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BIBLIOGRAFIA - L’Attività Assistita con Animali nella Sindrome di Rett: terapia di supporto al potenziamento delle funzioni cognitive

  • [1] - B. Lindberg, Capire la sindrome di Rett – Una guida per genitori, educatori e terapisti, 2000.
  • [2] - B. A. Hagberg, «Rett Syndrome: Clinical Peculiarities, Diagnostic Approach, and Possible Cause,» Pediatric Neurology, vol. 5, n. 2, pp. 75-82, 1989.
  • [3] - H. Y. Zoghbi, «Rett Syndrome and the Ongoing Legacy of Close Clinical,» Benchmarks, pp. 293-297, 2016.
  • [4] - W. A. Gold, R. Krishnarajy, C. Ellaway e J. Chris, «Rett Syndrome: A Genetic Update and Clinical Review Focusing on Comorbidities,» ACS Chemical neuroscience, pp. 167-176, 2018.
  • [5] - Pini e et al., «Rett syndrome: a wide clinical and autonomic picture,» Orphanet Journal of Rare Diseases, vol. 11, p. 132, 2016.
  • [6] - Weaving e et al., «Mutations of CDKL5 Cause a Severe Neurodevelopmental Disorder with Infantile Spasms and Mental Retardation,» The American Journal of Human Genetics, vol. 75, n. 6, pp. 1075-1093, 2004.
  • [7] - Borg e et al., «Disruption of Netrin G1 by a balanced chromosome translocation in a girl with Rett syndrome,» European Journal of Human Genetics, vol. 13, pp. 921-927, 2005.
  • [8] - e. a. Archer, «NTNG1 Mutations Are a Rare Cause of Rett Syndrome,» American Journal of Medical Genetics, vol. 140, pp. 691-694, 2006.
  • [9] - F. Ariani e et al., «FOXG1 is Responsible for the Congenital Variant of Rett Syndrome,» The American Journal of Human Genetics, vol. 83, n. 1, pp. 89-93, 2008.
  • [10] - C. Cardoso e et al., «Periventricular heterotopia, mental retardation, and epilepsy associated with 5q14.3-q15 deletion,» Neurology, vol. 72, pp. 784-792, 2009.
  • [11] - H. Engels e et al., «A novel microdeletion syndrome involving 5q14.3-q15: clinical and molecular cytogenetic characterization of three patients,» European Journal of Human Genetics, vol. 1, pp. 1592-1599, 2009.
  • [12] - Le Meur e et al., «MEF2C haploinsufficiency caused by either microdelation of the 5q14.3 region or mutation is responsible for severe mental retardation with stereotypic movements, epilepsy and/or cerebral malformations,» Journal of Molecular Medicine, vol. 47, pp. 22-29, 2010.
  • [13] - B. Hagberg e O. Skjeldal, «Rett variants: a suggested model for inclusion criteria,» Pediatr. Neurol., vol. 11, pp. 5-11, 1994.
  • [14] - American Psychiatric Association, Diagnostic and statistical manual of mental disorders - fourth edition (DSM IV), Washington: APA, 1994.
  • [15] - American Psychiatric Association, Diagnostic and statistical manual of mental disorders - fifth edition (DSM V), Washington: APA, 2013.
  • [16] - B. Hagberg, «Rett syndrome. Swedish approach to analysis of prevalence and cause,» Brain Dev, vol. 7, pp. 276-80, 1985.
  • [17] - A. Kerr e J. Stephenson, «A study of the natural history of Rett syndrome in 23 girls,» Am J Med Gene, vol. 1, pp. 77-83, 1986.
  • [18] - H. Leonard, C. Bower e D. English, «The prevalence and incidence of Rett syndrome in Australia,» Eur Child Adolesc Psychiatry, vol. 6, n. 1, pp. 8-10, 1997.
  • [19] - H. Suzuki, Y. Hirayama e M. Arima, «Prevalence of Rett syndrome in Tokyo,» No To Hattatsu, vol. 21, pp. 430-3, 1989.
  • [20] - L. Burd, B. Vesley, J. Martsolf e J. Kerbeshian , «Prevalence study of Rett syndrome in North Dakota children,» Am J Med Genet, vol. 38, pp. 565-8, 1991.
  • [21] - T. Bienvenu, C. Philippe e N. De Roux, «The Incidence of Rett Syndrome in France,» Elsevier, pp. 272-275, 2006.
  • [22] - A. Naguy e B. Yahya, «Rett Syndrome Current Status and Future Directions,» Elsevier, 2017.
  • [23] - O. Spiga, S. Gardini, N. Rossi, V. Cicaloni, F. Pettini, N. Niccolai e A. Santucci, «Structural investigation of Rett-inducing,» Elsevier, pp. 31-34, 2018.
  • [24] - L. Parisi, T. Di Filippo e M. Roccella, «The quality of life in girls with Rett syndrome,» Mental Illness, vol. 8, n. 6302, pp. 5-6, 2016.
  • [25] - A. Antonietti, R. A. Fabio e C. Martinazzoli, «Costruzione e standardizzazione dello strumento RARS,» Strumenti diagnostici e di intervento, 2013.
  • [26] - K. Ellison, C. Fill , J. Terwilliger e et al., «Examination of X chromosome markers in Rett syndrome: exclusion mapping with a novel variation on multilocus linkage analysis,» Am J Hum Genet., vol. 50, n. 2, pp. 278-87, 1992.
  • [27] - N. Schanen, E. Dahle,, F. Capozzoli e et al., «A New Rett Syndrome Family Consistent with X-Linked Inheritance Expands the X Chromosome Exclusion Map,» Am. J. Hum. Genet., vol. 61, pp. 634-641, 1997.
  • [28] - R. Amir, I. Van den Veyver , M. Wan e et al., «Rett syndrome is caused by mutations in X-linked MECP2, encoding methyl-CpG-binding protein 2,» Nat Genet., vol. 23, n. 2, pp. 185-8, 1999.
  • [29] - N. Takagi, «The role of X-chromosome inactivation in the manifestation of Rett syndrome,» Brain & Development, vol. 23, pp. 182-185, 2001.
  • [30] - R. Amir, I. Van den Veyver, R. Schultz, D. Malicki, C. Tran e E. Dahle, «Influence of mutation type and X chromosome inactivation on Rett syndrome phenotypes,» Ann Neurol, vol. 47, pp. 670-679, 2000.
  • [31] - D. Gabellini , M. Green e R. Tupler, «When enough is enough: genetic diseases associated with transcriptional derepression.,» Curr. Opin. Genetic Dev., vol. 14, pp. 301-307, 2004.
  • [32] - E. Smeets, K. Pelc e B. Dan, «Rett Syndrome,» Molecular Syndromology, vol. 2, pp. 113-127, 2011.
  • [33] - F. F. Operto, R. Mazza, G. M. G. Pastorino, A. Verrotti e G. Coppola, «Epilepsy and genetic in Rett syndrome: A review,» Brain and Behavior, pp. 1-10, 2018.
  • [34] - R. Armani, H. Archer, A. Clarke e et al., «Transcription factor 4 and myocyte enhancer factor 2C mutations are not common causes of Rett syndrome,» Am. J. Med. Genet., vol. 158, pp. 713-719, 2012.
  • [35] - C. Philippe, D. Amsallem, C. Francannet e et al., «Phenotypic variability in Rett syndrome associated with FOXG1 mutations in females,» J. Med. Genet., vol. 47, pp. 59-65, 2010.
  • [36] - J. Neul, P. Fang, J. Barrish e et al., «Specific mutations in methyl-CpG-binding protein 2 confer different severity in Rett syndrome,» Neurology, vol. 70, pp. 1313-1321, 2008.
  • [37] - S. Kyle, N. Vashi e M. Justice , «Rett syndrome: A neurological disorder with metabolic components,» Open Biology,, vol. 8, 2018.
  • [38] - V. Cuddapah, R. Pillai e K. Shekar, «Methyl‐CpG‐binding protein 2 (MECP2) mutation type is associated with disease severity in Rett syndrome,» Journal of Medical Genetics, vol. 51, pp. 152-158, 2014.
  • [39] - F. Ehrhart, N. Sangani e L. Curfs, «Current developments in the genetics of Rett and Rett‐like syndrome,» Current Opinion in Psychiatry, vol. 31, n. 2, pp. 103-108, 2018.
  • [40] - R. Krishnaraj, G. Ho e J. Christodoulou, «RettBASE: Rett syndrome database update,» Hum. Mutat., vol. 38, p. 922, 2017.
  • [41] - J. Neul, J. Lane, H. Lee e et al., «., Geerts, S., Barrish, J. O., Annese, F., Baggett, L. M., Barnes, K., Skinner, S. A., Motil, K. J., Glaze, D. G., Kaufmann, W. E., and Percy, A. KDevelopmental delay in Rett syndrome: data from the natural history study,» 2014, vol. 20, p. 6, J. Neurodev. Disord..
  • [42] - S. Fehr, M. Wilson, J. Downs e et al., «The CDKL5 disorder is an independent clinical entity associated with early-onset encephalopathy,» Eur. J. Hum., vol. 21, pp. 266-273, 2013.
  • [43] - L. Jian, L. Nagarajan, N. de Klerk e et al., «Predictors of seizure onset in Rett syndrome,» J. Pediatr., vol. 149, pp. 542-547, 2006.
  • [44] - R. Mount, R. Hastings e S. Reilly, «ass, H., and Charman, T. (2001). Behavioural and emotional features in Rett syndrome,» Disabil. Rehabil., vol. 23, pp. 123-138, 2001.
  • [45] - B. Hagberg, «Rett syndrome: long-term clinical follow-up experiences over four decades,» J. Child Neurol., vol. 20, pp. 722-727, 2005.
  • [46] - M. Chahrour e H. Y. Zoghbi, «The Story of Rett Syndrome: From Clinic to Neurobiology,» Cellpress, pp. 422-437, 2007.
  • [47] - B. Hagberg, F. Hanefeld, A. Percy e O. Skjeldal, «An update on clinically applicable diagnostic criteria in Rett syndrome,» European Journal of Paediatric Neurology, vol. 6, pp. 293-297, 2002.
  • [48] - C. Einspieler e et al., «Is the early de‐ velopment of girls with Rett disorder really normal?,» Pediatric Research, vol. 57, pp. 696-700, 2005.
  • [49] - A. Percy e et al., «Rett syndrome diagnostic criteria: Lessons from the Natural History Study,» Annals of Neurology, vol. 68, pp. 951-955, 2010.
  • [50] - T. Gard, B. Hölzel e S. Lazar, «The potential effects of meditation on age-related cognitive decline: a systematic review,» Ann. NY Acad. Sci., 2014.
  • [51] - R. Parke e M. Gauvain, Child psychology: A contemporary viewpoint, Boston, MA: McGraw-Hill, 2009.
  • [52] - J. Capron, «Examen des fonctions cognitives en médecine interne,» Elsevier, pp. 818-824, 2015.
  • [53] - M. Denckla, «A theory and model of executive function: A neuropsychological perspective,» Attention, Memory and Executive Function, pp. 263-278, 1996.
  • [54] - J. Alvarez e E. Emory, «Executive function and the frontal lobes: a meta-analytic review,» Neuropsychol, vol. 16, n. 1, pp. 17-42, 2006.
  • [55] - B. A.D., Human Memory: Theory and Practice, London: Lawrence Erlbaum Associates, 1990.
  • [56] - A. Owen, «The functional organization of working memory processes within human lateral frontal cortex: The contribution of functional neuroimaging,» Eur J Neurosci, pp. 1329-1339, 1997.
  • [57] - A. Baddeley, Working Memory, Oxford: Clarendon Press, 1986.
  • [58] - N. D.A. e T. Shallice, «Attention to action: Willed and automatic control of behavior,» in Consciousness and Self-Regulation, New York, Plenum Press, 1986.
  • [59] - T. Shallice, From Neuropsychology to Mental Structure,, Cambridge UK: Cambridge University Press, 1988.
  • [60] - «Multiple levels of control processes,» in Attention and Performance, Cambridge MA, MIT Press, 1994.
  • [61] - G. Vallar, «Introduzione alla neuropsicologia,» in Manuale di neuropsicologia, Bologna, Il Mulino, 2007, pp. 9-20.
  • [62] - E. Goldberg, The Executive Brain: Frontal Lobes and the Civilized Mind, New York: Oxford University Press, 2001.
  • [63] - D. Stuss e B. Levine, «Adult clinical neuropsychology: Lessons from studies of the frontal lobes,» Annu Rev Psychol, vol. 53, pp. 401-433, 2002.
  • [64] - P. Zelazo e U. Muller, «The balance beam in the balance: reflections on rules,relational complexity, and developmental processes,» J Exp Child Psychol, vol. 81, n. 4, pp. 458-465, 2002.
  • [65] - P. Varvara, «Le funzioni esecutive: modelli neuropsicologici di riferimento,» in FUNZIONI ESECUTIVE NEI DSA, Trento, Centro Studi Erickson S.p.A., 2013, pp. 29-32.
  • [66] - R. Morris, J. Downes, B. Sahakian, J. Evenden, A. Heald e T. Robbins, «Planning and spatial working memory in Parkinson’s disease,» J NeurolNeurosurg Psychiatry, vol. 51, pp. 757-766, 1988.
  • [67] - J. Unterrainer, B. Rahm, U. Halsband e C. Kaller, «What is in a name: Comparing the Tower of London with one of its variants,» Cognitive Brain Research, vol. 23, pp. 418-428, 2005.
  • [68] - W. Gardner e B. Rogoff, «Children’s deliberateness of planning according to task circumstances,» Developmental Psychology, vol. 26, n. 3, pp. 480-487, 1990.
  • [69] - P. Albiero e G. Di Stefano, «Strategie di pianificazione nella risoluzione di un test di labirinti in versione computerizzata. Uno studio evolutivo,» Giornale Italiano di Psicologia, vol. 37, n. 2, pp. 325-345, 2000.
  • [70] - P. De Rose, «La pianificazione,» in FUNZIONI ESECUTIVE NEI DSA, Trento, Centro Studi Erickson S.p.A., 2013, pp. 63-76.
  • [71] - M. Bear, B. Connors e M. Paradiso, Neuroscience: Exploring the Brain, USA: Lippincott Williams & Wilkins, 2007.
  • [72] - R. Sternberg, G. Forsythe, J. Hedlund, J. Horvath, S. Snook, W. Williams, R. Wagner e E. Grigorenko, Practical intelligence in everyday life, New York: Cambridge University Press, 2000.
  • [73] - S. Rossi, «Lo shifting,» in FUNZIONI ESECUTIVE NEI DSA, Trento, Centro Studi Erickson S.p.A., 2013, pp. 89-96.
  • [74] - C. Varuzza, «L'inibizione,» in FUNZIONI ESECUTIVE NEI DSA, Trento, Centro Studi Erickson S.p.A., 2013, pp. 97-106.
  • [75] - S. Tipper, «Does negative priming reflect inhibitory mechanisms? A review and integration of conflicting views,» Quarterly Journal of Experimental Psychology, vol. 2, pp. 321-343, 2001.
  • [76] - F. Dempster e C. Brainerd, Interference and inhibition in cognition., San Diego CA: Academy Press, 1995.
  • [77] - A. Sanders, «Towards a model of stress and human performance,» Acta Psychologica, vol. 53, pp. 61-97, 1983.
  • [78] - J. Nigg, «On inhibition/disinhibition in developmental psychopathology: Views from cognitive and personality psychology and a working inhibition taxonomy,» Psychological Bulletin, vol. 126, pp. 220-246, 2000.
  • [79] - A. Ayres, Sensory Integration and Learning Disorders, Los Angeles: Western Psychological Services, 1972.
  • [80] - M. Edelson, Language and Interpretation in Psychoanalysis, New Heaven: Yale University Press, 1975.
  • [81] - G. Makari e T. Shapiro, «On psychoanalytic listening: Language and uncoscious communication,» Journal of the American Psychoanalytic Association, vol. 41, pp. 991-1020, 1993.
  • [82] - T. Bryan e J. Bryan, Understanding Learning Disabilities, Palo Alto CA: Mayfield, 1986.
  • [83] - G. Edelman, «The wordless metaphor: Visual art and the brain,» in KERTESS, New York, Harry N. Abrams Publishing, 1995, pp. 33-47.
  • [84] - C. Harnadek e B. Rourke, «Principal Identifying features of the syndrome of non verbal learning disabilities in children,» Journal of Learning Disabilities, vol. 27, pp. 144-154, 1994.
  • [85] - W. James, Principi di Psicologia, 1890.
  • [86] - R. Barkley, «Critical issues in research of attention,» in Attention, Memory, and Executive Function, Baltimore, Brookes Publishing, 1996, pp. 45-56.
  • [87] - A. Canzoniere, «L'attenzione,» in FUNZIONI ESECUTIVE NEI DSA, Trento, Centro Studi Erickson S.p.A., 2013, pp. 37-48.
  • [88] - D. Broadbent, Perception and communication, Oxford: Pergamon, 1958.
  • [89] - J. Deutsch e D. Deutsch, «Attention: Some theoretical considerations,» Psychol Rev, vol. 70, pp. 20-90, 1963.
  • [90] - D. Kahneman, Attention and effort Prendice-Hall., Englewood Cliff NJ: Prentice Hall, 1973.
  • [91] - E. Cherry, «Some experiments on the recognition of speech with one and two ears,» J AcoustSoc Am, vol. 25, pp. 975-979, 1953.
  • [92] - M. Esterman e D. Rothlein, «Models of sustained attention,» Current Opinion in Psychology, vol. 29, pp. 174-180, 2019.
  • [93] - R. Atkinson e R. Shiffrin, «The control of short-term memory,» Scientific American, vol. 225, pp. 82-90, 1971.
  • [94] - L. Squire, Memory and brain, New York: Oxford University Press, 1987.
  • [95] - A. Baddeley e G. Hitch, «Working memory,» The psychology of learning and motivation: Advances in research and theory, vol. 8, pp. 47-89, 1974.
  • [96] - V. Provitali, «La memoria a breve termine e la memoria di lavoro,» in FUNZIONI ESECUTIVE NEI DSA, Trento, Centro Studi Erickson S.p.A., 2013, pp. 51-60.
  • [97] - A. Baddeley e B. Wilson, «Prose recall and amnesia: implications for the structure of working memory,» Neuropsychologia, pp. 1737-1743, 2002.
  • [98] - G. Repovs e A. Baddeley, «Multi-component model of working memory: Explorations in experimental cognitive psychology,» Neuroscience Special Issue, pp. 139-145, 2006.
  • [99] - S. E. Petersen e O. Sporns, «Brain Networks and Cognitive Architectures,» Neuron, pp. 207-219, 2016.
  • [100] - P. Churchland e T. Sejnowski, The Computational Brain, Cambridge: MIT Press, 1992.
  • [101] - O. Sporns, «Contributions and challenges for network models in cognitive neuroscience,» Nat Neurosci, vol. 17, pp. 652-660, 2014.
  • [102] - T. Sejnowski e P. Churchland, «Brain and Cognition,» in Foundations of Cognitive Science, Cambridge, MIT Press, 1989, p. 888.
  • [103] - M. Sherie, H. Balázs, C. S. L. Christopher, W. Wisden e A. L. Gundlach, «Dual-transmitter systems regulating arousal, attention, learning and memory,» Neurosci Biobehav, vol. 85, pp. 21-33, 2019.
  • [104] - M. Nusbaum, D. Blitz, A. Swensen, D. Wood e E. Marder, «The roles of co-transmission in neural network modulation,» Trends Neurosci, vol. 24, pp. 146-154, 2001.
  • [105] - V. Cestari, «Basi Biologiche del comportamento,» in Manuale di psicologia generale, Roma, Edizioni Borla s.r.l., 1997, pp. 153-190.
  • [106] - E. Kandel e J. Schwartz, Principles of neural sciences, New York: Elsevier Publishing Company, 1991.
  • [107] - L. Zaborszky, A. Pol e E. Gyengesi, «The Basal Forebrain Cholinergic Projection System in Mice,» in The mouse nervous system, Amsterdam, Elsevier, 2012, pp. 684-718.
  • [108] - A. Saunders , I. Oldenburg e V. Berezovskii, «A direct GABAergic output from the basal ganglia to frontal cortex,» Nature, vol. 521, pp. 85-89, 2015.
  • [109] - B. Hangya, S. Ranade, M. Lorenc e A. Kepecs, «Central cholinergic neurons are rapidly recruited by reinforcement feedback,» Cell, vol. 162, pp. 1155-1168, 2015.
  • [110] - G. Loffler e G. E. Gordon, «Cognitive function in Rett syndrome: Profoundly impaired or near normal?,» Official Journal of the European Paediatric Neurology Society, vol. 22, pp. 2-3, 2018.
  • [111] - S. A. Rose, A. Djukic, J. J. Jankowski, J. F. Feldman e M. Rimler, «Aspects of Attention in Rett Syndrome,» Pediatric Neurology, vol. 57, pp. 22-28, 2016.
  • [112] - A. Djukic e M. McDermott, «Social preferences in Rett syndrome,» Pediatric Neurology, vol. 46, n. 4, pp. 240-242, 2012.
  • [113] - A.-A. Jaana, O. Polack, E. Saraf, J. Winede, T. Silberg, A. Nissenkornag e B. Ben-Zeev, «Assessing cognitive functioning in females with Rett syndrome by eye-tracking methodology,» European Journal of Paediatric Neurology, vol. 1, pp. 39-45, 2018.
  • [114] - S. Rose, J. Feldman e J. Jankowski, «Attention and Memory in the 1st Year of Life: A Longitudinal Study of Preterm and Full-term Infants,» Developmental Psychology, vol. 37, pp. 139-40, 2001.
  • [115] - S. Rose, J. Feldman e J. Jankowski, «Information processing in toddlers: continuity from infancy and persistence of preterm deficits,» Intelligence, vol. 37, pp. 311-20, 2009.
  • [116] - S. A. Rose, A. Djukic, J. J. Jankowski, J. Feldman, I. Fishman e M. Valicenti-Mcdermott, «Rett syndrome: an eye-tracking study of attention and recognition memory,» Developmental medicine & child neurology, 2013.
  • [117] - S. Rose, S. Rose, J. Feldman, J. Jankowski e R. Van Rossem, «Basic information processing abilities at 11 years account for deficits in IQ associated with preterm birth,» Intelligence, vol. 39, pp. 198-209, 2011.
  • [118] - A. Klin, W. Jones, R. Schultz, F. Volkmar e D. Cohen, «Visual fixation patterns during viewing of naturalistic social situations as predictors of social competence in individuals with autism,» Arch Gen Psychiatry, vol. 59, pp. 809-16, 2002.
  • [119] - F. Cirulli e E. Alleva, «Terapie e attività assistite con gli animali: analisi della situazione italiana e proposta di linee guida,» Roma: Istituto Superiore di Sanità, Rapporti ISTISAN 07/35, 2007.
  • [120] - F. Cirulli, Animali terapeuti: Manuale introduttivo agli Interventi Assistiti con gli Animali, Roma: Carocci Editore, 2013.
  • [121] - F. Cirulli, N. Francia e E. Alleva, «Terapie e attività assistite con gli animali in Italia. Attualità, prospettive e proposte di linee guida,» Roma: Istituto Superiore di Sanità, Rapporti ISTISAN 10/4, 2010.
  • [122] - B. Fiksdal e et al., «DAT: claims versus evidences.,» Autism Research and Treatment, 2012.
  • [123] - D. Nathanson e et al., «Using Atlantic bottlenose dolphins to increase cognition of mentally retarded children,» in Clinical and Abnormal Psychology, Lovibond P, Wilson P, editors, 1989, pp. 223-242.
  • [124] - B. Smith e et al., «The autistic person experiences Atlantic bottlenose dolphins as therapy,» Natl. Acqua. J., vol. 4, n. 1, pp. 5-7, 1988.
  • [125] - D. Nathanson e et al., «Effectiveness of short-term DAT for children with severe disabilities,» Anthrozoos, vol. 100, n. 2-3, pp. 90-100, 1997.
  • [126] - A. McKinney e et al., «The promise of dolphin assisted therapy,» Parks Recreation, vol. 36, n. 5, pp. 46-51, 2001.
  • [127] - D. Nathanson e et al., «Long-term effectiveness of DAT for children with severe disabilities,» Anthrozoos, vol. 11, n. 1, p. 22, 1998.
  • [128] - C. Antonioli e et al., «Randomized controlled trial of animal facilitated therapy with dolphins in the treatment of depression,» British Medical Journal, vol. 331, n. 7527, pp. 1231-34, 2005.
  • [129] - L. Lukina, «The effect of DAT sessions on the functional status of children with psychoneurological disease symptoms,» Fiziologia Cheloveka, vol. 25, n. 6, pp. 56-60, 1999.
  • [130] - V. Servais, «Some comments on context embodiment in zootherapy: the case of Autidolfijn project,» Anthrozoos,, vol. 12, n. 1, pp. 5-15, 1999.
  • [131] - Y. Tufail e et al., «Transcranial pulsed ultrasound stimulates intact brain circuits,» Neuron, vol. 66, pp. 681-684, 2010.
  • [132] - T. Vlak, «Comparative study of the efficacy of ultrasound and sonophoresis in the treatment of painful shouder syndrome,» Reumatizam, vol. 46, n. 1, pp. 5-11, 1999.
  • [133] - M. Morrison, «Health benefits of animal-assisted interventions,» Complementary Health Practice Review, vol. 12, pp. 51-62, 2007.
  • [134] - Marino e et al., «DAT for autism and other developmental disorders: a dangerous fad,» American Psychological Association, vol. 33, pp. 2-3, 2007.
  • [135] - J. Chess, Stories and Adventures for Zoe. A booklet made by the Chess family for Zoe’s bat-mitzva., 1997.
  • [136] - C. Newman e K. Newman, «Amy Swims with Dolphins,» Rett News, p. 17, 2004.
  • [137] - T. Milne, «Dolphins Helped My Child,» BBC News Online Staff, 2003.
  • [138] - M. Lotan, «Alternative therapeutic intervention for individuals with Rett syndrome,» TheScientificWorldJOURNAL: TSW Child Health & Human Development, vol. 7, pp. 698-714, 2007.
  • [139] - Munoz e et al., «Animal-assisted interventions in internal and rehabilitation medicine: a review of recent literature,» Panminevra medicine, vol. 53, pp. 129-136, 2011.
  • [140] - Ministero dell'ambiente e della salute del territ., DECRETO 20 dicembre 2017, Gazzetta ufficiale della Repubblica Italiana, 2017.
  • [141] - R. Fabio, C. Martinazzoli e A. Antonietti, «Costruzione e standardizzazione dello strumento RARS (Rett assessment Rating Scale),» Ciclo Evolutivo e Disabilità, vol. 8, n. 257-281, 2005.
  • [142] - D. Russell e et al., «The Gross Motor Function Measure (GMFM),» Dev. Med. Child Neurol., vol. 31, pp. 341-352, 1989.
  • [143] - O. Brunet e I. Lézine, SCALA DI SVILUPPO PSICOMOTORIO DELLA PRIMA INFANZIA, Firenze: Organizzazioni Speciali, 1991.
  • [144] - D. Cicchetti, S. Sparrow e D. Balla, Vineland Adatptive Behavior Scale, Circle Pines, Minnesota: A.G.S., 1984.

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