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the Sense of Reality. Oxford: Oxford University Press; 2008. 17. Stolorow R, Atwood GE. Contexts of being: The intersubjective foundations of psychological life. Hillsdale, NJ: The Analytic Press; 1992. 18. Stolorow R. Trauma and existence. New York: Francis and Taylor Publ; 2007. 19. Stone DA, Papadimitriou C. Exploring Heidegger’s Ecstatic Temporality in the Context of Embodied Breakdown. In: The Schutzian Yearbook, 2010. p. 135-152. 20. Tillich P. The courage to be. New Haven & London: Yale University Press; 1980. 21. Wertz FJ. Phenomenological Currents in

ABBREVIATIONS MRI - Magnetic resonance imaging MSCT - Multislice computed tomography PH - Patohistology TSA - Temporal superficial artery REFERENCES: 1. DeSanti L. Aneurysms of the temporal region. Arch Gen Med 1884; 154: 543–679. 2. Conner WC III, Rohrich RJ, Pollock RA. Traumatic aneurysms of the face and temple: a patient report and literature review, 1644 to 1998. Ann Plast Surg 1998; 41: 321–326. 3. Dominique van U, Maarten T, Ellis S, Clark Michel R. Superficial temporal artery aneurysm: Diagnosis and treatment options. Head & Neck 2013; 35: 608

Acrospiroma of the left temporal region

(1-2):23-33. 7. Devinsky O. Therapy for neurobehavioral disorders in epilepsy. Epilepsia. 2004;45 Suppl 2:34-40. 8. Guerreiro CA, Jones-Gotman M, Andermann F et al. Severe Amnesia in Epilepsy: Causes, Anatomopsychological Considerations, and Treatment. Epilepsy Behav. 2001 Jun;2(3):224-246. 9. Abrahams S, Morris RG, Polkey CE et al. Hippocampal involvement in spatial and working memory: a structural MRI analysis of patients with unilateral mesial temporal lobe sclerosis. Brain Cogn. 1999 Oct;41(1):39-65. 10. Helmstaedter C, Witt JA. Clinical neuropsychology in epilepsy

, Borghei Razavi H, Fereshtehnejad SM, Daneshi A. Transpetrosal approach: an anatomical study of temporal bone. Eur Arch Otorhinolaryngol. 2009;266(9):1373-1380. 11. Wysocki J, Skarzyñski H. Distances between the cochlea and adjacent structures related to cochlear implant surgery. Surg Radiol Anat. 1998;20(4):267-271. 12. Stjernholm C. Aspects of temporal bone anatomy and pathology in conjunction with cochlear implant surgery. Acta Radiol Suppl. 2003;430:2-15. 13. Atturo F, Barbara M, Rask-Andersen H. On the Anatomy of the ‘Hook’ Region of the Human Cochlea and How It

(6):485-9. 4. Lin HC, Lin SY, Lee HC, Hu CJ, Choy CS. Weekly pattern of stroke onset in an Asian country: a nationwide population-based study. Chronobiol Int. 2008; 25(5):788-99. 5. Kelly-Hayes M, Wolf PA, Kase CS, Brand FN, McGuirk JM, D’Agostino RB. Temporal patterns of stroke onset. The Framingham Study. Stroke. 1995 ; 26(8):1343-7. 6. Wang H, Sekine M, Chen X, Kagamimori S. A study of weekly and seasonal variation of stroke onset. Int J Biometeorol. 2002; 47(1):13-20. 7. Shigematsu K, Watanabe Y, Nakano H; Kyoto Stroke Registry Committee. Weekly variations of stroke

]. Statistic divisions. [Accessed 17 April 2016]. 10. OIE - World Organization for Animal Health [Internet]. World Animal Health Service. Database WAHIS. [Accessed April 17 2016]. 11. Kulldorff, M. (2015). SatScan user guide for version 9.4. Available from: 12. Robertson, C., Nelson, A.T., MacNab, Y.C., Lawson, A.B. (2010). Review of methods for spacetime disease surveillance. Spatio and Spatio-temporal epidemiology 1, 105-116. https

Introduction Game temporal characteristics have been widely studied in racket sports such as tennis, badminton, squash and table tennis, which can be good references for specific training prescription ( Cabello Manrique and González-Badillo, 2003 ; Fernandez-Fernandez et al., 2007 ; Kovacs, 2006 ; Lees, 2003 ; Zagatto et al., 2010 ). Although some studies have investigated temporal variables in high-level table tennis matches ( Drianovski and Otcheva, 2002 ; Katsikadelis et al., 2007 ; Katsikadelis et al., 2010 ; Zagatto et al., 2016 ), these studies

, Utter T, & Brückner S. Doppeltätigkeits-Übung zeitstrukturierter Finger-Bewegungsfolgen [Dual-task practice of temporally structured finger movement sequences]. Zeitschrift für Sportpsychologie, (in press) Charron S & Koechlin E. Divided representation of concurrent goals in the human frontal lobes. Science, 2010. 328: 360-363 Doyon J, Bellec P, Amsel R, Penhune, V., Monchi, O., Carrier, J., Lehéricy, S., & Benali, H. Contributions of the basal ganglia and functionally related brain structures to motor learning. Behav Brain Res, 2009. 199: 61-75 Heuer H. Motor

strategy along with short intervals of cyclic non-propulsive gaps, rather than gliding strategies. An earlier study conducted by Boulesteix et al. (2003) suggested that limb coordination with reduced temporal gaps of gliding between arms and legs propulsive actions enabled the swimmer to dedicate more time to execute propulsion in the butterfly cycle, which meant greater continuity in these actions. This work was aimed at: analysing the influence of selected body features (body height – BH, total body length – TBL, upper and lower extremities length, body mass – BM and