Ra nn só kn ar ve rk ef ni 3 . á rs ne m a 2 01 6 16 0 Only two proteins assessed showed bands in the western blot, total caveolin­1 and total Akt­1. They showed no trends towards changes. A band was also observed for GAPDH which showed that the loading for the samples was uneven. Conclusion: These results from the immuno­ fluorescence assay show that arteriovenous fistula can be put under arterial conditions in the bioreactor without their endothelium being destroyed. The results from the western blot are unreliable but the fact that there do not seem to be changes in the total amount of caveolin­1 and Akt­1 also suggest that the endothelium is preserved. No phosphorylated proteins showed bands so no conclusions about protein activation can be drawn. We conclude that the bioreactor flow chamber model is viable for further, exciting research into fistula maturation. Kynáttunarvandi á Íslandi 1997 ­ 2015 Aldur, kynjadreifing, lífsvenjur, lyfjameðferð, skurðaðgerðir og notkun á annarri þjónustu Steinunn Birna Sveinbjörnsdóttir1, Elsa Bára Traustadóttir2, Óttar Guðmundsson2, Arna Guðmundsdóttir3 1Læknadeild Háskóla Íslands, 2Geðdeild Landspítala, 3Göngudeild innkirtlalækninga Landspítala Inngangur: Kynáttunarvandi er ástand þar sem einstaklingur upplifir sig í röngu kyni. Þetta fólk kallast transfólk. Líffræðilegar konur sem upplifa sig sem menn kallast transmenn og líffræðilegir karlar sem upplifa sig sem konur kallast transkonur. Á Landspítala starfar teymi sem sérhæfir sig í greiningu og meðferð transfólks. Á síðustu árum hefur orðið fjölgun einstaklinga sem leita sér aðstoðar vegna kynáttunarvanda. Markmið þessarar rannsóknar var að skoða lýðfræði (e. demographiu) þessa hóps og meðferð með von um að geta bætt þjónustu við hópinn. Efniviður og aðferðir: Lýsandi rannsókn sem tók til allra einstaklinga með kynáttunarvanda sem komu til transteymis Landspítalaárin frá 1997 til ársloka 2015. Upplýsingar fengust úr sjúkraskrám. Niðurstöður: Markmið rannsóknarinnar er að skoða þennan hóp með tilliti til þess að hægt sé að bæta þjónustu við hópinn. Alls leituðu 84 einstaklingar til transteymisins á tímabilinu, þar af 49 transkonur og 35 transmenn. Fjöldi þeirra sem hefur leitað sér aðstoðar hefur aukist. Aldur transfólks sem leitar sér aðstoðar virðist vera að lækka. Meðalaldur transmanna var 23 ± 6 ár en meðalaldur transkvenna var 31 ± 11 ár. 25% transkvenna voru í sambandi, sambúð eða í hjónabandi við fyrstu komu til transteymisins en 43% transmanna. Tæplega helmingur transkvenna og rúmlega 70% transmanna voru við nám og/eða í vinnu. Aðeins 4% transkvenna og 3% transmanna höfðu lokið háskólamenntun. 29% transkvenna og 26% transmanna reyktu á tímabilinu. 16% transkvenna og 9% transmanna hafa átt við áfengis­ og/eða vímuefnavanda að stríða. Tæplega 60% transkvenna og 30% transmanna nýttu sér þjónustu talmeinafræðings. Ályktanir: Álykta mætti frá niðurstöðunum að transfólk á Íslandi er félagslega jaðarsettur hópur með lélega menntun og stöðu. Það eru ekki allir sem nýta sér þjónustu talmeinafræðings en hægt er að álykta að þjónustan við þessa einstaklinga yrði betri ef fleiri myndu nýta sér aðstoð talmeinafræðings. The use of high­density EEG to map out cortical motor activity and reorganization following lower­limb amputation Valur Guðnason1, Ásgeir Alexandersson2, Kyle Edmunds3, Kristleifur Kristjánsson2, Þorvaldur Ingvarsson1,2, Paolo Gargiulo3,4 1University of Iceland, 2Össur, 3Reykjavik University, 4The National University Hospital of Iceland Introduction: Studies have shown that after ampu­ tation, changes occur in the sensory and motor cortex. These changes are called cortical reorganization, where adjacent cortical areas occupy the cortical area of the amputated limb. High­density electro­ encephalography (EEG) has been used to observe cortical reorganization in the motor cortex following upper limb amputation. The aim of this study was to use high­density EEG to map out motor cortical activity and cortical reorganization following lower limb amputation. Materials and methods: One healthy and one left transfemoral amputee participated in the study. Using a 256­electrode, high­density EEG system, EEG signals were acquired while participants performed sets of motor tasks. The amputated participant was asked to try to voluntarily execute each movement for the missing limb, not simply imagine the movement. EMG data was acquired simultaneously. Participants walked on a treadmill for four minutes while EEG and EMG data was recorded. The EEG data was mapped onto structural MRI brain images and motor activity generated by each set of movement was localized in the motor cortex. Additionally, diffusion tensor imaging analysis of neural tracts was performed. Results: By mapping the cortical surface potential over time, cortical activity was observed in different parts of the brain, e.g. the visual cortex, prefrontal cortex and the motor cortex. For the amputated participant, motor representations for movement tasks were mapped out and showed additional cortical activity located more laterally than expected from somatotopic maps of the motor cortical homunculus. This additional cortical activity was not observed for the healthy participant. Conclusion: The results indicate that motor cortical activity and cortical reorganization following lower limb amputation can be observed using high­ density EEG. More measurements and data analysis is required, e.g. with the use of other processing software. The diffusion tensor images show neural tracts but further work is needed to evaluate whether white matter changes associated with the amputation can be observed. The method could be used to evaluate the effects of high­tech myoelectric prostheses with sensory feedback on cortical reorganization. It would also be interesting to further investigate the connection between cortical reorganization and phantom limb pain.

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