extensive morbidity and mortality in young people and adults in the western world. This thesis, based on five clinical studies in patients with severe TBI (I-IV) and SAH (V), is concentrated on examination of pathophysiological developments and of evaluation of therapeutic approaches in order to improve outcome after cerebral emergency. The treatment for severe TBI patients at Umeå University Hospital, Sweden is an intracranial pressure (ICP)-targeted therapy according to “the Lund-concept”. This therapy is based on physiological principles for cerebral volume regulation, in order to preserve a normal cerebral microcirculation and a normal ICP. The main goal is to avoid development of secondary brain injuries, thus avoiding brain oedema and worsened microcirculation. Study I is evaluating retrospectively 41 children with severe TBI, from 1993 to 2002. The boundaries of the ICP-targeted protocol were obtained in 90%. Survival rate was 93%, and favourable outcome (Glasgow Outcome Scale, score 4+5) was 80%. Study II is retrospectively analysing fluid administration and fluid balance in 93 adult patients with severe TBI, from 1998 to 2001.The ICP-targeted therapy used, have defined fluid strategies. The total fluid balance was positive day one to three, and negative day four to ten. Colloids constituted 40-60% of total fluids given/day. Severe organ failure was evident for respiratory insufficiency and observed in 29%. Mortality within 28 days was 11%. Study III is a prospective, randomised, double-blind, placebo-controlled clinical trial in 48 patients with severe TBI. In order to improve microcirculation and prevent oedema formation, prostacyclin treatment was added to the ICP-targeted therapy. Prostacyclin is endogenously produced, by the vascular endothelium, and has the ability to decrease capillary permeability and vasodilate cerebral capillaries. Prostacyclin is an inhibitor of leukocyte adhesion and platelet aggregation. There was no significant difference between prostacyclin or placebo groups in clinical outcome or in cerebral microdialysis markers such as lactatepyruvate ratio and brain glucose levels. Study IV is part of the third trial and focus on the systemic release of pro-inflammatory mediators that are rapidly activated by trauma. The systemically released pro-inflammatory mediators, interleukin-6 and CRP were significantly decreased in the prostacyclin group versus the placebo group. Study V is a prospective pilot study which analyses asymmetric dimethylarginine (ADMA) concentrations in serum from SAH patients. Acute SAH patients have cerebral vascular, systemic circulatory and inflammatory complications. ADMA is a marker in vascular diseases which is correlated to endothelial dysfunction. ADMA concentrations in serum were significantly elevated seven days after the SAH compared to admission and were still elevated at the three months follow-up. Our results show overall low mortality and high favourable outcome compared to international reports on outcome in severe TBI patients. Prostacyclin administration does not improve cerebral metabolism or outcome but significantly decreases the levels of pro-inflammatory mediators. SAH seems to induce long-lasting elevations of ADMA in serum, which indicates persistent endothelial dysfunction. Endothelial dysfunction may influence outcome after severe cerebral emergencies. severe traumatic brain injury intracranial pressure-targeted therapy albumin prostacyclin endothelial dysfunction pro-inflammatory cytokines subarachnoid haemorrhage asymmetric dimethylarginine Anaesthetics and intensive care Anestesiologi och intensivvård
7	Der Einfluss des Blutglukosespiegels auf den frühen intensivmedizinischen Verlauf und der Benefit einer intensivierten Insulintherapie bei Patienten mit mittelschwerem und schwerem Schädel-Hirn-Trauma Bötel, Martina 16 March 2017 (has links) Seit Veröffentlichung der Studien von G. Van den Berghe et al. im Jahre 2001 galt es die strikte Blutzuckereinstellung in normoglykämische Bereiche bei Schwerverletzten anzustreben. Die intensivierte Insulintherapie wurde daraufhin von verschiedensten Fachgesellschaften in Leitlinien und Therapieregimen integriert, so auch auf der neurochirurgischen ITS der Universitätsklinik Leipzig. Kurze Zeit später erschienen große multizentrische Studien, die den Benefit der intensivierten Insulintherapie in Frage stellten und sogar von einer signifikant höheren Letalität bei strikt normoglykäm eingestellten Patienten berichteten. Daher wird in dieser Studie die zwiespältige aktuelle Datenlage zum Anlass genommen, die Beziehungen zwischen Blutzuckereinstellung und ITS-Regime sowie die Auswirkungen hyperglykämischer Stoffwechselsituationen und mögliche Bedeutung des Blutglukosespiegels respektive der intensivierten Insulintherapie speziell für Patienten mit isoliertem mittelschwerem und schwerem Schädel-Hirn-Trauma zu evaluieren. Mit Hilfe der Integration wird erstmalig ein Verfahren zur Blutglukosedarstellung verwendet, dass durch die Flächenberechnung (Area under the Curve (AUC-BG)) ein Abbild von Höhe und Dauer der Hyperglykämie schafft. Es konnte gezeigt werden, dass die Blutzuckereinstellung mit dem klinischen Verlauf, krankheitsspezifischen Therapiekonzepten, Komplikationen und dem Outcome der Patienten korreliert und positiv Einfluss nimmt. Von besonderem Interesse war die Auswirkung auf den Hirndruck und die Notwendigkeit von Dekompressionskraniektomien, als auch auf Infektionsereignisse, die kontrollierte Beatmung, Ernährungsform und das Outcome. Nach Einführung der intensivierten Insulintherapie wurde ein Vergleich mit konventionell therapierten Patienten herbeigeführt. Es wurden vergleichende Analysen zwischen der retrospektiven (n = 65, konventionelle Insulintherapie, Blutzucker < 10,0 mmol/l [< 180 mg/dl]) und prospektiven Gruppe (n = 65, intensivierte Insulintherapie, Blutzucker 4,4 – 6,1 mmol/l [80 – 110 mg/dl]) bezüglich Blutzuckerfläche, Intensivverlauf und Outcome durchgeführt. Nach 1:1-Matching hinsichtlich Alter und Geschlechterzugehörigkeit waren die beiden Therapiegruppen homogen und es zeigten sich keine Unterschiede bezüglich der Aufnahmecharakteristik. Schädelhirntraumatisierte Patienten profitierten von einer intensivierten Insulintherapie im Vergleich zur Kontrollgruppe, auch wenn es nicht gelang, den Blutzuckerspiegel entsprechend der initiierten Therapierichtlinie signifikant hin zur Normoglykämie zu senken. Die positiven Effekte zeigten sich deutlich in Bezug auf die Infektionsrate und Ernährungsform. Die intensivierte Insulintherapie senkte den Hirndruck und die Rate risikobehafteter Dekompressionskraniektomien mit einem deutlicheren Trend zu besseren Outcomemesswerten. Vor allem Patienten mit einem besseren initialem GCS und Nicht-Diabetiker scheinen von einer guten Blutzuckereinstellung zu profitieren. Hypoglykämien (Blutzucker ≤ 3 mmol/l) traten entgegen der Vermutung dabei nicht gehäuft auf und stellten somit kein Gegenargument einer derartigen Therapie dar. Die Senkung des Blutzuckers in einen moderaten, therapeutischen Bereich sollte das Mindestziel in der Gesamttherapie von Patienten mit einem mittelschweren und schweren Schädel-Hirn-Trauma sein, wobei ein Konsens über den optimal therapeutischen Blutzuckerzielbereich bisher noch nicht gefunden wurde und somit weitere Untersuchungen gerechtfertigt sind.:BIBLIOGRAPHISCHE BESCHREIBUNG ABKÜRZUNGSVERZEICHNIS 1 EINFÜHRUNG 1.1 SCHÄDEL-HIRN-TRAUMA – DEFINITION UND EINTEILUNG 1.2 SCHÄDEL-HIRN-TRAUMA – EPIDEMIOLOGIE 1.3 PATHOPHYSIOLOGISCHER HINTERGRUND DES SCHÄDEL-HIRN-TRAUMAS 1.4 KLINIK, MONITORING UND THERAPIE – EIN ÜBERBLICK 1.5 FRAGESTELLUNG UND ZIEL DER ARBEIT 2 MATERIALIEN UND METHODIK 2.1 STUDIENDESIGN 2.1.1 Ein- und Ausschlusskriterien 2.1.2 Studienende 2.1.3 Erfasste Parameter 2.2 PATIENTENMANAGEMENT 2.3 BLUTZUCKERMANAGEMENT 2.3.1 Insulinschema bei konventioneller Insulintherapie 2.3.2 Insulinschema bei intensivierter Insulintherapie 2.4 DATENERFASSUNG 2.5 METHODENBESCHREIBUNG – AREA UNDER THE CURVE 2.6 STATISTISCHE ANALYSE 3 ERGEBNISSE 3.1 PATIENTENCHARAKTERISTIK/DEMOGRAPHIE 3.1.1 Vor Matching 3.1.2 Nach Matching 3.2 INTENSIVVERLAUF UND OUTCOME 3.2.1 Verlaufsparameter 3.2.2 Outcome-Messwerte 3.3 AUSWIRKUNGEN DER EINGANGSVARIABLEN AUF INTENSIVVERLAUF UND OUTCOME 3.4 EINFLUSS VON HÖHE UND DAUER DER HYPERGLYKÄMIE AUF INTENSIVVERLAUF UND OUTCOME 3.4.1 Einfluss auf die Beatmungsdauer 3.4.2 Einfluss auf den Gesamt-SAPS II 3.4.3 Einfluss auf die Dauer bis zur Oralisierung 3.4.4 Einfluss auf das Auftreten von Infektionen 3.4.5 Einfluss auf den intrakraniellen Druck 3.4.5.1 ICP-Sondenliegedauer in Abhängigkeit von der Blutzuckerfläche 3.4.5.2 Zusammenhang zwischen Hirndruckfläche und Blutzuckerfläche 3.4.5.3 Diabetiker versus Nicht-Diabetiker 3.4.6 Einfluss auf die Notwendigkeit einer Dekompressionskraniektomie 3.4.7 Einfluss auf die Dauer der Intensivbehandlung 3.4.8 Einfluss auf das Outcome 3.4.8.1 Glasgow Outcome Score 3.4.8.2 Modified Rankin Scale 3.5 METHODENVERGLEICH 3.5.1 Güte der Therapie 3.5.2 Kontrollierte Beatmung 3.5.3 Gesamt-SAPS II 3.5.4 Dauer bis zur Oralisierung 3.5.5 Auftreten von Infektionen 3.5.6 Hirndruckmanagement 3.5.6.1 Demographie 3.5.6.2 Vergleich des intrakraniellen Druckes 3.5.7 Notwendigkeit einer Dekompressionskraniektomie 3.5.8 Intensivbetreuung und Krankenhausliegedauer 3.5.9 Outcome 3.5.9.1 Glasgow Outcome Score 3.5.9.2 Modified Rankin Scale 3.6 HYPOGLYKÄMIE 3.7 SCHWERE HYPERGLYKÄMIE 3.8 ABHÄNGIGKEIT DES OUTCOMES 3.8.1 Initial- und Verlaufsparameter 3.8.2 Multiple lineare Regressionsanalyse 3.8.2.1 Einfluss der Initialparameter 3.8.2.2 Interaktion von Glasgow Coma Score und Blutzuckerfläche 3.8.2.3 Einfluss der Verlaufsparameter 3.8.2.4 Zusammenfassung der relevanten Initial- und Verlaufsparameter 3.9 ABHÄNGIGKEIT DES HIRNDRUCKES 3.9.1 Multiple lineare Regressionsanalyse 3.9.1.1 Einfluss der Initialparameter 3.9.1.2 Einfluss der Verlaufsparameter 3.10 ZUSAMMENFASSUNG DER ERGEBNISSE 3.10.1 Patientencharakteristik/Demographie 3.10.2 Intensivverlauf und Outcome 3.10.3 Auswirkungen der Eingangsvariablen auf Intensivverlauf und Outcome 3.10.4 Einfluss von Höhe und Dauer der Hyperglykämie auf Intensivverlauf und Outcome 3.10.5 Methodenvergleich 3.10.6 Abhängigkeit des Outcomes 3.10.7 Abhängigkeit des intrakraniellen Druckes 4 DISKUSSION 4.1 PATIENTENCHARAKTERISTIK/DEMOGRAPHIE 4.2 MATERIAL UND METHODIK 4.3 AUSWIRKUNGEN VON HÖHE UND DAUER DER HYPERGLYKÄMIE AUF INTENSIVVERLAUF UND OUTCOME 4.3.1 Einfluss auf allgemeine intensivmedizinische Parameter 4.3.2 Einfluss auf den intrakraniellen Druck und das Outcome 4.4 VERGLEICH BEIDER THERAPIEGRUPPEN 4.4.1 Methodische Aspekte 4.4.2 Klinische Aspekte 4.5 HYPOGLYKÄMIE 4.6 ABHÄNGIGKEIT DES OUTCOMES 4.7 ABHÄNGIGKEIT DES HIRNDRUCKES 4.8 ZUSAMMENFASSUNG 5 ZUSAMMENFASSUNG LITERATURVERZEICHNIS ABBILDUNGSVERZEICHNIS TABELLENVERZEICHNIS ANLAGEN PATIENTENDATENBLATT TABELLEN SAPS II – SCORE VOTUM DER ETHIKKOMMISSION ERKLÄRUNG ÜBER DIE EIGENSTÄNDIGE ABFASSUNG DER ARBEIT LEBENSLAUF DANKSAGUNG info:eu-repo/classification/ddc/610 ddc:610
8	Die ontwikkeling en toepassing van ‘n voorlopige meetinstrument vir die bepaling van primêre sorggewers se behoeftes rakende die hantering van die persoon met ‘n traumatiese breinbesering (Afrikaans) Olivier, Melani 15 May 2007 (has links) The primary goal of this study was to develop a preliminary tool to determine caregivers’ needs regarding the management of a person with a traumatic brain injury (TBI), during the acute rehabilitation period. The potential impact of TBI on family dynamics, interpersonal relationships and functional independence is well documented.To facilitate achievement of the main goal this study was divided into two phases. In the first phase, caregivers’ needs were determined by means of both qualitative and quantitative measurements in the form of structured and unstructured observations, the implementation of a “Needs Questionnaire”, a focus group and semi-structured interviews. The results obtained during this phase indicated that caregivers have needs for support from professionals and the community, as well as needs regarding the general management of the person with a TBI and the management of the potential communication difficulties associated with TBI. Based on these needs, a preliminary tool, namely the “Needs questionnaire for caregivers of a person with a traumatic brain injury”, was developed. During the second phase of the study, this tool was administered to caregivers of individuals with TBI before and after the presentation of a workshop to determine whether there is a change in caregivers’ needs once they have received information. A pretest-posttest, experimental design was thus implemented during the second phase of this study. Although further research is required for the qualitative and quantitative validation of this tool, the use of this tool has implications for providing a better understanding of caregivers’ needs during the acute rehabilitation period after TBI. The results of this study further emphasize that improved service delivery in the South African context is reliant on the early identification, by the professional team, of the needs that caregivers of individuals with TBI have. / Dissertation (M (Communication Pathology))--University of Pretoria, 2007. / Speech-Language Pathology and Audiology / unrestricted Akute-sorg Akute rehabilitasieperiode Primêre sorggewers Meetinstrument Kommunikasie Behoeftes Primary caregivers Measurement tool Communication Acute rehabilitation period Needs Acute care UCTD

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