Skip to main content Accessibility help
×
Hostname: page-component-cd9895bd7-gxg78 Total loading time: 0 Render date: 2024-12-23T19:33:23.807Z Has data issue: false hasContentIssue false

References

Published online by Cambridge University Press:  31 March 2022

Laura L. Hill
Affiliation:
Ohio State University
Stephanie Knatz Peck
Affiliation:
University of California, San Diego
Christina E. Wierenga
Affiliation:
University of California, San Diego
Get access

Summary

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Chapter
Information
Publisher: Cambridge University Press
Print publication year: 2022

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Birmingham, C, Su, J, Hlynsky, J, et al. The mortality rate from anorexia nervosa. Int J Eat Disord. 2005;38:143–6.Google Scholar
Crow, S, Petersen, C, Swanson, S, et al. Increased mortality in bulimia nervosa and other eating disorders. Am J Psychiatr. 2009;166:1342–6.Google Scholar
Foerde, K, Steinglass, J. Decreased feedback learning in anorexia nervosa persists after weight restoration. Int J Eat Disord. 2017;50(4):415–23.Google Scholar
Udo, T, Bitley, S, Grilo, C. Suicide attempts in US adults with lifetime DSM-5 eating disorders. BMC Med. 2019;17(1):120.CrossRefGoogle ScholarPubMed
American Psychiatric Association. DSM-5 Development. www.dsm5.org/ProposedRevision/Pages/proposedrevision.aspx?rid=26; 2012.Google Scholar
Bulik, C, Blake, L, Austin, J. Genetics of eating disorders: What the clinician needs to know. Psychiatr Clin North Am. 2019;42(1):5973.CrossRefGoogle ScholarPubMed
Zeeck, A, Herpertz-Dahlmann, B, Friederich, H, et al. Psychotherapeutic treatment for anorexia nervosa: A systematic review and network meta-analysis. Front Psychiatr. 2018;9(158):114.Google Scholar
Hill, L. Can Your Brain Cure Anorexia? A Brain-Based Approach to Eating Disorder Treatment Eating Disorders Catalogue. Carlsbad, CA: Gürze Books Publishing 2017.Google Scholar
Knatz Peck, S., Towne, T., Wierenga, C. E., Hill, L., Eisler, I., Brown, T., Han, E., Miller, M., Perry, T., & Kaye, W. (2021). Temperament-based treatment for young adults with eating disorders: acceptability and initial efficacy of an intensive, multifamily, parent-involved treatment. Journal of eating disorders, 9(1), 110. https://doi.org/10.1186/s40337-021-00465-xGoogle Scholar
Rothbart, M. Advances in temperament, history, concepts and measures. In Zentner, M, Shiner, RL (Eds.), Handbook of Temperament (p. 3). New York: Guilford Press; 2012.Google Scholar
Mervilde, I, De Pauw, S. Models of child temperament. In Zentner, M, Shiner, RL (Eds.), Handbook of Temperament (pp. 2140). New York: Guilford Press; 2012.Google Scholar
Aron, E. Temperament in psychotherapy: Reflections on clinical practice with the trait of sensitivity. In Zentner, M, Shiner, RL (Eds.), Handbook of Temperament (pp. 645670). New York: Guilford Press; 2012.Google Scholar
Cole, C. Infant temperament predicts personality more than 20 years later. Neuroscience News; 2020.Google Scholar
Mitchell, K. Innate. Princeton, NJ: Princeton University Press; 2018.Google Scholar
Whittle, S, Allen, N, Lubman, D, et al. The neurobiological basis of temperament: Towards a better understanding of psychopathology. Neurosci Biobehav Rev. 2006;30(4):511–25.Google Scholar
Whittle, S, Yucel, M, Fornito, A, et al. Neuroanatomical correlates of temperament in early adolescents. J Am Acad Child Adolesc Psychiatr. 2008;47(6):682–93.Google Scholar
Yucel, M, Harrison, BJ, Wood, S, et al. State, trait and biochemical influences on human anterior cingulate function. Neuroimage. 2007;34(4):1766–73.Google Scholar
Hettema, J, Bourdon, J, Sawyers, C, et al. Genetic and environmental risk structure of internalizing psychopathology in youth. Depress Anxiety. 2020;37(6):540–8.CrossRefGoogle ScholarPubMed
Tang, A, Crawford, H, Morales, S, et al. Infant behavioral inhibition predicts personality and social outcomes three decades later. Proc Natl Acad Sci USA. 2020;117(18):9800–7.Google Scholar
Kaye, W, Bailer, U. Understanding the neural circuitry of appetitive regulation in eating disorders. Biol Psych. 2011;70(8):704–5.Google ScholarPubMed
Kaye, W, Wierenga, C, Bailer, U, et al. Nothing tastes as good as skinny feels: The neurobiology of anorexia nervosa. Trends Neurosci. 2013;36(2):110–20.CrossRefGoogle ScholarPubMed
Kendler, KS, MacLean, C, Neale, M, et al. The genetic epidemiology of bulimia nervosa. Am J Psychiatr. 1991;148(12):1627–37.Google ScholarPubMed
Walters, EE, Kendler, KS. Anorexia nervosa and anorexic-like syndromes in a population-based female twin sample. Am J Psychiatr. 1995;152(1):6471.Google Scholar
Lilenfeld, L, Kaye, W. Genetic studies of anorexia and bulimia nervosa. In Hoek, HW, Treasure, JL, Katzman, MA (Eds.), Neurobiology in the Treatment of Eating Disorders (pp. 169194). Hoboken, NJ: John Wiley; 1998.Google Scholar
Strober, M, Freeman, R, Lampert, C, et al. Controlled family study of anorexia nervosa and bulimia nervosa: Evidence of shared liability and transmission of partial syndromes. Am J Psychiatr. 2000;157(3):393401.Google Scholar
Treasure, J, Campbell, I. The case for biology in the aetiology of anorexia nervosa. Psychol Med. 1994;24(1):38.Google Scholar
Berrettini, W. Genetics of psychiatric disease. Annu Rev Med. 2000;51:465–79.Google Scholar
Bulik, C, Sullivan, PF, Tozzi, F, et al. Prevalence, heritability and prospective risk factors for anorexia nervosa. Arch Gen Psychiatr. 2006;63(3):305–12.Google Scholar
Steinglass, JE, Walsh, T. Psychopharmacology of anorexia nervosa, bulimia nervosa, and binge eating disorder. In Brewerton, TD (Ed.), Clinical Handbook of Eating Disorders: An Integrated Approach (pp. 489508). New York: Marcel Dekker; 2004.Google Scholar
Anderluh, MB, Tchanturia, K, Rabe-Hesketh, S, et al. Childhood obsessive-compulsive personality traits in adult women with eating disorders: Defining a broader eating disorder phenotype. Am J Psychiatr. 2003;160(2):242–7.Google Scholar
Stice, E. Risk and maintenance factors for eating pathology: A meta-analytic review. Pychopharmacol Bull. 2002;128:825–48.Google Scholar
Lilenfeld, L, Wonderlich, S, Riso, LP, et al. Eating disorders and personality: A methodological and empirical review. Clin Psychol Rev. 2006;26(3):299320.Google Scholar
Bulik, C, Breen, G. Solving the eating disorders puzzle piece by piece. Biol Psychiatr. 2017;81(9):730–1.Google Scholar
Wadden, T, Sternberg, J, Letizia, K, et al. Treatment of obesity by very low calorie diet, behavior therapy, and their combination: A five-year perspective. Int J Obes. 1989;30(Suppl 2):3946.Google Scholar
Kaye, W, Fudge, J, Paulus, M. New insights into symptoms and neurocircuit function of anorexia nervosa. Nat Rev Neurosci. 2009;10(8):573–84.Google Scholar
Kaye, W, Wierenga, C, Bailer, U, et al. Does a shared neurobiology for foods and drugs of abuse contribute to extremes of food ingestion in anorexia and bulimia nervosa? Biol Psychiatr. 2013;73(9):836–42.Google Scholar
Kaye, W, Bulik, C, Thornton, L, et al. Comorbidity of anxiety disorders with anorexia and bulimia nervosa. Am J Psychiatr. 2004;161(12):2215–21.Google Scholar
Cassin, S, von Ranson, K. Personality and eating disorders: A decade in review. Clin Psycho Rev. 2005;25(7):895916.CrossRefGoogle ScholarPubMed
Wagner, A, Barbarich, N, Frank, G, et al. Personality traits after recovery from eating disorders: Do subtypes differ? Int J Eat Disord. 2006;39(4):276–84.Google Scholar
Lilenfeld, L. Personality and temperament. Curr Top Behav Neurosci. 2011;6:39.Google Scholar
Fassino, S, Piero, A, Gramaglia, C, et al. Clinical, psychopathological and personality correlates of interoceptive awareness in anorexia nervosa, bulimia nervosa and obesity. Psychopathology. 2004;37(4):168–74.Google Scholar
Harrison, A, O’Brien, N, Lopez, C, et al. Sensitivity to reward and punishment in eating disorders. Psy Res. 2010;177(1–2):111.Google Scholar
Berner, L, Crosby, RD, Cao, L, et al. Temporal associations between affective instability and dysregulated eating behavior in bulimia nervosa. J Psychiatr Res. 2017;92:183–90.Google Scholar
DeGuzman, M, Shott, M, Yang, T, et al. Association of elevated reward prediction error response with weight gain in adolescent anorexia nervosa. Am J Psychiatr. 2017;174(6):557–65.Google Scholar
Kerr, K, Moseman, S, Avery, J, et al. Altered insula activity during visceral interoception in weight-restored patients with anorexia nervosa Neuropsychopharmacology. 2016;41(2):521–8.Google Scholar
Oberndorfer, T, Frank, G, Fudge, J, et al. Altered insula response to sweet taste processing after recovery from anorexia and bulimia nervosa. Am J Psychiatr. 2013;214(2):132–41.Google Scholar
Wierenga, C, Bischoff-Grethe, A, Melrose, A, et al. Hunger does not motivate reward in women remitted from anorexia nervosa. Biol Psychiatr. 2015;77(7):642–52.Google Scholar
Atiye, M, Miettunen, J, Raevuori-Helkamaa, A. A meta-analysis of temperament in eating disorders. Eur Eat Disord Rev. 2015;23(2):8999.Google Scholar
Steiger, H, Booij, L. Eating disorders, heredity and environmental activation: Getting epigenetic concepts into practice. J Clin Med. 2020;9(5):E1332.CrossRefGoogle ScholarPubMed
Hebb, D. The Organization of Behavior. New York: McGraw-Hill; 1949.Google Scholar
Kolb, B. Brain Plasticity and Recovery of Function in Adulthood. Mahwah, NJ: Lawrence Erlbaum Associates; 1995.Google Scholar
Abramowitz, J, Foa, E, Franklin, M. Exposure and ritual prevention for obsessive-compulsive disorder: Effects of intensive versus twice-weekly sessions. J Consult Clin Psychol. 2003;71(2):394–8.CrossRefGoogle ScholarPubMed
Deacon, B, Abramowitz, J. A pilot study of two-day cognitive-behavioral therapy for panic disorder. Behav Res Ther. 2006;44(6):807–17.Google Scholar
Gallo, K, Chan, P, Buzzell, B, et al. The impact of an eight-day intensive treatment for adolescent panic disorder and agoraphobia on comorbid diagnosis. Behav Ther. 2012;43:153–9.CrossRefGoogle Scholar
Ollendick, T, Ost, L, Reyuterskiold, L, et al. One-session treatment of specific phobias in youth: A randomized clinical trial in the United States and Sweden. J Consult Clin Psychol. 2009;77:504–16.Google Scholar
Santucci, L, Ehrenreich, J, Trosper, S, et al. Development and preliminary evaluation of a one-week summer treatment program for separation anxiety disorder. Cogn Behav Pract. 2009;16:317–31.Google Scholar
Schmidt, R, Bjork, R. New conceptualizations of practice: Common principles in three paradigms suggest new concepts for training. Psychol Sci. 1992;3(4):207–17.Google Scholar
Storch, E, Geffken, G, Merlo, L, et al. Family-based cognitive-behavioral therapy for pediatric obsessive-compulsive disorder: Comparison of intensive and weekly approaches. J Am Acad Child Adolesc Psychiatr. 2007;26:469–78.Google Scholar
Whiteside, S, Jacobsen, A. An uncontrolled examination of a 5-day intensive treatment for pediatric OCD. Behav Ther. 2010;41:414–22.Google Scholar
Fernandez, M, Storch, E, Lewin, A, et al. The principles of extinction and differential reinforcement of other behaviors in the intensive cognitive-behavioral treatment of primarily obsessional pediatric OCD. Clin Case Stud. 2006;12:511–21.Google Scholar
Storch, E, Merlo, L, Lehmkuhl, L, et al. Cognitive-behavioral therapy for obsessive-compulsive disorder: A non-randomized comparison of intensive and weekly approaches. J Anxiety Disord. 2008;22(7):1146–58.Google Scholar
Doyle, P, Le Grange, D, Loeb, K, et al. Early response to family-based treatment for adolescent anorexia nervosa. Int J Eat Disord. 2010;43(7):659–62.CrossRefGoogle ScholarPubMed
Bulik, CM, Devlin, B, Bacanu, SA, et al. Significant linkage on chromosome 10p in families with bulimia nervosa. Am J Hum Genet. 2003;72(1):200–7.Google Scholar
Bulik, CM, Sullivan, PF, Kendler, KS. Heritability of binge-eating and broadly defined bulimia nervosa. Biol Psychiatr. 1998;44(12):1210–8.Google Scholar
Duncan, L, Yilma, Z, Gaspar, H, et al. Significant locus and metabolic genetic correlations revealed in genome wide association study of anorexia nervosa. Am J Psychiatr. 2017;174(9):850–8.Google Scholar
Hinney, A, Kesselmeier, M, Jall, S, et al. Evidence for three genetic loci involved in both anorexia nervosa risk and variation of body mass index. Mol Psychiatr. 2017;22(2):321–2.Google Scholar
Lock, J, Le Grange, D. Can family-based treatment of anorexia nervosa be manualized? J Psychother Pract Res. 2001;10(4):253–61.Google Scholar
Lock, J, le Grange, D. Family-based treatment of eating disorders. Int J Eat Disord. 2005;37(Suppl):S64–S7.Google Scholar
Loeb, K, Le Grange, D. Family-based treatment for adolescent eating disorders: Current status, new applications and future directions. Int J Child Adolesc Health. 2009;2(2):243–54.Google Scholar
Strelau, J, Zawadzki, B. Activity as a temperament trait. In Zentner, M & Shiner, RL (Eds.), Handbook of Temperament (pp. 83104). New York: Guilford Press; 2012.Google Scholar
Eisler, I, Simic, M, Hodsoll, J, et al. A pragmatic randomised multi-centre trial of multifamily and single family therapy for adolescent anorexia nervosa. BMC Psychiatr. 2016;16(1):422.Google Scholar
Dare, C, Eisler, I, Russell, G, et al. Psychological therapies for adults with anorexia nervosa: Randomised controlled trial of out-patient treatments. Br J Psychiatr. 2001;178:216–21.Google Scholar
Lemmens, G, Eisler, I, Buysse, A, et al. The effects on mood of adjunctive single family and multi-family group therapy in the treatment of hospitalised patients with major depression: An RCT and 15 months follow-up study. Psychother Psychosom. 2009;78:98105.Google Scholar
McFarlane, W. Family interventions for schizophrenia and the psychoses: A review. Fam Process. 2016;55(3):460–82.Google Scholar
Miller, I, Solomon, CE, Keitner, G. Does adjunctive family therapy enhance recovery from bipolar I mood episodes? J Affect Disord. 2004;82(3):431–6.Google Scholar
Dimitropoulos, G, Farquhar, J, Freeman, V, et al. Pilot study comparing multi-family therapy to single family therapy for adults with anorexia nervosa in an intensive eating disorder program. Eur Eat Disord Rev. 2015;23(4):294303.CrossRefGoogle Scholar
Tantillo, M. A relational approach to eating disorders multifamily therapy group: Moving from difference and disconnection to mutual connection. Families Syst Health. 2006;24(1):82102.Google Scholar
Kaye, W, Wierenga, C, Knatz, S, et al. Temperament-based treatment for anorexia nervosa. Eur Eat Disord Rev. 2015;23(1):1218.Google Scholar
Hill, L, Peck, S, Wierenga, C, et al. Applying neurobiology to the treatment of adults with anorexia nervosa. J Eat Disord. 2016;4:31.Google Scholar
Crisafulli, M, Von Holle, A, Bulik, C. Attitudes towards anorexia nervosa: The impact of framing on blame and stigma. Int J Eat Disord. 2008;41(4):333–9.Google Scholar
Wiesjahn, M, Jung, E, Kremser, J, et al. The potential of continuum versus biogenetic beliefs in reducing stigmatization against persons with schizophrenia: An experimental study. J Behav Ther Exp Psychiatr. 2016;50:231–7.Google Scholar
Hodé, Y. Psychoéducation des patients et de leurs proches dans les épisodes psychotiques [Psychoeducation of patients and their family members during episode psychosis]. Encephale. 2013;39(Suppl 2):S110–S4.Google Scholar
Farrell, N, Lee, A, Deacon, B. Biological or psychological? Effects of eating disorder psychoeducation on self-blame and recovery expectations among symptomatic individuals. Behav Res Ther. 2015;74:32–7.Google Scholar
Lebowitz, M, Ahn, W. Emphasizing malleability in the biology of depression: Durable effects on perceived agency and prognostic pessimism. Behav Res Ther. 2015;7:125–30.Google Scholar
Han, D, Chen, S. Reducing the stigma of depression through neurobiology-based psychoeducation: A randomized controlled trial. Psychiatr Clin Neurosci. 2014;68(9):666–73.Google Scholar
Lebowitz, MS, Pyun, JJ, Ahn, W-K. Biological explanations of generalized anxiety disorder: effects on beliefs about prognosis and responsibility. Psychiatr Serv. 2014;65(4):498503.Google Scholar
Lebowitz, M, Ahn, W, Nolen-Hoeksema, S. Fixable or fate? Perceptions of the biology of depression. J Consult Clin Psychol. 2013;81(3):518–27.Google Scholar
Zimmermann, M, Papa, A. Causal explanations of depression and treatment credibility in adults with untreated depression: Examining attribution theory. Psychol Psychother. 2020;93(3):537–54.Google Scholar
Lilenfeld, LR, Kaye, WH, Greeno, CG, et al. A controlled family study of anorexia nervosa and bulimia nervosa: Psychiatric disorders in first-degree relatives and effects of proband comorbidity. Arch Gen Psychiatr. 1998;55(7):603–10.Google Scholar
Bulik, C, Slof-Op’t Landt, M, van Furth, E, et al. The genetics of anorexia nervosa. Ann Rev Nutr. 2007;27:263–75.Google Scholar
Watson, H, Yilmaz, Z, Thornton, LH, et al. Genome-wide association study identifies eight risk loci and implicates metabo-psychiatric origins for anorexia nervosa. Nat Genet. 2019;51(8):1207–14.Google Scholar
Klump, K, Strober, M, Johnson, C, et al. Personality characteristics of women before and after recovery from an eating disorder. Psych Med. 2004;34(8):1407–18.Google Scholar
Jacobs, M, Roesch, S, Wonderlich, S, et al. Anorexia nervosa trios: Behavioral profiles of individuals with anorexia nervosa and their parents. Psychol Med. 2009;39(3):451–61.Google Scholar
Woodside, DB, Bulik, CM, Halmi, KA, et al. Personality, perfectionism, and attitudes toward eating in parents of individuals with eating disorders. Int J Eat Disord. 2002;31(3):290–9.Google Scholar
Harrison, A, Sullivan, S, Tchanturia, K, et al. Attentional bias, emotion recognition and emotion regulation in anorexia: State or trait? Biol Psych. 2010;68(8):755–61.Google Scholar
Klump, K, Keel, P, Racine, S, et al. The interactive effects of estrogen and progesterone on changes in emotional eating across the menstrual cycle [Errata]. J Abnorm Psychol. 2013 Feb;122(1):137.Google Scholar
Klump, K, Fowler, N, Mayhall, L, et al. Estrogen moderates genetic influences on binge eating during puberty: Disruption of normative processes? J Abnorm Psychol. 2018;127(5):458–70.Google Scholar
Berthoud, H, Lenard, N, Shin, A. Food reward, hyperphagia, and obesity. AM J Physiol Regul Integr Comp Physiol. 2011;300(6):R1266–R77.Google Scholar
Cowdrey, F, Park, R, Harmer, C, et al. Increased neural processing of rewarding and aversive food stimuli in recovered anorexia nervosa. Biol Psych. 2011;70(8):736–43.Google Scholar
Frank, G, Reynolds, J, Shott, M, et al. Anorexia nervosa and obesity are associated with opposite brain reward response. Neuropsychopharmacology. 2012;37(9):2031–46.CrossRefGoogle ScholarPubMed
Lock, J, Garrett, A, Beenhakker, J, et al. Aberrant brain activation during a response inhibition task in adolescent eating disorder subtypes. Am J Psychiatr. 2011;168(1):5564.Google Scholar
Foerde, K, Steinglass, J, Shohamy, D, et al. Neural mechanisms supporting maladaptive food choices in anorexia nervosa. Nat Neurosci. 2015;18(11):1571–3.Google Scholar
Ehrlich, S, Geisler, D, Ritschel, F, et al. Elevated cognitive control over reward processing in recovered female patients with anorexia nervosa. J Psychiatr Neurosci. 2015;40(5):307–15.Google Scholar
Dellava, J, Thornton, L, Hamer, RS, et al. Childhood anxiety associated with low BMI in women with anorexia nervosa. Behav Res Ther. 2010;48(1):60–7.CrossRefGoogle ScholarPubMed
Bischoff-Grethe, A, Wierenga, C, Berner, L, et al. Neural hypersensitivity to pleasant touch in women remitted from anorexia nervosa. Transl Psychiatr. 2018;8(1):161.Google Scholar
Holsen, L, Lawson, E, Blum, K, et al. Food motivation circuitry hypoactivation related to hedonic and nonhedonic aspects of hunger and satiety in women with active anorexia nervosa and weight-restored women with anorexia nervosa. J Psychiatr Neurosci. 2012;37(5):322–32.Google Scholar
Kaye, W, Wierenga, C, Bischoff-Grethe, A, et al. Neural insensitivity to the effects of hunger in women remitted from anorexia nervosa. Am J Psychiatr. 2020;177(7):601–10.Google Scholar
Bischoff-Grethe, A, McCurdy, D, Grenesko-Stevens, E, et al. Altered brain response to reward and punishment in adolescents with anorexia nervosa. Psychiatr Res. 2013;214(3):331–40.Google Scholar
Frank, G, Collier, S, Shott, M, et al. Prediction error and somatosensory insula activation in women recovered from anorexia nervosa. J Psychiatr Neurosci. 2016;41(2):304–11.Google Scholar
Roberts, M, Tchanturia, K, Stahl, D, et al. A systematic review and meta-analysis of set-shifting ability in eating disorders. Psychol Med. 2007;37(8):1075–84.Google Scholar
Smith, K, Mason, T, Johnson, J, et al. A systematic review of reviews of neurocognitive functioning in eating disorders: The state-of-the-literature and future directions. Int J Eat Disord. 2018;51(8):798821.CrossRefGoogle ScholarPubMed
Wu, M, Brockmeyer, T, Hartmann, M, et al. Set-shifting ability across the spectrum of eating disorders and in overweight and obesity: A systematic review and meta-analysis. Psychol Med. 2014;44(16):3365–85.Google Scholar
Berner, L, Romero, E, Reilly, EE, et al. Task-switching inefficiencies in currently ill, but not remitted anorexia nervosa. Int J Eat Disord. 2019;52(11):1316–21.Google Scholar
Decker, J, Figner, B, Steinglass, J. On weight and waiting: Delay discounting in anorexia nervosa pretreatment and post-treatment. Biol Psychol. 2015;78(9):606–14.Google Scholar
Steward, T, Mestre-Bach, G, Vintro-Alcaraz, C, et al. Delay discounting of reward and impulsivity in eating disorders: From anorexia nervosa to binge eating disorder. Eur Eat Disord Rev. 2017;25(6):601–6.CrossRefGoogle ScholarPubMed
Wierenga, C, Ely, A, Bischoff-Grethe, A, et al. Are extremes of consumption in eating disorders related to an altered balance between reward and inhibition? Front Behav Neurosci. 2014;9(8):410.Google Scholar
Brown, T, Vanzhula, I, Reilly, E, et al. Body mistrust bridges interoceptive awareness and eating disorder symptoms. J Abnorm Psychol. 2020;129(5):445–56.Google Scholar
Strigo, I, Matthews, S, Simmons, A, et al. Altered insula activation during pain anticipation in individuals recovered from anorexia nervosa: Evidence of interoceptive dysregulation. Int J Eat Disord. 2013;46:2333.Google Scholar
Berner, L, Simmons, A, Wierenga, C, et al. Altered interoceptive activation before, during, and after aversive breathing load in women remitted from anorexia nervosa. Psychol Med. 2018;48(1):142–54.Google Scholar
Oberndorfer, T, Simmons, A, McCurdy, D, et al. Greater anterior insula activation during anticipation of food images in women recovered from anorexia nervosa versus controls. Psychiatr Res. 2013 214(2):132–41.CrossRefGoogle ScholarPubMed
Bailer, U, Narendran, R, Frank, W, et al. Amphetamine induced dopamine release increases anxiety in individuals recovered from anorexia nervosa. Int J Eat Disord. 2012;45(2):263–71.Google Scholar
Frank, G, Bailer, UF, Henry, S, et al. Increased dopamine D2/D3 receptor binding after recovery from anorexia nervosa measured by positron emission tomography and [11C]raclopride. Biol Psychiatr. 2005;58(11):908–12.Google Scholar
Wagner, A, Aizenstein, H, Venkatraman, M, et al. Altered reward processing in women recovered from anorexia nervosa. Am J Psychiatr. 2007;164(12):1842–9.Google Scholar
Arnett, J. The Oxford Handbook of Emerging Adulthood. Arnett, J (Ed.). Oxford: Oxford University Press; 2015.CrossRefGoogle Scholar
Gustavson, K, Knudsen, A, Nesvag, R, et al. Prevalence and stability of mental disorders among young adults: Findings from a longitudinal study. BMC Psychiatr. 2018;18(1):65.Google Scholar
US Department of Health and Human Services. National Survey of Drug Use and Health (NSDUH). www.samhsa.gov/data/release/2019-national-survey-drug-use-and-health-nsduh-releases; 2019.Google Scholar
Twenge, JM, Cooper, AB, Joiner, T, et al. Age, period, and cohort trends in mood disorder indicators and suicide-related outcomes in a nationally representative dataset, 2005–2017. J Abnorm Psychol. 2019;128(3):185–99.CrossRefGoogle Scholar
Volpe, U, Tortorella, A, Manchia, M, et al. Eating disorders: What age at onset? Psychiatr Res. 2016;30(238):225–7.Google Scholar
Mitrofan, O, Petkova, H, Janssens, A, et al. Care experiences of young people with eating disorders and their parents: Qualitative study. BJPsych Open. 2019;5(1):e6.Google Scholar
Dimitropoulos, G, Landers, A, Freeman, V, et al. Open trial of family-based treatment of anorexia nervosa for transition age youth. J Can Acad Child Adolesc Psychiatr. 2018;27(1):5061.Google Scholar
Dimitroupoulos, G, Freeman, V, Allemang, B, et al. Family-based treatment with transition age youth with anorexia nervosa: A qualitative summary of application in clinical practice. J Eat Disord. 2015;3(1):113.Google Scholar
Asen, E, Scholz, M. Multi-family Therapy: Concepts and Techniques. New York: Routledge; 2010.CrossRefGoogle Scholar
Simic, M, Eisler, I. Multi-family therapy. In Loeb, K, LeGrange, D (Eds.), Family Therapy for Adolescent Eating and Weight Disorders: New Applications (pp. 110–38). New York: Routledge; 2015.Google Scholar
Linehan, M. DBT Skills Training Manual (2nd ed.). New York: Guilford Press; 2015.Google Scholar
Linehan, M. Dialectical Behavior Therapy in Clinical Practice. New York: Guilford Press; 2020.Google Scholar
Zuckerman, M. Models of adult temperament. In Handbook of Temperament (Chapter 3). New York: Guilford Press; 2012.Google Scholar
Hill, L. A brain-based approach to eating disorder treatment. www.brainbasedeatingdisorders.org/; 2017.Google Scholar
Hodgekiss, A. Trying to lose weight? Try the HAND DIET: Measure food portions using just your fingers, thumbs and palm. Daily Mail; 2014.Google Scholar
Squire, L, Kandel, E. Memory, from Mind to Molecules (2nd ed.). Boulder, CO: Roberts; 2009.Google Scholar
Cross-Disorder Group of Psychiatric Genomics Consortium. Genomic relationships, novel loci, and pleiotropic mechanisms across eight psychiatric disorders. 2019.Google Scholar
Bulik, C, Flatt, R, Abbaspour, A, et al. Reconceptualizing anorexia nervosa. Psychiatr Clin Neurosci. 2019;73(9):518–25.Google Scholar
Liu, P, Peng, G, Zhang, N, et al. Crosstalk between the gut microbiota and the brain: An update on neuroimaging findings. Front Neurol. 2019;10:833.Google Scholar
Hubel, C, Yilmaz, Z, Schaumberg, K, et al. Body composition in anorexia nervosa: Meta-analysis and meta-regression of cross-sectional and longitudinal studies. Int J Eat Disord. 2019;52(11):1205–23.Google Scholar
Akkermann, K, Paaver, M, Nordquist, N, et al. Association of 5-HTT gene polymorphism, platelet MAO activity, and drive for thinness in a population-based sample of adolescent girls. International Journal of Eating Disorders. 2008;41(5):399404.Google Scholar
Danner, U, Sanders, N, Smeets, P, et al. Neuropsychological weaknesses in anorexia nervosa: Set-shifting, central coherence, and decision making in currently ill and recovered women. Int J Eat Disord. 2012;45(5):685–94.Google Scholar
Frank, G, Kaye, W. Current status of functional imaging in eating disorders. Int J Eat Disord. 2012;45(6):723–36.Google Scholar
Klump, K. Puberty as a critical risk period for eating disorders: A review of human and animal studies. Horm Behav. 2013;64(2):399410.Google Scholar
Ma, R, Mikhail, M, Fowler, N, et al. The role of puberty and ovarian hormones in the genetic diathesis of eating disorders in females. Child Adolesc Psychiatr Clin N Am. 2019;28(4):617–28.Google Scholar
Simmons, W, Avery, J, Barcalow, J, et al. Keeping the body in mind: Insula functional organization and functional connectivity integrate interoceptive, exteroceptive, and emotional awareness. Hum Brain Mapp. 2013;34(11):2944–58.Google Scholar
Ehrlich, S, Lord, A, Geisler, D, et al. Reduced functional connectivity in the thalamo-insular subnetwork in patients with acute anorexia nervosa. Hum Brain Mapp. 2015;36(5):1772–81.CrossRefGoogle ScholarPubMed
Treasure, J, Zipfel, S, Micali, N, et al. Anorexia nervosa. Nature Rev Dis Primers. 2015;1:15074.Google Scholar
Nunn, K, Frampton, I, Gordon, I, et al. The fault is not in her parents but in her insula – a neurobiological hypothesis of anorexia nervosa. Eur Eat Disord Rev. 2008;16(5):355–60.CrossRefGoogle Scholar
Nunn, K, Frampton, I, Lask, B, et al. Anorexia nervosa and the insula. Med Hypotheses. 2011;76(3):353–7.Google Scholar
Frank, G, Shott, M, Keffler, C, et al. Extremes of eating are associated with reduced neural taste discrimination. Int J Eat Disord. 2016;49(6):603–12.Google Scholar
Szalavitz, M. The currency of desire. Sci Am Mind. 2017;28:4853.Google Scholar
Sullivan, PF. Mortality in anorexia nervosa. Am J Psychiatr. 1995;152(7):1073–4.Google Scholar
Ackard, D, Richter, S, Egan, A, et al. Poor outcome and death among youth, young adults, and midlife adults with eating disorders: An investigation of risk factors by age at assessment. Int J Eat Disord. 2014;47(7):825–35.Google Scholar
Arcelus, J, Mitchell, A, Wales, J, et al. Mortality rates in patients with anorexia nervosa and other eating disorders. Arch Gen Psychiatr. 2011;68(7):724–31.Google Scholar
Compan, V, Walsh, B, Kaye, W, et al. How does the brain implement adaptive decision making to eat? J Neurosci. 2015;35(41):13868–78.Google Scholar
Brainstorm Consortium. Analysis of shared heritability in common disorders of the brain. Science. 2018;360:6395.Google Scholar
Mahon, P, Hildebrandt, T, Burdick, K. New genetic discoveries in anorexia nervosa: Implications for the field. Am J Pschiatr. 2017;174(9):821–2.Google ScholarPubMed
Simone, M, Askew, A, Lust, K, et al. Disparities in self-reported eating disorders and academic impairment in sexual and gender minority college students relative to their heterosexual and cisgender peers. Int J Eat Disord. 2020;53(4):513–24.Google Scholar
American Psychiatric Association. Diagnostic and Statistical Manual of Mental Disorders (DSM-V, 5th ed.). Washington, DC: American Psychiatric Association; 2013.Google Scholar
Yau, W-Y, Bischoff-Grethe, A, Theilmann, R, et al. Alterations in white matter microstructure in women recovered from anorexia nervosa. Int J Eat Disord. 2013;46(7):701–98.CrossRefGoogle ScholarPubMed
Stiles-Shields, C, Bamford, B, Lock, J, et al. The effect of driven exercise on treatment outcomes for adolescents with anorexia and bulimia nervosa. Int J Eat Disord. 2015;48(8):392–6.Google Scholar
Zerwas, S, Lund, B, Von Holle, A, et al. Factors associated with recovery from anorexia nervosa. J Psychiatr Pract. 2013;47(7):972–9.Google Scholar
Levinson, C, Zerwas, SC, Brosof, LC, et al. Associations between dimensions of anorexia nervosa and obsessive-compulsive disorder: An examination of personality and psychological factors in patients with anorexia nervosa. Eur Eat Disord Rev. 2018;27(2):161–72.Google Scholar
Klump, K, Burt, S, Spanos, A, et al. Age differences in genetic and environmental influences on weight and shape concerns. Int J Eat Disord. 2010;43(8):679–88.Google Scholar
Klump, K, Culbert, K, O’Connor, S, et al. The significant effects of puberty on the genetic diathesis of binge eating in girls. Int J Eat Disord. 2017;50(8):984–9.Google Scholar
Hubel, C, Gaspar, H, Coleman, J, et al. Genetic correlations of psychiatric traits with body composition and glycemic traits are sex- and age-dependent Nat Commun. 2019;10(1):5765.Google Scholar
McAdams, C, Jeon-Slaughter, H, Evans, S, et al. Neural differences in self-perception during illness and after weight-recovery in anorexia nervosa. Soc Cogn Affect Neurosci. 2016;11(11):1823–31.Google Scholar
Halmi, K, Bellace, D, Berthod, S, et al. An examination of early childhood perfectio-nism across anorexia nervosa subtypes. Int J Eat Disord. 2012;45(6):800–7.Google Scholar
Esposito, R, Cieri, F, di Giannantonio, M, et al. The role of body image and self-perception in anorexia nervosa: the neuroimaging perspective. J Neuropsychol. 2018;12(1):4152.Google Scholar
Oberndorfer, T, Kaye, W, Simmons, A, et al. Demand-specific alteration of medial prefrontal cortex response during an ihhibition task in recovered anorexic women. Int J Eat Disord. 2011;44(1):18.Google Scholar
Linehan, M. Cognitive-Behavioral Treatment of Borderline Personality Disorder. New York: Guilford Press; 1993.Google Scholar
Pruis, T, Keel, P, Janowsky, J. Recovery from anorexia nervosa includes neural compensation for negative body image. Int J Eat Disord. 2012;45:919–31.Google Scholar
McCormick, L, Keel, P, Brumm, M, et al. Implications of starvation-induced change in right dorsal anterior cingulate volume in anorexia nervosa. Int J Eat Disord. 2008;41(7):602–10.Google Scholar
Bergen, A, Yeager, M, Welch, R, et al. Association of multiple DRD2 polymorphisms with anorexia nervosa. Neuropsychopharmacology. 2005;30(9):1703–10.Google Scholar
Frieling, H, Romer, K, Scholz, S, et al. Epigenetic dysregulation of dopaminergic genes in eating disorders. Int J Eat Disord. 2010;43(7):577–83.Google Scholar
Richmond, B, Liu, Z, Shidara, M. Predicting future rewards. Science. 2003;301:179–80.Google Scholar
Robinson, P, Kukucska, R, Guidetti, G, et al. Severe and enduring anorexia nervosa (SEE-AN): A qualitative study of patients with 20+ years of anorexia nervosa. Eur Eat Disord Rev. 2015;23:318–26.Google Scholar
Banich, M, Compton, R. Cognitive Neuroscience. Cambridge: Cambridge University Press; 2018.Google Scholar
Gilligan, C. In a Different Voice. Cambridge, MA: Harvard University Press; 1982.Google Scholar
Marek, RJ, Ben‐Porath, DD, Federici, A, Wisniewski, L, Warren, M. Targeting premeal anxiety in eating disordered clients and normal controls: A preliminary investigation into the use of mindful eating vs. distraction during food exposure. International Journal of Eating Disorders 2013;46(6):582–85.Google Scholar
Hill, L. The woodburning stove: A metaphor for dietary regulation for persons with eating disorders. In Eating Disorders Treatment and Prevention, Vol. 1 (2) New York: Brunner/Mazel; 1993.Google Scholar
Kaye, WH, Barbarich, NC, Putnam, K, Gendall, KA, Fernstrom, J, Fernstrom, M, et al. Anxiolytic effects of acute tryptophan depletion in anorexia nervosa. Int J Eat Disord 2003;33:257–67.Google Scholar
Fairburn, CG, Beglin, SJ. Eating Disorder Examination Questionnaire (EDE-Q) [Database record]. APA PsycTests;1994.CrossRefGoogle Scholar
Schebendach, J, Mayer, LES, Devlin, MJ, Attia, E, Walsh, BT. Dietary energy density and diet variety as risk factors for relapse in anorexia nervosa: A replication. Int. J. Eat. Disord. 2012; 45:7984. doi: 10.1002/eat.20922Google Scholar
Gianini, LM, Walsh, BT, Steinglass, J, Mayer, L. Long-term weight loss maintenance in obesity: Possible insights from anorexia nervosa? International Journal of Eating Disorders, 2017;50:341–42. doi: 10.1002/eat.22685Google Scholar
Jewell, T., Blessitt, E., Stewart, C., Simic, M., & Eisler, I. (2016). Family therapy for child and adolescent eating disorders: a critical review. Family Process, 55(3), 577–594.Google Scholar

Save book to Kindle

To save this book to your Kindle, first ensure [email protected] is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

  • References
  • Laura L. Hill, Ohio State University, Stephanie Knatz Peck, University of California, San Diego, Christina E. Wierenga, University of California, San Diego
  • Book: Temperament Based Therapy with Support for Anorexia Nervosa
  • Online publication: 31 March 2022
  • Chapter DOI: https://doi.org/10.1017/9781009032063.060
Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

  • References
  • Laura L. Hill, Ohio State University, Stephanie Knatz Peck, University of California, San Diego, Christina E. Wierenga, University of California, San Diego
  • Book: Temperament Based Therapy with Support for Anorexia Nervosa
  • Online publication: 31 March 2022
  • Chapter DOI: https://doi.org/10.1017/9781009032063.060
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • References
  • Laura L. Hill, Ohio State University, Stephanie Knatz Peck, University of California, San Diego, Christina E. Wierenga, University of California, San Diego
  • Book: Temperament Based Therapy with Support for Anorexia Nervosa
  • Online publication: 31 March 2022
  • Chapter DOI: https://doi.org/10.1017/9781009032063.060
Available formats
×