Your search keyword '"Jennifer Fedor"' showing total 20 results

1. Design and Use of Patient-Facing Electronic Patient-Reported Outcomes and Sensor Data Visualizations During Outpatient Chemotherapy

Author

Christianna Bartel, Leeann Chen, Weiyu Huang, Qichang Li, Qingyang Li, Jennifer Fedor, Krina C Durica, and Carissa A Low

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

AbstractThis study describes patients’ interaction with a personalized web-based visualization displaying daily electronic patient-reported outcomes and wearable device data during outpatient chemotherapy.

Published

2025

2. Engagement With Daily Symptom Reporting, Passive Smartphone Sensing, and Wearable Device Data Collection During Chemotherapy: Longitudinal Observational Study

Author

Sean McClaine, Jennifer Fedor, Christianna Bartel, Leeann Chen, Krina C Durica, and Carissa A Low

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundChemotherapy can cause symptoms that impair quality of life and functioning. Remote monitoring of daily symptoms and activity during outpatient treatment may enable earlier detection and management of emerging toxicities but requires patients, including older and acutely ill patients, to engage with technology to report symptoms through smartphones and to charge and wear mobile devices. ObjectiveThis study aimed to identify factors associated with participant engagement with collecting 3 data streams (ie, daily patient-reported symptom surveys, passive smartphone sensing, and a wearable Fitbit device [Google]) during chemotherapy. MethodsWe enrolled 162 patients receiving outpatient chemotherapy into a 90-day prospective study. Patients were asked to install apps on their smartphones to rate daily symptoms and to collect passive sensor data and to wear a Fitbit device for the duration of the study. Participants completed baseline demographic and quality of life questionnaires, and clinical information was extracted from the electronic medical record. We fit a series of logistic generalized estimating equations to evaluate the association between demographic and clinical factors and daily engagement with each data stream. ResultsParticipants completed daily surveys on 61% (SD 27%) of days and collected sufficient smartphone data and wearable sensor data on 73% (SD 35%) and 70% (SD 33%) of enrolled days, respectively, on average. Relative to White participants, non-White patients demonstrated lower odds of engagement with both symptom surveys (odds ratio [OR] 0.49, 95% CI 0.29-0.81; P=.006) and wearable data collection (OR 0.35, 95% CI 0.17-0.73; P=.005). Patients with stage 4 cancer also exhibited lower odds of engagement with symptom reporting than those with earlier stage disease (OR 0.69, 95% CI 0.48-1.00; P=.048), and patients were less likely to complete symptom ratings on the weekend (OR 0.90, 95% CI 0.83-0.97; P=.008). Older patients (OR 1.03, 95% CI 1.01-1.06; P=.01) and those who reported better cognitive functioning at study entry (OR 1.18, 95% CI 1.03-1.34; P=.02) were more likely to engage with Fitbit data collection, and patients who reported higher levels of depressive symptoms were less likely to engage with smartphone data collection (OR 1.18, 95% CI 1.03-1.36; P=.02). ConclusionsRemote patient monitoring during chemotherapy has the potential to improve clinical management, but only if patients engage with these systems. Our results suggest significant associations between demographic and clinical factors and long-term engagement with smartphone and wearable device assessments during chemotherapy. Non-White participants, those with metastatic cancer, or those with existing cognitive impairment may benefit from additional resources to optimize engagement. Contrary to hypotheses, older adults were more likely than younger adults to engage consistently with wearable device assessments.

Published

2024

3. A canonical trajectory of executive function maturation from adolescence to adulthood

Author

Brenden Tervo-Clemmens, Finnegan J. Calabro, Ashley C. Parr, Jennifer Fedor, William Foran, and Beatriz Luna

Subjects

Science

Abstract

Abstract Theories of human neurobehavioral development suggest executive functions mature from childhood through adolescence, underlying adolescent risk-taking and the emergence of psychopathology. Investigations with relatively small datasets or narrow subsets of measures have identified general executive function development, but the specific maturational timing and independence of potential executive function subcomponents remain unknown. Integrating four independent datasets (N = 10,766; 8–35 years old) with twenty-three measures from seventeen tasks, we provide a precise charting, multi-assessment investigation, and replication of executive function development from adolescence to adulthood. Across assessments and datasets, executive functions follow a canonical non-linear trajectory, with rapid and statistically significant development in late childhood to mid-adolescence (10–15 years old), before stabilizing to adult-levels in late adolescence (18–20 years old). Age effects are well captured by domain-general processes that generate reproducible developmental templates across assessments and datasets. Results provide a canonical trajectory of executive function maturation that demarcates the boundaries of adolescence and can be integrated into future studies.

Published

2023

4. Adolescents’ daily social media use and mood during the COVID-19 lockdown period

Author

Melissa J. Dreier, Simone Imani Boyd, Saskia L. Jorgensen, Ritika Merai, Jennifer Fedor, Krina C. Durica, Carissa A. Low, and Jessica L. Hamilton

Subjects

Social media, Adolescent, Affect, Mood, Screen time, Smartphone sensing, Psychology, BF1-990

Abstract

Adolescents’ relationship to social media (SM) use shifted significantly during the COVID-19 lockdown. However, less is known about how adolescents’ social media use behaviors and mood were associated during this time. This study examined objective (passively sensed) SM use—including ‘screen time’ (duration of use) and checking (frequency of opening apps), retrospective daily reports of positive and negative affect during SM use, and general negative mood among adolescents during the COVID-19 lockdown period. Participants included 19 adolescents (Mean age = 15.8; 37 % female). Bayesian multilevel models examined whether within person-changes in SM ‘screen time’ and checking were associated with 1) retrospectively reported positive and negative affect while using SM and daily duration of SM use, 2) daily reports of overall negative mood. These relationships were examined both within the same day and prospectively (one day's SM behaviors predicting next-day mood and vise versa). On the same day, stronger positive or negative mood during SM use were associated with more SM ‘screen time’ (duration) and checking. Prospectively (next-day models), checking SM more frequently than usual was uniquely associated with within-person increases in adolescents’ positive mood when using SM the next day (p < .05), but not negative mood when using SM the next day. However, neither ‘screen time’ nor checking were associated with general negative mood on the same day or next day. These findings support the notion that SM is rewarding by highlighting that higher-than-usual SM checking is associated with within-person increases in positive mood during use. These findings also add to growing evidence that social media may not be directly tied to adolescents’ general mood state.

Published

2024

5. Altered structural brain asymmetry in autism spectrum disorder in a study of 54 datasets

Author

Merel C. Postema, Daan van Rooij, Evdokia Anagnostou, Celso Arango, Guillaume Auzias, Marlene Behrmann, Geraldo Busatto Filho, Sara Calderoni, Rosa Calvo, Eileen Daly, Christine Deruelle, Adriana Di Martino, Ilan Dinstein, Fabio Luis S. Duran, Sarah Durston, Christine Ecker, Stefan Ehrlich, Damien Fair, Jennifer Fedor, Xin Feng, Jackie Fitzgerald, Dorothea L. Floris, Christine M. Freitag, Louise Gallagher, David C. Glahn, Ilaria Gori, Shlomi Haar, Liesbeth Hoekstra, Neda Jahanshad, Maria Jalbrzikowski, Joost Janssen, Joseph A. King, Xiang Zhen Kong, Luisa Lazaro, Jason P. Lerch, Beatriz Luna, Mauricio M. Martinho, Jane McGrath, Sarah E. Medland, Filippo Muratori, Clodagh M. Murphy, Declan G. M. Murphy, Kirsten O’Hearn, Bob Oranje, Mara Parellada, Olga Puig, Alessandra Retico, Pedro Rosa, Katya Rubia, Devon Shook, Margot J. Taylor, Michela Tosetti, Gregory L. Wallace, Fengfeng Zhou, Paul M. Thompson, Simon E. Fisher, Jan K. Buitelaar, and Clyde Francks

Subjects

Science

Abstract

Changes in brain structure asymmetry have been reported in autism spectrum disorder. Here the authors investigate this issue using a large-scale sample consisting of 54 data sets.

Published

2019

6. Representational similarity analysis reveals atypical age-related changes in brain regions supporting face and car recognition in autism

Author

Kirsten O’Hearn, Bart Larsen, Jennifer Fedor, Beatriz Luna, and Andrew Lynn

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: Autism Spectrum Disorder (ASD) is associated with atypical activation in the ventral stream during face processing. The current study further characterizes the development of face processing in ASD using a multivoxel pattern analysis, which assesses the similarity in the representation of exemplars from the same category. Methods: Ninety-two children, adolescents and adults - with and without ASD - performed the Cambridge Face Memory Test, the Australian Face Memory Test, and a matched car memory test. Regions of interest during these tasks included Fusiform Face Area (FFA), based on the literature, and additional, structurally-defined regions in the ventral stream. Group differences in the patterns of activity within these ROIs when memorizing exemplars were examined using a representational similarity analysis (RSA). Results: The RSA revealed significant interactions between age group and diagnostic group in R FFA, with increasing similarity within a category (faces, cars) into adulthood typically but not in those with ASD. This pattern was also evident in structurally defined ventral stream regions, namely L inferior frontal gyrus (IFG), bilateral temporoparietal junction (TPJ), L inferior temporal lobule, and the R fusiform gyrus. Conclusions: The specialization of face and object processing from adolescence to adulthood evident in typical development may be impaired in ASD, undermining the ability to reach adult-level visual processing in those with ASD.

Published

2020

7. Author Correction: Altered structural brain asymmetry in autism spectrum disorder in a study of 54 datasets

Author

Merel C. Postema, Daan van Rooij, Evdokia Anagnostou, Celso Arango, Guillaume Auzias, Marlene Behrmann, Geraldo Busatto Filho, Sara Calderoni, Rosa Calvo, Eileen Daly, Christine Deruelle, Adriana Di Martino, Ilan Dinstein, Fabio Luis S. Duran, Sarah Durston, Christine Ecker, Stefan Ehrlich, Damien Fair, Jennifer Fedor, Xin Feng, Jackie Fitzgerald, Dorothea L. Floris, Christine M. Freitag, Louise Gallagher, David C. Glahn, Ilaria Gori, Shlomi Haar, Liesbeth Hoekstra, Neda Jahanshad, Maria Jalbrzikowski, Joost Janssen, Joseph A. King, Xiang Zhen Kong, Luisa Lazaro, Jason P. Lerch, Beatriz Luna, Mauricio M. Martinho, Jane McGrath, Sarah E. Medland, Filippo Muratori, Clodagh M. Murphy, Declan G. M. Murphy, Kirsten O’Hearn, Bob Oranje, Mara Parellada, Olga Puig, Alessandra Retico, Pedro Rosa, Katya Rubia, Devon Shook, Margot J. Taylor, Michela Tosetti, Gregory L. Wallace, Fengfeng Zhou, Paul M. Thompson, Simon E. Fisher, Jan K. Buitelaar, and Clyde Francks

Subjects

Science

Published

2021

8. Virtual Ontogeny of Cortical Growth Preceding Mental Illness

Author

Yash Patel, Jean Shin, Christoph Abé, Ingrid Agartz, Clara Alloza, Dag Alnæs, Sonia Ambrogi, Linda A. Antonucci, Celso Arango, Volker Arolt, Guillaume Auzias, Rosa Ayesa-Arriola, Nerisa Banaj, Tobias Banaschewski, Cibele Bandeira, Zeynep Başgöze, Renata Basso Cupertino, Claiton H.D. Bau, Jochen Bauer, Sarah Baumeister, Fabio Bernardoni, Alessandro Bertolino, Caterina del Mar Bonnin, Daniel Brandeis, Silvia Brem, Jason Bruggemann, Robin Bülow, Juan R. Bustillo, Sara Calderoni, Rosa Calvo, Erick J. Canales-Rodríguez, Dara M. Cannon, Susanna Carmona, Vaughan J. Carr, Stanley V. Catts, Sneha Chenji, Qian Hui Chew, David Coghill, Colm G. Connolly, Annette Conzelmann, Alexander R. Craven, Benedicto Crespo-Facorro, Kathryn Cullen, Andreas Dahl, Udo Dannlowski, Christopher G. Davey, Christine Deruelle, Covadonga M. Díaz-Caneja, Katharina Dohm, Stefan Ehrlich, Jeffery Epstein, Tracy Erwin-Grabner, Lisa T. Eyler, Jennifer Fedor, Jacqueline Fitzgerald, William Foran, Judith M. Ford, Lydia Fortea, Paola Fuentes-Claramonte, Janice Fullerton, Lisa Furlong, Louise Gallagher, Bingchen Gao, Si Gao, Jose M. Goikolea, Ian Gotlib, Roberto Goya-Maldonado, Hans J. Grabe, Melissa Green, Eugenio H. Grevet, Nynke A. Groenewold, Dominik Grotegerd, Oliver Gruber, Jan Haavik, Tim Hahn, Ben J. Harrison, Walter Heindel, Frans Henskens, Dirk J. Heslenfeld, Eva Hilland, Pieter J. Hoekstra, Sarah Hohmann, Nathalie Holz, Fleur M. Howells, Jonathan C. Ipser, Neda Jahanshad, Babette Jakobi, Andreas Jansen, Joost Janssen, Rune Jonassen, Anna Kaiser, Vasiliy Kaleda, James Karantonis, Joseph A. King, Tilo Kircher, Peter Kochunov, Sheri-Michelle Koopowitz, Mikael Landén, Nils Inge Landrø, Stephen Lawrie, Irina Lebedeva, Beatriz Luna, Astri J. Lundervold, Frank P. MacMaster, Luigi A. Maglanoc, Daniel H. Mathalon, Colm McDonald, Andrew McIntosh, Susanne Meinert, Patricia T. Michie, Philip Mitchell, Ana Moreno-Alcázar, Bryan Mowry, Filippo Muratori, Leila Nabulsi, Igor Nenadić, Ruth O'Gorman Tuura, Jaap Oosterlaan, Bronwyn Overs, Christos Pantelis, Mara Parellada, Jose C. Pariente, Paul Pauli, Giulio Pergola, Francesco Maria Piarulli, Felipe Picon, Fabrizio Piras, Edith Pomarol-Clotet, Clara Pretus, Yann Quidé, Joaquim Radua, J. Antoni Ramos-Quiroga, Paul E. Rasser, Andreas Reif, Alessandra Retico, Gloria Roberts, Susan Rossell, Diego Luiz Rovaris, Katya Rubia, Matthew D. Sacchet, Josep Salavert, Raymond Salvador, Salvador Sarró, Akira Sawa, Ulrich Schall, Rodney Scott, Pierluigi Selvaggi, Tim Silk, Kang Sim, Antonin Skoch, Gianfranco Spalletta, Filip Spaniel, Dan J. Stein, Olaf Steinsträter, Aleks Stolicyn, Yoichiro Takayanagi, Leanne Tamm, Maria Tavares, Alexander Teumer, Katharina Thiel, Sophia I. Thomopoulos, David Tomecek, Alexander S. Tomyshev, Diana Tordesillas-Gutiérrez, Michela Tosetti, Anne Uhlmann, Tamsyn Van Rheenen, Javier Vazquez-Bourgón, Meike W. Vernooij, Eduard Vieta, Oscar Vilarroya, Cynthia Weickert, Thomas Weickert, Lars T. Westlye, Heather Whalley, David Willinger, Alexandra Winter, Katharina Wittfeld, Tony T. Yang, Yuliya Yoncheva, Jendé L. Zijlmans, Martine Hoogman, Barbara Franke, Daan van Rooij, Jan Buitelaar, Christopher R.K. Ching, Ole A. Andreassen, Elena Pozzi, Dick Veltman, Lianne Schmaal, Theo G.M. van Erp, Jessica Turner, F. Xavier Castellanos, Zdenka Pausova, Paul Thompson, Tomas Paus, Pediatric surgery, Anatomy and neurosciences, Psychiatry, Amsterdam Neuroscience - Brain Imaging, Amsterdam Neuroscience - Mood, Anxiety, Psychosis, Stress & Sleep, General Paediatrics, ARD - Amsterdam Reproduction and Development, Paediatrics, Radiology & Nuclear Medicine, Epidemiology, Clinical Cognitive Neuropsychiatry Research Program (CCNP), German Research Foundation, University of Münster, National Health and Medical Research Council (Australia), University of Cape Town, National Research Foundation (South Africa), Swinburne Universit, Jack Brockhoff Foundation, University of Melbourne, Barbara Dicker Brain Sciences Foundation, Rebecca L. Cooper Foundation, Society of Mental Health Research, Swedish Research Council, Swedish Foundation for Strategic Research, Swedish Brain Foundation, Health Research Board (Ireland), Russian Foundation for Basic Research, University of Zurich, Pratt Foundation, Ramsay Health Care, Viertel Charitable Foundation, Schizophrenia Research Institute, European Commission, Australian Research Council, Instituto de Salud Carlos III, National Institute for Health and Care Research (US), National Institute for Health Research (UK), Ministry of Health of the Czech Republic, Bill & Melinda Gates Foundation, South African Medical Research Council, Carnegie Corporation of New York, Wellcome Trust, Medical Research Council (UK), Medical Research Scotland, Netherlands Organization for Scientific Research, Ambrogi, Sonia, Banaschewski, Tobias, Bandeira, Cibele Edom, Cupertino, Renata, Calderoni, Sara, Cannon, Dara, Carr, Vaughan, Chew, Qian Hui, Coghill, David, Cullen, Kathryn, Dahl, Andreas, Epstein, Jeffery, Foran, William, Fortea, Lydia, Fuentes-Claramonte, Paola, Fullerton, Janice M., Furlong, Lisa, Gallagher, Louise, Gao, Si, Gotlib, Ian, Haavik, Jan, Henskens, Frans, Hilland, Eva, Hoekstra, Pieter J, Howells, Fleur M, Ipser, Jonathan, Jørgensen, Jes Kristian, Karantonis, James A., Lawrie, Stephen, Research Institute of the Hospital for Sick Children and University of Toronto, University of Toronto, Departments of Physiology and Nutritional Sciences, University of Toronto, Toronto, Canada, KG Jebsen Centre for Psychosis Research, University of Oslo (UiO)-Institute of Clinical Medicine-Oslo University Hospital [Oslo], Universidad Complutense de Madrid = Complutense University of Madrid [Madrid] (UCM), Mental Health Sciences Unit, University College of London [London] (UCL), Institut de Neurosciences de la Timone (INT), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), Clinical and Behavioral Neurology - Neuroscienze e riabilitazione, IRCCS Fondazione Santa Lucia [Roma], Heidelberg University, Universidade Federal do Rio Grande do Sul [Porto Alegre] (UFRGS), Universität Heidelberg [Heidelberg] = Heidelberg University, Clinical Neuropsychology, IBBA, APH - Mental Health, Centro de Investigación Biomédica en Red de Salud Mental (CIBERSAM), Hospital Sant Joan de Déu [Barcelona], and Centro de Investigación Biomédica en Red Salud Mental [Madrid] (CIBER-SAM)

Subjects

Bipolar Disorder, Autism Spectrum Disorder, [SDV]Life Sciences [q-bio], Neurogenesis, pathology [Premature Birth], Neurodevelopment, Cortical surface area, pathology [Autism Spectrum Disorder], Cortical growth, methods [Magnetic Resonance Imaging], SDG 3 - Good Health and Well-being, Pregnancy, 130 000 Cognitive Neurology & Memory, Humans, ddc:610, Child, Biological Psychiatry, Cerebral Cortex, pathology [Depressive Disorder, Major], Depressive Disorder, Major, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Infant, Newborn, Magnetic Resonance Imaging, Mental illness, Attention Deficit Disorder with Hyperactivity, Premature Birth, genetics [Autism Spectrum Disorder], Female, Psychiatric disorders, 170 000 Motivational & Cognitive Control

Abstract

[Background]: Morphology of the human cerebral cortex differs across psychiatric disorders, with neurobiology and developmental origins mostly undetermined. Deviations in the tangential growth of the cerebral cortex during pre/perinatal periods may be reflected in individual variations in cortical surface area later in life., [Methods]: Interregional profiles of group differences in surface area between cases and controls were generated using T1-weighted magnetic resonance imaging from 27,359 individuals including those with attention-deficit/hyperactivity disorder, autism spectrum disorder, bipolar disorder, major depressive disorder, schizophrenia, and high general psychopathology (through the Child Behavior Checklist). Similarity of interregional profiles of group differences in surface area and prenatal cell-specific gene expression was assessed., [Results]: Across the 11 cortical regions, group differences in cortical area for attention-deficit/hyperactivity disorder, schizophrenia, and Child Behavior Checklist were dominant in multimodal association cortices. The same interregional profiles were also associated with interregional profiles of (prenatal) gene expression specific to proliferative cells, namely radial glia and intermediate progenitor cells (greater expression, larger difference), as well as differentiated cells, namely excitatory neurons and endothelial and mural cells (greater expression, smaller difference). Finally, these cell types were implicated in known pre/perinatal risk factors for psychosis. Genes coexpressed with radial glia were enriched with genes implicated in congenital abnormalities, birth weight, hypoxia, and starvation. Genes coexpressed with endothelial and mural genes were enriched with genes associated with maternal hypertension and preterm birth., [Conclusions]: Our findings support a neurodevelopmental model of vulnerability to mental illness whereby prenatal risk factors acting through cell-specific processes lead to deviations from typical brain development during pregnancy., This work was supported by the German Research Foundation (DFG Grant Nos. HA7070/2-2, HA7070/3, HA7070/4 [to TH]) and IZKF of the medical faculty of Münster (Grants No. Dan3/012/17 [to UD] and MzH 3/020/20 [to TH]), and NHMRC projects (Grant No. 1064643 [to BJH] and 1024570 [to CGD]). The CIAM study was supported by the University of Cape Town Research Committee, South African National Research Foundation, and the South African Medical Research Council (principal investigator [PI], Fleur M. Howells) and Grant No. R01MH117601 (to NJ). This work was funded by the German Research Foundation (Grant Nos. FOR2107 JA 1890/7-1 and FOR2107 JA 1890/7-2 [to AJ]) and Swinburne University scholarship/Australian Postgraduate Award (to JK). Collection of the COGSBD cohort was funded by the Jack Brockhoff Foundation, University of Melbourne, Barbara Dicker Brain Sciences Foundation, Rebecca L Cooper Foundation, and the Society of Mental Health Research (to JK). This work was funded by the German Research Foundation (Grant Nos. FOR2107 KI588/14-1 and FOR2107 KI588/14-2 [to TK]). The St. Göran study was supported by grants from the Swedish Research Council (Grant No. 2018-02653 [to ML]), the Swedish foundation for Strategic Research (Grant No. KF10-0039 [to ML]), the Swedish Brain foundation (Grant No. FO2020-0261 [to ML]), and the Swedish Government under the LUA/ALF agreement (Grant Nos. ALF 20170019 and ALFGBG-716801 [to ML]). This work was supported by RFBR (Grant No. 20-013-00748 [to IL, AST]) and funded by the Health Research Board (Grant No. HRA_POR/2011/100 [to CM]). The Australian Schizophrenia Research Bank (ASRB) was supported by the NHMRC (Enabling Grant No. 386500), the Pratt Foundation, Ramsay Health Care, the Viertel Charitable Foundation, and the Schizophrenia Research Institute. Chief investigators for ASRB were VC, US, RSc, AJ, BM, PTM, SVC, FH, and CPa. This work was supported by Deutsche Forschungsgemeinschaft (Grant Nos. DFG NE 2254/2-1, NE 2254/3-1, NE2254/4-1 [to IN]), the University Research Priority Program “Integrative Human Physiology” at the University of Zurich (to ROT), an NHMRC Senior Principal Research Fellowship (Grant No. 1105825 [to CPa]), an NHMRC L3 Investigator Grant (Grant No. 1196508 [to CPa]), and NHMRC Program Grant (Grant No. 1150083 [to CPa]). ASRB was supported by the NHMRC (Enabling Grant No. 386500), the Pratt Foundation, Ramsay Health Care, the Viertel Charitable Foundation and the Schizophrenia Research Institute. Chief investigators for ASRB were VC, US, RSc, AJ, BM, PTM, SVC, FH, and CPa. This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant (Agreement No. 798181 [to GP]). ASRB was supported by the NHMRC (Enabling Grant, ID 386500), the Pratt Foundation, Ramsay Health Care, the Viertel Charitable Foundation and the Schizophrenia Research Institute. Chief investigators for ASRB were VC, US, RSc, AJ, BM, PTM, SVC, FH, and CPa. The Imaging Genetics in Psychosis study was funded by Project Grants from the NHMRC (Grant Nos. APP630471 and APP1081603 [to YQ]) and the Macquarie University’s Australian Research Council (ARC) Centre of Excellence in Cognition and its Disorders (Grant No. CE110001021 [to YQ]). This work was supported by the Spanish Ministry of Science, Innovation and Universities/Economy and Competitiveness/Instituto de Salud Carlos III (Grant Nos. PI11/01766 and CPII19/00009 [to JR]), co-financed by European Regional Development Fund funds from the European Commission (“A Way of Making Europe”). ASRB was supported by the NHMRC (Enabling Grant No. 386500), the Pratt Foundation, Ramsay Health Care, the Viertel Charitable Foundation, and the Schizophrenia Research Institute. Chief investigators for ASRB were VC, US, RSc, AJ, BM, PTM, SVC, FH, and CPa. SR was supported by an NHMRC Senior Fellowship (Grant No. GNT1154651). Collection of the COGSBD cohort was funded by the Jack Brockhoff Foundation, University of Melbourne, Barbara Dicker Brain Sciences Foundation, Rebecca L Cooper Foundation, and the Society of Mental Health Research (to SR). This work was supported by NIHR; MRC (to KR), NIH (Grant Nos. MH-094268, MH-105660, and MH-107730 [to ASS]). The Neuroimaging of the Children's Attention Project cohort was funded by NHMRC, Australia (Grant No. 1065895). Earlier funding for the cohort as also provided by NHMRC (Grant No. 1008522) and a grant from the Collier Foundation. The ACPU cohort was funded by NHMRC, Australia (Project Grant Nos. 384419 and 569533 [to TS]). This work was supported by research grants from the National Healthcare Group, Singapore (Grant Nos. SIG/05004, SIG/05028, and SIG /1103), and the Singapore Bioimaging Consortium (RP C009/2006 [to KS]), and the Ministry of Health, Czech Republic - conceptual development of research organization (“Institute for Clinical and Experimental Medicine - IKEM, IN 00023001” [to ASk]). This study was supported by the Italian Ministry of Health (Grant No. RC/17-18-19-20-21/A [to GS]) and Ministry of Health of the Czech Republic (Grant No. NU20-04-00393 [to FS]). The Drakenstein Child Health Study (DCHS) cohort is funded by the Bill and Melinda Gates Foundation (Grant No. OPP 1017641) and the South African Medical Research Council. This DCHS contribution was made possible in part by a grant from Carnegie Corporation of New York. The statements made and views expressed are solely the responsibility of the author (DJS). STRADL study was supported and funded by the Wellcome Trust Strategic Award “Stratifying Resilience and Depression Longitudinally” (Grant No. 104036/Z/14/Z), and the Medical Research Council Mental Health Pathfinder Award “Leveraging routinely collected and linked research data to study the causes and consequences of common mental disorders” (MRC, Grant No. MC_PC_17209). Scottish Bipolar Family Study (SBFS) was supported by National Health Service Research Scotland, through the Scottish Mental Health Research Network (www.smhrn.org.uk), who provided assistance with subject recruitment and assessments. SBFS was conducted at the Brain Research Imaging Centre (http://www.bric.ed.ac.uk), which is supported by SINAPSE (Scottish Imaging Network, a Platform for Scientific Excellence, http://www.sinapse.ac.uk). Processing of the datasets used the resources provided by the Edinburgh Compute and Data Facility (http://www.ecdf.ed.ac.uk/) (ASt). TVR was supported by an NHMRC Early Career Fellowship (Grant No. GNT1088785). Collection of the COGSBD cohort was funded by the Jack Brockhoff Foundation, University of Melbourne, Barbara Dicker Brain Sciences Foundation, Rebecca L Cooper Foundation, and the Society of Mental Health Research (to TVR). EV was supported by the Spanish Ministry of Science and Innovation (PI18/00805) integrated into the Plan Nacional de I+D+I and co-financed by the ISCIII-Subdirección General de Evaluación and the FEDER; the Instituto de Salud Carlos III; the CIBERSAM (Centro de Investigación Biomédica en Red de Salud Mental); by the CERCA Programme/Generalitat de Catalunya and the Secretaria d’Universitats i Recerca del Departament d’Economia I Coneixement (Grant No. 2017SGR1355). This study was also supported by the Departament de Salut de la Generalitat de Catalunya, Pla Estratègic de Recerca i Innovació en Salut (PERIS) 2016-2020 (Grant No. SLT006/17/00345) and the European Union Horizon 2020 research and innovation program (EU.3.1.1. Understanding health, wellbeing and disease: Grant Nos. 754907 and EU.3.1.3 [to EB]; Treating and managing disease: Grant No. 945151 [to EV]). This study was supported by the National Center for Complementary and Integrative Health (Grant Nos. R21AT009173 and R61AT009864 [to TTY]); by the National Center for Advancing Translational Sciences (CTSI), National Institutes of Health, through UCSF-CTSI (Grant No. UL1TR001872 [to TTY]); by the American Foundation for Suicide Prevention (Grant No. SRG-1-141-18 [to TTY]); by UCSF Research Evaluation and Allocation Committee (REAC) and J. Jacobson Fund (to TTY); by the NIMH (Grant No. R01MH085734 [to TTY]); and by the Brain and Behavior Research Foundation (formerly NARSAD) (to TTY). This work was supported by a personal Veni grant to MH from the Netherlands Organization for Scientific Research (NWO, Grant No. 91619115 [to MH]) and European Community’s Horizon 2020 Programme (H2020/2014 – 2020) (Grant Agreements Nos. 667302 [CoCA], 728018 [Eat2beNICE], and 847879 [PRIME] [to BF]). JBu has been supported by the EU-AIMS (European Autism Interventions) and AIMS-2-TRIALS programmes, which receive support from Innovative Medicines Initiative Joint Undertaking Grant Nos. 115300 and 777394, the resources of which are composed of financial contributions from the European Union’s FP7 and Horizon 2020 Programmes, and from the European Federation of Pharmaceutical Industries and Associations companies’ in-kind contributions, and AUTISM SPEAKS, Autistica and SFARI; and by the Horizon 2020–supported programme CANDY (Grant No. 847818 [to JBu]). This work is supported by Grant No. NIA T32AG058507 and NIH Grant No. U54EB020403 from the Big Data to Knowledge (BD2K) Program (to CRKC). ENIGMA MDD work is supported by NIH (Grant Nos. U54 EB020403 [to PT], R01 MH116147 [to PT], and R01 MH117601 [to NJ and LS]). LS was supported by an NHMRC Career Development Fellowship (Grant No. 1140764). This work was supported by the National Center for Research Resources at the NIH (Grant Nos. NIH 1 U24 RR021992 [Function Biomedical Informatics Research Network], NIH 1 U24 RR025736-01 [Biomedical Informatics Research Network Coordinating Center; http://www.birncommunity.org]). TGMvE is supported by ENIGMA’s NIH BD2K initiative (Grant No. U54 EB020403), ENIGMA Sex Differences (Grant No. R01MH116147), and ENIGMA-COINSTAC: Advanced Worldwide Transdiagnostic Analysis of Valence System Brain Circuits (Grant No. R01MH121246). This work was supported by the NIH (Grant No. R01MH121246 [to JT, Calhoun, and TGMvE]). This work was supported in part by NIH (Grant No. U54 EB020403 [to PT]).

Published

2022

9. A Canonical Trajectory of Executive Function Maturation During the Transition from Adolescence to Adulthood

Author

Brenden Tervo-Clemmens, Finnegan J. Calabro, Ashley C. Parr, Jennifer Fedor, William Foran, and Beatriz Luna

Abstract

Neurodevelopmental theories suggest goal-directed cognitive abilities (executive functions) mature from childhood through adolescence, and deviations from their normative development underlie peaks in accidental fatalities and the emergence of psychopathology during adolescence. The precise maturational timing of when adolescents reach adult-levels of executive function (EF) and the relative developmental independence of possible EF subcomponents (working memory, inhibition, switching, planning), however, remain unknown. Integrating four large independent datasets, two longitudinal and two cross-sectional (total age range: 8-35-years-old, total N=10,123, total visits =13,196) that included twenty-three measures from seventeen distinct EF tasks, we demonstrate that nearly all EFs follow a canonical non-linear developmental trajectory, with rapid and statistically significant development in late childhood through mid-adolescence (10-15-years-old), before stabilizing to adult-levels in late adolescence (18-20-years-old). Both cross-sectional age effects and longitudinal changes among EFs are well captured by domain-general accuracy and latency components consistent with theories of unitary executive function and fluid cognition. Scaled domain-general EF scores generate reproducible adolescent growth charts across datasets and tasks and can quantitatively guide future research. Results have implications for defining the adolescent period, growth charting of cognitive development in health and disease, and linking EF to brain development.

Published

2022

10. Subtly altered topological asymmetry of brain structural covariance networks in autism spectrum disorder across 43 datasets from the ENIGMA consortium

Author

Zhiqiang Sha, Daan van Rooij, Evdokia Anagnostou, Celso Arango, Guillaume Auzias, Marlene Behrmann, Boris Bernhardt, Sven Bolte, Geraldo F. Busatto, Sara Calderoni, Rosa Calvo, Eileen Daly, Christine Deruelle, Meiyu Duan, Fabio Luis Souza Duran, Sarah Durston, Christine Ecker, Stefan Ehrlich, Damien Fair, Jennifer Fedor, Jacqueline Fitzgerald, Dorothea L. Floris, Barbara Franke, Christine M. Freitag, Louise Gallagher, David C. Glahn, Shlomi Haar, Liesbeth Hoekstra, Neda Jahanshad, Maria Jalbrzikowski, Joost Janssen, Joseph A. King, Luisa Lazaro, Beatriz Luna, Jane McGrath, Sarah E. Medland, Filippo Muratori, Declan G. M. Murphy, Janina Neufeld, Kirsten O’Hearn, Bob Oranje, Mara Parellada, Jose C. Pariente, Merel C. Postema, Karl Lundin Remnelius, Alessandra Retico, Pedro Gomes Penteado Rosa, Katya Rubia, Devon Shook, Kristiina Tammimies, Margot J. Taylor, Michela Tosetti, Gregory L. Wallace, Fengfeng Zhou, Paul M. Thompson, Simon E. Fisher, Jan K. Buitelaar, Clyde Francks, Donders Center for Cognitive Neuroimaging, Donders Centre for Cognitive Neuroimaging, Radboud University [Nijmegen]-Radboud University [Nijmegen], Holland Bloorview Kids Rehabilitation Hospital [Toronto, ON, Canada], University of Toronto, Universidad Complutense de Madrid = Complutense University of Madrid [Madrid] (UCM), Institut de Neurosciences de la Timone (INT), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), Karolinska Institutet [Stockholm], Stockholm Health Care Services (SLSO), Curtin University [Perth], Planning and Transport Research Centre (PATREC), Universidade de São Paulo = University of São Paulo (USP), University of Pisa - Università di Pisa, Department of Child and Adolescent Psychiatry and Psychology, Centro de Investigación Biomédica en Red de Salut Mental (CIBER-SAM Network), Hospital Clinic Barcelona, King‘s College London, University Medical Center [Utrecht], Goethe-Universität Frankfurt am Main, MetaGenoPolis (MGP (US 1367)), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Oregon Health and Science University [Portland] (OHSU), McConnell Brain Imaging Centre (MNI), Montreal Neurological Institute and Hospital, and McGill University = Université McGill [Montréal, Canada]-McGill University = Université McGill [Montréal, Canada]

Subjects

Neuroinformatics, Biochemistry & Molecular Biology, Autism Spectrum Disorder, [SDV]Life Sciences [q-bio], CHILDREN, ORGANIZATION, ACTIVATION, Cellular and Molecular Neuroscience, CONNECTIVITY, 130 000 Cognitive Neurology & Memory, CEREBRAL-CORTEX, Neural Pathways, Humans, HETEROGENEITY, Molecular Biology, 11 Medical and Health Sciences, Psychiatry, Cerebral Cortex, Brain Mapping, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Science & Technology, LANGUAGE LATERALIZATION, Neurosciences, Brain, 06 Biological Sciences, Magnetic Resonance Imaging, 17 Psychology and Cognitive Sciences, Psychiatry and Mental health, INDIVIDUALS, MORPHOMETRY, Neurosciences & Neurology, Life Sciences & Biomedicine, CORTICAL THICKNESS

Abstract

Contains fulltext : 251394.pdf (Publisher’s version ) (Open Access) Small average differences in the left-right asymmetry of cerebral cortical thickness have been reported in individuals with autism spectrum disorder (ASD) compared to typically developing controls, affecting widespread cortical regions. The possible impacts of these regional alterations in terms of structural network effects have not previously been characterized. Inter-regional morphological covariance analysis can capture network connectivity between different cortical areas at the macroscale level. Here, we used cortical thickness data from 1455 individuals with ASD and 1560 controls, across 43 independent datasets of the ENIGMA consortium's ASD Working Group, to assess hemispheric asymmetries of intra-individual structural covariance networks, using graph theory-based topological metrics. Compared with typical features of small-world architecture in controls, the ASD sample showed significantly altered average asymmetry of networks involving the fusiform, rostral middle frontal, and medial orbitofrontal cortex, involving higher randomization of the corresponding right-hemispheric networks in ASD. A network involving the superior frontal cortex showed decreased right-hemisphere randomization. Based on comparisons with meta-analyzed functional neuroimaging data, the altered connectivity asymmetry particularly affected networks that subserve executive functions, language-related and sensorimotor processes. These findings provide a network-level characterization of altered left-right brain asymmetry in ASD, based on a large combined sample. Altered asymmetrical brain development in ASD may be partly propagated among spatially distant regions through structural connectivity.

Published

2022

11. Subtly altered topological asymmetry of brain structural covariance networks in autism spectrum disorder across 43 datasets from the ENIGMA consortium

Author

Mara Parellada, Beatriz Luna, Dorothea L. Floris, Bob Oranje, Merel Postema, Michela Tosetti, Paul M. Thompson, Celso Arango, Maria Jalbrzikowski, Stefan Ehrlich, Eileen Daly, Damien A. Fair, Marlene Behrmann, Jose C. Pariente, Pedro G.P. Rosa, Meiyu Duan, Zhiqiang Sha, Katya Rubia, Fábio L.S. Duran, Joseph A. King, Jacqueline Fitzgerald, Christine Deruelle, Devon Shook, Daan van Rooij, Boris C. Bernhardt, Kirsten O'Hearn, Jan K. Buitelaar, Simon E. Fisher, Geraldo F. Busatto, Alessandra Retico, Margot J. Taylor, Rosa Calvo, Neda Jahanshad, Declan G. Murphy, David C. Glahn, Christine M. Freitag, Shlomi Haar, Karl Lundin Remnélius, Luisa Lázaro, Janina Neufeld, Clyde Francks, Sarah Durston, Fengfeng Zhou, Louise Gallagher, Barbara Franke, Christine Ecker, Evdokia Anagnostou, Filippo Muratori, Sarah E. Medland, Guillaume Auzias, Liesbeth Hoekstra, Sara Calderoni, Kristiina Tammimies, Ciara Molloy, Sven Bölte, Joost Janssen, Jennifer Fedor, Jane McGrath, and Gregory L. Wallace

Subjects

Working memory, media_common.quotation_subject, Biology, Topology, Executive functions, medicine.disease, Asymmetry, Functional brain, Structural covariance, Autism spectrum disorder, Functional neuroimaging, medicine, Orbitofrontal cortex, media_common

Abstract

Small average differences in the left-right asymmetry of cerebral cortical thickness have been reported in individuals with autism spectrum disorder (ASD) compared to typically developing controls. Although these alterations affect multiple and widespread cortical regional asymmetries, the extent to which specific structural networks might be affected remains unknown. Inter-regional morphological covariance analysis can capture network connectivity relations between different cortical areas at the macroscale level. Here, we used cortical thickness data from 1,455 individuals with ASD and 1,560 controls, across 43 independent datasets of the ENIGMA consortium’s ASD Working Group, to assess hemispheric asymmetries of intra-individual structural covariance networks, using graph theory-based topological metrics. Compared with typical features of small-world architecture in controls, the ASD sample showed significantly altered asymmetry of hemispheric networks involving the fusiform, rostral middle frontal, and medial orbitofrontal cortex, driven by shifts toward higher randomization of the corresponding right-hemispheric networks in ASD. A network involving the superior frontal cortex showed decreased right-hemisphere randomization. Based on comparisons with meta-analyzed functional neuroimaging data, the altered connectivity asymmetry particularly affected networks that subserve working memory, executive functions, language, reading, and sensorimotor processes. Taken together, these findings provide new insights into how altered brain left-right asymmetry in ASD affects specific structural and functional brain networks. Altered asymmetrical brain development in ASD may be partly propagated among spatially distant regions through structural connectivity.

Published

2021

12. Subcortical brain volume, regional cortical thickness, and cortical surface area across disorders:Findings from the ENIGMA ADHD, ASD, and OCD working groups

Author

Pedro Moreira, Ruth O'Gorman Tuura, Mara Cercignani, Philip Aherson, Maria Jalbrzikowski, Kate D. Fitzgerald, Declan G. Murphy, Bernd Kardatzki, Christine Ecker, David F. Tolin, Fern Jaspers-Fayer, Pedro Morgado, Juan Carlos Soliva Vila, Kang Ik K. Cho, Kathrin Koch, Timothy J. Silk, Philip R. Szeszko, Thomas Frodl, Mara Parellada, Shlomi Haar, Eileen Daly, Bob Oranje, Anouk Schrantee, Leyla Namazova-Baranova, Joseph A. King, Beatriz Luna, Silvia Brem, Eric Earl, Alasdair Vance, Michela Tosetti, Christine Deruelle, Ramona Baur-Streubel, Jackie Fitzgerald, Kirsten O'Hearn, Michael C. Stevens, Yoshiyuki Hirano, J. Antoni Ramos-Quiroga, Erika L. Nurmi, Kaylita Chantiluke, Joseph O'Neill, Kerstin Kohls, Olga Puig, Devon Shook, Clodagh M. Murphy, Gustavo Sudre, Marlene Behrmann, Jaap Oosterlaan, Tinatin Gogberashvili, Lianne Schmaal, Carles Soriano-Mas, Liesbeth Hoekstra, Ignacio Martínez-Zalacaín, Noam Soreni, Marcel P. Zwiers, Paulo Mattos, Gregor Kohls, Andreas J. Fallgatter, Tiffany M. Chaim-Avancini, Alexander Baranov, S. Evelyn Stewart, Sara Dallaspezia, Gianfranco Spalletta, Jonna Kuntsi, Lizanne J. S. Schweren, Joel T. Nigg, Leanne Tamm, Premika S.W. Boedhoe, Adriana Di Martino, Jane McGrath, Marcelo C. Batistuzzo, Norbert Skokauskas, Filippo Muratori, John Piacentini, Jean-Paul Fouche, Sarah Baumeister, Alan Anticevic, Neil A. Harrison, Christine M. Freitag, Pedro G.P. Rosa, Stephen V. Faraone, Ana Cubillo, David Mataix-Cols, Yuki Sakai, Stefan Ehrlich, Eileen Oberwelland Weiss, Fabrizio Piras, Dirk J. Heslenfeld, Je-Yeon Yun, Paul Pauli, Catharina A. Hartman, Ganesan Venkatasubramanian, Janardhanan C. Narayanaswamy, Charles B Malpas, Jan C. Beucke, José M. Menchón, Egill A. Fridgeirsson, Margot J. Taylor, Mauricio Moller Martinho, H. Blair Simpson, Jan K. Buitelaar, Gerd Kvale, Ivanei E. Bramati, Aki Tsuchiyagaito, Susanne Walitza, Irene Bollettini, Jeffery N. Epstein, Anders M. Dale, Thomas Ethofer, Terry L. Jernigan, David Coghill, Rachel Marsh, Andreas Reif, Astri J. Lundervold, Pieter J. Hoekstra, Oana Georgiana Rus, Damiaan Denys, Gregory L. Wallace, Matt C. Gabel, Hazel McCarthy, Sarah Hohmann, Rosa Nicolau, Stephanie H. Ameis, Neda Jahanshad, Takashi Nakamae, Xin Feng, Emily R. Stern, Georg G. von Polier, Yanni Liu, Paulo Marques, Anushree Bose, Hao Hu, Sara Lera-Miguel, Deniz A. Gürsel, Jochen Seitz, Jos W. R. Twisk, Mario Rodrigues Louzã, Clare Kelly, Annette Conzelmann, Alysa E. Doyle, Odile A. van den Heuvel, Anthony A. James, Chris Perriello, Joost Janssen, Damien A. Fair, Norbert Kathmann, Francisco X. Castellanos, Paul D. Arnold, Oscar Vilarroya, Geraldo F. Busatto, Federica Piras, Pino Alonso, Akiko Nakagawa, Sarah Durston, Lena Schwarz, Mitul A. Mehta, Dan J. Stein, Celso Arango, Daan van Rooij, Ilan Dinstein, Anastasia Christakou, Klaus-Peter Lesch, Kerstin J. Plessen, Jennifer Fedor, Yolanda Vives-Gilabert, Ilaria Gori, Louise Gallagher, Brian P. Brennan, Yuqi Cheng, Barbara Franke, Sabin Khadka, Stephanie E. Novotny, Martine Hoogman, Georgii Karkashadze, Georg C. Ziegler, Yuliya N. Yoncheva, Rosa Calvo, Thomas Wolfers, Marcelo Q. Hoexter, Benjamin A. Ely, Masaru Kuno, Alessandra Retico, Yoshinari Abe, Geoffrey B. Hall, Tobias Banaschewski, Anatoly Anikin, Christine Lochner, Astrid Morer, Guido van Wingen, Jan Haavik, Joseph Biederman, Luisa Lázaro, Francesco Benedetti, Fengfeng Zhou, Guillaume Auzias, Daniel Brandeis, Dmitry Kapilushniy, Katya Rubia, Philip Shaw, Christian Kaufmann, Sara Calderoni, Marcus V. Zanetti, Anastasia Solovieva, Zhen Wang, Francesca Assogna, Jamie D. Feusner, Chaim Huyser, Fernanda Tovar-Moll, Theo G.M. van Erp, Y.C. Janardhan Reddy, Jun Soo Kwon, Yannis Paloyelis, Anna Calvo, Patricia Gruner, Kathrin C. Zierhut, Liesbeth Reneman, Tomohiro Nakao, Janita Bralten, Marie F. Høvik, Mark A. Bellgrove, Maarten Mennes, Paul M. Thompson, Institut de Neurosciences de la Timone (INT), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), Epidemiology and Data Science, Pediatric surgery, Radiology and nuclear medicine, Amsterdam Neuroscience - Compulsivity, Impulsivity & Attention, Psychiatry, APH - Methodology, APH - Health Behaviors & Chronic Diseases, Boedhoe, Premika S W, van Rooij, Daan, Hoogman, Martine, Twisk, Jos W R, Schmaal, Lianne, Abe, Yoshinari, Alonso, Pino, Ameis, Stephanie H, Anikin, Anatoly, Anticevic, Alan, Arango, Celso, Arnold, Paul D, Asherson, Philip, Assogna, Francesca, Auzias, Guillaume, Banaschewski, Tobia, Baranov, Alexander, Batistuzzo, Marcelo C, Baumeister, Sarah, Baur-Streubel, Ramona, Behrmann, Marlene, Bellgrove, Mark A, Benedetti, Francesco, Beucke, Jan C, Biederman, Joseph, Bollettini, Irene, Bose, Anushree, Bralten, Janita, Bramati, Ivanei E, Brandeis, Daniel, Brem, Silvia, Brennan, Brian P, Busatto, Geraldo F, Calderoni, Sara, Calvo, Anna, Calvo, Rosa, Castellanos, Francisco X, Cercignani, Mara, Chaim-Avancini, Tiffany M, Chantiluke, Kaylita C, Cheng, Yuqi, Cho, Kang Ik K, Christakou, Anastasia, Coghill, David, Conzelmann, Annette, Cubillo, Ana I, Dale, Anders M, Dallaspezia, Sara, Daly, Eileen, Denys, Damiaan, Deruelle, Christine, Di Martino, Adriana, Dinstein, Ilan, Doyle, Alysa E, Durston, Sarah, Earl, Eric A, Ecker, Christine, Ehrlich, Stefan, Ely, Benjamin A, Epstein, Jeffrey N, Ethofer, Thoma, Fair, Damien A, Fallgatter, Andreas J, Faraone, Stephen V, Fedor, Jennifer, Feng, Xin, Feusner, Jamie D, Fitzgerald, Jackie, Fitzgerald, Kate D, Fouche, Jean-Paul, Freitag, Christine M, Fridgeirsson, Egill A, Frodl, Thoma, Gabel, Matt C, Gallagher, Louise, Gogberashvili, Tinatin, Gori, Ilaria, Gruner, Patricia, Gürsel, Deniz A, Haar, Shlomi, Haavik, Jan, Hall, Geoffrey B, Harrison, Neil A, Hartman, Catharina A, Heslenfeld, Dirk J, Hirano, Yoshiyuki, Hoekstra, Pieter J, Hoexter, Marcelo Q, Hohmann, Sarah, Høvik, Marie F, Hu, Hao, Huyser, Chaim, Jahanshad, Neda, Jalbrzikowski, Maria, James, Anthony, Janssen, Joost, Jaspers-Fayer, Fern, Jernigan, Terry L, Kapilushniy, Dmitry, Kardatzki, Bernd, Karkashadze, Georgii, Kathmann, Norbert, Kaufmann, Christian, Kelly, Clare, Khadka, Sabin, King, Joseph A, Koch, Kathrin, Kohls, Gregor, Konrad, Kerstin, Kuno, Masaru, Kuntsi, Jonna, Kvale, Gerd, Kwon, Jun Soo, Lázaro, Luisa, Lera-Miguel, Sara, Lesch, Klaus-Peter, Hoekstra, Liesbeth, Liu, Yanni, Lochner, Christine, Louza, Mario R, Luna, Beatriz, Lundervold, Astri J, Malpas, Charles B, Marques, Paulo, Marsh, Rachel, Martínez-Zalacaín, Ignacio, Mataix-Cols, David, Mattos, Paulo, Mccarthy, Hazel, Mcgrath, Jane, Mehta, Mitul A, Menchón, José M, Mennes, Maarten, Martinho, Mauricio Moller, Moreira, Pedro S, Morer, Astrid, Morgado, Pedro, Muratori, Filippo, Murphy, Clodagh M, Murphy, Declan G M, Nakagawa, Akiko, Nakamae, Takashi, Nakao, Tomohiro, Namazova-Baranova, Leyla, Narayanaswamy, Janardhanan C, Nicolau, Rosa, Nigg, Joel T, Novotny, Stephanie E, Nurmi, Erika L, Weiss, Eileen Oberwelland, O'Gorman Tuura, Ruth L, O'Hearn, Kirsten, O'Neill, Joseph, Oosterlaan, Jaap, Oranje, Bob, Paloyelis, Yanni, Parellada, Mara, Pauli, Paul, Perriello, Chri, Piacentini, John, Piras, Fabrizio, Piras, Federica, Plessen, Kerstin J, Puig, Olga, Ramos-Quiroga, J Antoni, Reddy, Y C Janardhan, Reif, Andrea, Reneman, Liesbeth, Retico, Alessandra, Rosa, Pedro G P, Rubia, Katya, Rus, Oana Georgiana, Sakai, Yuki, Schrantee, Anouk, Schwarz, Lena, Schweren, Lizanne J S, Seitz, Jochen, Shaw, Philip, Shook, Devon, Silk, Tim J, Simpson, H Blair, Skokauskas, Norbert, Soliva Vila, Juan Carlo, Solovieva, Anastasia, Soreni, Noam, Soriano-Mas, Carle, Spalletta, Gianfranco, Stern, Emily R, Stevens, Michael C, Stewart, S Evelyn, Sudre, Gustavo, Szeszko, Philip R, Tamm, Leanne, Taylor, Margot J, Tolin, David F, Tosetti, Michela, Tovar-Moll, Fernanda, Tsuchiyagaito, Aki, van Erp, Theo G M, van Wingen, Guido A, Vance, Alasdair, Venkatasubramanian, Ganesan, Vilarroya, Oscar, Vives-Gilabert, Yolanda, von Polier, Georg G, Walitza, Susanne, Wallace, Gregory L, Wang, Zhen, Wolfers, Thoma, Yoncheva, Yuliya N, Yun, Je-Yeon, Zanetti, Marcus V, Zhou, Fengfeng, Ziegler, Georg C, Zierhut, Kathrin C, Zwiers, Marcel P, Thompson, Paul M, Stein, Dan J, Buitelaar, Jan, Franke, Barbara, van den Heuvel, Odile A, Interdisciplinary Centre Psychopathology and Emotion regulation (ICPE), Clinical Cognitive Neuropsychiatry Research Program (CCNP), Adult Psychiatry, ANS - Compulsivity, Impulsivity & Attention, Graduate School, Child Psychiatry, General Paediatrics, ARD - Amsterdam Reproduction and Development, Radiology and Nuclear Medicine, APH - Personalized Medicine, and APH - Mental Health

Subjects

Male, Research Report, Obsessive-Compulsive Disorder, Frontal cortex, Systems Analysis, Attention Deficit Hyperactivity Disorder, Autism Spectrum Disorder, [SDV]Life Sciences [q-bio], Hippocampal formation, Audiology, 0302 clinical medicine, 130 000 Cognitive Neurology & Memory, Child, Obsessive-compulsive disorder (OCD), ComputingMilieux_MISCELLANEOUS, Intelligence quotient, Psychopathology, ATTENTION-DEFICIT/HYPERACTIVITY DISORDER, ABNORMALITIES, ENIGMA, Organ Size, 3. Good health, Psychiatry and Mental health, Autism spectrum disorder, Brain size, Cohort, Female, MRI, Adult, medicine.medical_specialty, CORTEX, Adolescent, DEFICIT HYPERACTIVITY DISORDER, Human Development, Neuroimaging, behavioral disciplines and activities, Article, 03 medical and health sciences, FIELD-STRENGTH, mental disorders, medicine, MEGA-ANALYSIS, Attention deficit hyperactivity disorder, Humans, Cortical surface, Structural MRI, Attention Deficit Disorder with Hyperactivity, Cerebrum, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], business.industry, medicine.disease, 030227 psychiatry, VOXEL, Autism, business, 030217 neurology & neurosurgery

Abstract

ObjectiveAttention-deficit/hyperactivity disorder (ADHD), autism spectrum disorder (ASD), and obsessive-compulsive disorder (OCD) are common neurodevelopmental disorders that frequently co-occur. We aimed to directly compare all three disorders. The ENIGMA consortium is ideally positioned to investigate structural brain alterations across these disorders.MethodsStructural T1-weighted whole-brain MRI of controls (n=5,827) and patients with ADHD (n=2,271), ASD (n=1,777), and OCD (n=2,323) from 151 cohorts worldwide were analyzed using standardized processing protocols. We examined subcortical volume, cortical thickness and surface area differences within a mega-analytical framework, pooling measures extracted from each cohort. Analyses were performed separately for children, adolescents, and adults using linear mixed-effects models adjusting for age, sex and site (and ICV for subcortical and surface area measures).ResultsWe found no shared alterations among all three disorders, while shared alterations between any two disorders did not survive multiple comparisons correction. Children with ADHD compared to those with OCD had smaller hippocampal volumes, possibly influenced by IQ. Children and adolescents with ADHD also had smaller ICV than controls and those with OCD or ASD. Adults with ASD showed thicker frontal cortices compared to adult controls and other clinical groups. No OCD-specific alterations across different age-groups and surface area alterations among all disorders in childhood and adulthood were observed.ConclusionOur findings suggest robust but subtle alterations across different age-groups among ADHD, ASD, and OCD. ADHD-specific ICV and hippocampal alterations in children and adolescents, and ASD-specific cortical thickness alterations in the frontal cortex in adults support previous work emphasizing neurodevelopmental alterations in these disorders.

Published

2020

13. Patterns of fixation during face recognition: Differences in autism across age

Author

Jared DiCicco-Bloom, Jennifer Fedor, Andrew Lynn, Beatriz Luna, Kirsten O'Hearn, and William Foran

Subjects

Adult, Male, Adolescent, Eye Movements, Fixation, Ocular, Facial recognition system, Article, Memorization, Developmental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Group differences, Developmental and Educational Psychology, medicine, Humans, 0501 psychology and cognitive sciences, Autistic Disorder, Child, Memory test, Eye Movement Measurements, 05 social sciences, Age Factors, Fixation (psychology), medicine.disease, Gaze, Face, Eye tracking, Autism, Female, Psychology, Facial Recognition, 030217 neurology & neurosurgery, 050104 developmental & child psychology

Abstract

Difficulties with face recognition increase from adolescence to adulthood in autism, reflecting a lack of typical late development. We examined whether this reflects differences in the development of patterns of fixation to eyes and mouths during face recognition. Children, adolescents, and adults (aged 7–30) with and without autism completed the Cambridge Face Memory Test while gaze was recorded. Average duration and number of fixations were calculated for eyes and mouth regions of interest, defined individually for each face image in the task. All groups and age groups made more and longer fixations to eyes than mouths. However, during face memorization, typically developing children and adults, but not adolescents, made more fixations to eyes than did their peers with autism. During face recognition, typically developing children and adults made shorter fixations on mouths than did their peers with autism; this pattern was reversed in adolescence, with adolescents with autism making more fixations to mouths than typically developing adolescents. Results suggest that group differences in patterns of fixations to faces change with age. Furthermore, different relationships between patterns of fixations and face recognition performance in typical development and autism suggest that these differences contribute, at least in part, to difficulties in autism.

Published

2017

14. Altered structural brain asymmetry in autism spectrum disorder: large-scale analysis via the ENIGMA Consortium

Author

David C. Glahn, Pedro G.P. Rosa, Maria Jalbrzikowski, Clodagh M. Murphy, Fengfeng Zhou, Geraldo Busatto Filho, Mauricio Moller Martinho, Katya Rubia, Neda Jahanshad, Sarah Durston, Rossa Calvo, Beatriz Luna, Xin Feng, Evdokia Anagnostou, Christine Ecker, Jan K. Buitelaar, Olga Puig, Devon Shook, Margot J. Taylor, Fábio L.S. Duran, Michela Tosetti, Bob Oranje, Declan G. Murphy, Shlomi Haar, Adriana Di Martino, Jane McGrath, Mara Parellada, Paul M. Thompson, Eileen Daly, Jason P. Lerch, Stefan Ehrlich, Simon E. Fisher, Merel Postema, Marlene Behrmann, Filippo Muratori, Gregory L. Wallace, Christine M. Freitag, Sara Calderoni, Joseph A. King, Christine Deruelle, Liesbeth Hoekstra, Dorothea L. Floris, Clyde Francks, Alessandra Retico, Jackie Fitzgerald, Ilan Dinstein, Kirsten O'Hearn, Guillaume Auzias, Sarah E. Medland, Damien A. Fair, Daan van Rooij, Ilaria Gori, Louise Gallagher, Celso Arango, Jennifer Fedor, Luisa L Zaro, and Joost Janssen

Subjects

medicine.medical_specialty, business.industry, Putamen, media_common.quotation_subject, Audiology, medicine.disease, Asymmetry, 030227 psychiatry, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Neuroimaging genetics, Sample size determination, Autism spectrum disorder, Cortex (anatomy), Multiple comparisons problem, mental disorders, medicine, Brain asymmetry, business, 030217 neurology & neurosurgery, media_common

Abstract

BackgroundLeft-right asymmetry is an important organizing feature of the healthy brain. Various studies have reported altered structural brain asymmetry in autism spectrum disorder (ASD). However, findings have been inconsistent, likely due to limited sample sizes and low statistical power.MethodsWe investigated 1,774 subjects with ASD and 1,809 controls, from 54 datasets, for differences in the asymmetry of thickness and surface area of 34 cerebral cortical regions. We also examined global hemispheric measures of cortical thickness and area asymmetry, and volumetric asymmetries of subcortical structures. Data were obtained via the ASD Working Group of the ENIGMA (Enhancing NeuroImaging Genetics through Meta-Analysis) consortium. T1-weighted MRI data were processed with a single protocol using FreeSurfer and the Desikan-Killiany atlas.ResultsASD was significantly associated with reduced leftward asymmetry of total hemispheric average cortical thickness, compared to controls. Eight regional thickness asymmetries, distributed over the cortex, also showed significant associations with diagnosis after correction for multiple comparisons, for which asymmetry was again generally lower in ASD versus controls. In addition, the medial orbitofrontal surface area was less rightward asymmetric in ASD than controls, and the putamen volume was more leftward asymmetric in ASD than controls. The largest effect size had Cohen’sd= 0.15. Most effects did not depend on age, sex, IQ, or disorder severity.ConclusionAltered lateralized neurodevelopment is suggested in ASD, affecting widespread cortical regions with diverse functions. Large-scale analysis was necessary to reliably detect, and accurately describe, subtle alterations of structural brain asymmetry in this disorder.

Published

2019

15. Representational similarity analysis reveals atypical age-related changes in brain regions supporting face and car recognition in autism

Author

Beatriz Luna, Jennifer Fedor, Bart Larsen, Kirsten O'Hearn, and Andrew Lynn

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, Autism Spectrum Disorder, Cognitive Neuroscience, Human Development, Temporoparietal junction, Inferior frontal gyrus, Audiology, behavioral disciplines and activities, 050105 experimental psychology, lcsh:RC321-571, Visual processing, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Functional neuroimaging, mental disorders, medicine, Humans, 0501 psychology and cognitive sciences, Child, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Cerebral Cortex, Fusiform gyrus, Functional Neuroimaging, 05 social sciences, Age Factors, Fusiform face area, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, Neurology, Pattern Recognition, Visual, Social Perception, Autism spectrum disorder, Autism, Female, Psychology, Facial Recognition, 030217 neurology & neurosurgery

Abstract

Background Autism Spectrum Disorder (ASD) is associated with atypical activation in the ventral stream during face processing. The current study further characterizes the development of face processing in ASD using a multivoxel pattern analysis, which assesses the similarity in the representation of exemplars from the same category. Methods Ninety-two children, adolescents and adults - with and without ASD - performed the Cambridge Face Memory Test, the Australian Face Memory Test, and a matched car memory test. Regions of interest during these tasks included Fusiform Face Area (FFA), based on the literature, and additional, structurally-defined regions in the ventral stream. Group differences in the patterns of activity within these ROIs when memorizing exemplars were examined using a representational similarity analysis (RSA). Results The RSA revealed significant interactions between age group and diagnostic group in R FFA, with increasing similarity within a category (faces, cars) into adulthood typically but not in those with ASD. This pattern was also evident in structurally defined ventral stream regions, namely L inferior frontal gyrus (IFG), bilateral temporoparietal junction (TPJ), L inferior temporal lobule, and the R fusiform gyrus. Conclusions The specialization of face and object processing from adolescence to adulthood evident in typical development may be impaired in ASD, undermining the ability to reach adult-level visual processing in those with ASD.

Published

2019

16. Cortical and subcortical brain morphometry differences between patients with autism spectrum disorders (ASD) and healthy individuals across the lifespan:results from the ENIGMA-ASD working group

Author

Sarah Durston, Ilan Dinstein, Paul M. Thompson, Mara Parellada, Clodagh M. Murphy, Ilaria Gori, Mauricio Moller Martinho, Shlomi Haar, Louise Gallagher, Fengfeng Zhou, Devon Shook, Neda Jahanshad, Jackie Fitzgerald, Geraldo F. Busatto, Kirsten O'Hearn, Declan Murphy, Christine Ecker, Adriana Di Martino, Jane McGrath, Gregory L. Wallace, Evdokia Anagnostou, Celso Arango, Christine Deruelle, Eileen Daly, Katya Rubia, Christine M. Freitag, Pedro G.P. Rosa, Michela Tosetti, Jan K. Buitelaar, Bob Oranje, Margot J. Taylor, Marlene Behrmann, Maria Jalbrzikowski, Damien A. Fair, Daan van Rooij, Jennifer Fedor, Filippo Muratori, Beatriz Luna, Guillaume Auzias, Joost Janssen, Alessandra Retico, Liesbeth Hoekstra, Jason Lerch, Sara Calderoni, Fabio Luis Souza Duran, Donders Center for Cognitive Neuroimaging, Donders Centre for Cognitive Neuroimaging, Radboud university [Nijmegen]-Radboud university [Nijmegen], Human Genetics Center, The University of Texas Health Science Center at Houston (UTHealth), Psychiatry Department, Adolescent Unit, Hospital General Universitario Gregorio Marañón, Centro de Investigación Biomédica en Red de Salud Mental, CIBERSAM, Institut de Neurosciences de la Timone (INT), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), University of São Paulo (USP), NYU Langone Medical Center, University Medical Center [Utrecht], Institute of Psychiatry, Psychology & Neuroscience, King's College London, King‘s College London, Oregon Health and Science University [Portland] (OHSU), Department of Child and Adolescent Psychiatry, Psychosomatics and Psychotherapy, Goethe-Universität Frankfurt am Main, Division of Mental Health and Addiction, Oslo University Hospital [Oslo], David Geffen School of Medicine [Los Angeles], University of California [Los Angeles] (UCLA), University of California-University of California, The Hospital for sick children [Toronto] (SickKids), Instituto de Fisica (IF), Universidad Autonoma de San Luis Potosi [México] (UASLP), IRCCS Fondazione Stella Maris [Pisa], Natbrainlab, Department of Forensic and Neurodevelopmental Sciences, Institute of psychiatry-King‘s College London, University of Pittsburgh School of Medicine, Pennsylvania Commonwealth System of Higher Education (PCSHE), Instituto Superior Técnico, Universidade Técnica de Lisboa, Child Psychiatry, Laboratory of Neuro Imaging [Los Angeles] (LONI), Stella Maris, IRCCS, Department of Chemistry, University of Western Ontario, Western University, Department of Psychiatry, Radboud University Medical Center [Nijmegen], Radboud University [Nijmegen]-Radboud University [Nijmegen], Universidade de São Paulo = University of São Paulo (USP), and University of California (UC)-University of California (UC)

Subjects

Male, 0301 basic medicine, Autism Spectrum Disorder, Autism, [SDV]Life Sciences [q-bio], Audiology, 0302 clinical medicine, Reference Values, Child, ComputingMilieux_MISCELLANEOUS, Cerebral Cortex, Lifespan, Age Factors, ENIGMA, Healthy subjects, Brain, Middle Aged, Magnetic Resonance Imaging, Psychiatry and Mental health, Autism spectrum disorder, Child, Preschool, Healthy individuals, Female, Psychology, Adult, medicine.medical_specialty, Adolescent, behavioral disciplines and activities, Article, 150 000 MR Techniques in Brain Function, Young Adult, 03 medical and health sciences, Neuroimaging, Neuroimaging genetics, AUTISMO, Image Interpretation, Computer-Assisted, Healthy control, mental disorders, medicine, Humans, Brain Morphology, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Brain morphometry, medicine.disease, 030104 developmental biology, Case-Control Studies, Neuroscience, 030217 neurology & neurosurgery

Abstract

Objective:Neuroimaging studies show structural differences in both cortical and subcortical brain regions in children and adults with autism spectrum disorder (ASD) compared with healthy subjects. Findings are inconsistent, however, and it is unclear how differences develop across the lifespan. The authors investigated brain morphometry differences between individuals with ASD and healthy subjects, cross-sectionally across the lifespan, in a large multinational sample from the Enhancing Neuroimaging Genetics Through Meta-Analysis (ENIGMA) ASD working group.Method:The sample comprised 1,571 patients with ASD and 1,651 healthy control subjects (age range, 2–64 years) from 49 participating sites. MRI scans were preprocessed at individual sites with a harmonized protocol based on a validated automated-segmentation software program. Mega-analyses were used to test for case-control differences in subcortical volumes, cortical thickness, and surface area. Development of brain morphometry over the lifespan was modeled using a fractional polynomial approach.Results:The case-control mega-analysis demonstrated that ASD was associated with smaller subcortical volumes of the pallidum, putamen, amygdala, and nucleus accumbens (effect sizes [Cohen’s d], 0.13 to –0.13), as well as increased cortical thickness in the frontal cortex and decreased thickness in the temporal cortex (effect sizes, −0.21 to 0.20). Analyses of age effects indicate that the development of cortical thickness is altered in ASD, with the largest differences occurring around adolescence. No age-by-ASD interactions were observed in the subcortical partitions.Conclusions:The ENIGMA ASD working group provides the largest study of brain morphometry differences in ASD to date, using a well-established, validated, publicly available analysis pipeline. ASD patients showed altered morphometry in the cognitive and affective parts of the striatum, frontal cortex, and temporal cortex. Complex developmental trajectories were observed for the different regions, with a developmental peak around adolescence. These findings suggest an interplay in the abnormal development of the striatal, frontal, and temporal regions in ASD across the lifespan.

Published

2017

17. Lifestyle factors and oxidative stress in female infertility: is there an evidence base to support the linkage?

Author

Sajal Gupta, Kelly R Biedenharn, Jennifer Fedor, and Ashok Agarwal

Subjects

Infertility, Gynecology, medicine.medical_specialty, business.industry, media_common.quotation_subject, Female infertility, Obstetrics and Gynecology, Fertility, medicine.disease, medicine.disease_cause, Lifestyle factors, Reproductive Medicine, Cigarette smoking, Environmental health, Maternity and Midwifery, Pediatrics, Perinatology and Child Health, Medicine, Underweight, medicine.symptom, business, Adverse effect, Oxidative stress, media_common

Abstract

At present, between 10 to 15% of couples are infertile, and half of all infertility cases are credited to a female factor. Determination of the source of the problem may hold the key to improving fertility for women. Emerging research demonstrates that reactive oxygen species and oxidative stress (OS) have strong connections with female reproductive function; increases in OS which is associated with certain lifestyle factors can negatively impact female fertility. Lifestyle factors including being obese or underweight, exercising, cigarette smoking, alcohol and caffeine consumption, drug use, psychological stress and environmental and occupational exposures can all have adverse effects on fertility due to their complex interactions and impact exerted via OS on female reproductive processes. Our review highlights these linkages to explain their impact on female fertility, as well as provide suggestions to reduce OS and improve reproductive potential in women.

Published

2013

18. Ovarian endometrioma: guidelines for selection of cases for surgical treatment or expectant management

Author

Jennifer Fedor, Sajal Gupta, Molly Carnahan, and Ashok Agarwal

Subjects

Infertility, Gynecology, Laparoscopic surgery, medicine.medical_specialty, In vitro fertilisation, Reproductive surgery, business.industry, Obstetrics, medicine.medical_treatment, Endometriosis, Obstetrics and Gynecology, medicine.disease, female genital diseases and pregnancy complications, Reproductive Medicine, Maternity and Midwifery, Pediatrics, Perinatology and Child Health, medicine, Cyst, Fertility preservation, Ovarian reserve, business

Abstract

Ovarian endometrioma is a benign, estrogen-dependent cyst found in women of reproductive age. Infertility is associated with ovarian endometriomas; although the exact cause is unknown, oocyte quantity and quality are thought to be affected. The present research aims to analyze current treatment options for women with ovarian endometriomas, discuss the role of fertility preservation before surgical intervention in women with ovarian endometriomas and present guidelines for the selection of cases for surgery or expectant management. This review analyzed the factors of ovarian reserve, cyst laterality, size and location, patient age and prior surgical procedures. Based on these factors, the authors recommend three distinct treatment pathways: reproductive surgery to achieve spontaneous pregnancy following treatment, reproductive surgery to enhance IVF outcomes and expectant management with IVF.

Published

2013

19. Developmental plateau in visual object processing from adolescence to adulthood in autism

Author

Nancy J. Minshew, Jennifer Fedor, Andrew Lynn, James W. Tanaka, Beatriz Luna, and Kirsten O'Hearn

Subjects

Adult, Male, Adolescent, Cognitive Neuroscience, Face (sociological concept), Experimental and Cognitive Psychology, Object processing, Facial recognition system, behavioral disciplines and activities, Memorization, Article, Developmental psychology, Task (project management), Young Adult, Arts and Humanities (miscellaneous), Developmental and Educational Psychology, medicine, Humans, Autistic Disorder, Memory test, Child, Transition (fiction), Age Factors, Recognition, Psychology, medicine.disease, Neuropsychology and Physiological Psychology, Face, Space Perception, Autism, Female, Psychology, psychological phenomena and processes, Cognitive psychology

Abstract

A lack of typical age-related improvement from adolescence to adulthood contributes to face recognition deficits in adults with autism on the Cambridge Face Memory Test (CFMT). The current studies examine if this atypical developmental trajectory generalizes to other tasks and objects, including parts of the face. The CFMT tests recognition of whole faces, often with a substantial delay. The current studies used the immediate memory (IM) task and the parts-whole face task from the Let’s Face It! battery, which examines whole faces, face parts, and cars, without a delay between memorization and test trials. In the IM task, participants memorize a face or car. Immediately after the target disappears, participants identify the target from two similar distractors. In the part-whole task, participants memorize a whole face. Immediately after the face disappears, participants identify the target from a distractor with different eyes or mouth, either as a face part or a whole face. Results indicate that recognition deficits in autism become more robust by adulthood, consistent with previous work, and also become more general, including cars. In the IM task, deficits in autism were specific to faces in childhood, but included cars by adulthood. In the part-whole task, deficits in autism became more robust by adulthood, including both eyes and mouths as parts and in whole faces. Across tasks, the deficit in autism increased between adolescence and adulthood, reflecting a lack of typical improvement, leading to deficits with non-face stimuli and on a task without a memory delay. These results suggest that brain maturation continues to be affected into adulthood in autism, and that the transition from adolescence to adulthood is a vulnerable stage for those with autism.

Published

2014

20. Lifestyle factors and reproductive health: taking control of your fertility

Author

Ashok Agarwal, Kelly R Biedenharn, Rakesh Sharma, and Jennifer Fedor

Subjects

Infertility, Male, medicine.medical_specialty, Alcohol Drinking, media_common.quotation_subject, Reproductive medicine, Context (language use), Fertility, Review, Preventive care, Endocrinology, Environmental health, medicine, Humans, Exercise, Life Style, Reproductive health, media_common, Gynecology, business.industry, Smoking, Obstetrics and Gynecology, medicine.disease, Lifestyle factors, Reproductive Health, Caffeine consumption, Reproductive Medicine, Female, business, Developmental Biology

Abstract

Approximately 10 to 15% of couples are impacted by infertility. Recently, the pivotal role that lifestyle factors play in the development of infertility has generated a considerable amount of interest. Lifestyle factors are the modifiable habits and ways of life that can greatly influence overall health and well-being, including fertility. Many lifestyle factors such as the age at which to start a family, nutrition, weight, exercise, psychological stress, environmental and occupational exposures, and others can have substantial effects on fertility; lifestyle factors such as cigarette smoking, illicit drug use, and alcohol and caffeine consumption can negatively influence fertility while others such as preventative care may be beneficial. The present literature review encompasses multiple lifestyle factors and places infertility in context for the couple by focusing on both males and females; it aims to identify the roles that lifestyle factors play in determining reproductive status. The growing interest and amount of research in this field have made it evident that lifestyle factors have a significant impact on fertility.