ZEIDAN J N , FOMBONNE E , SCORAH J , et al . Global Prevalence of Autism:A Systematic Review Update [J ] . Autism Research , 2022 , 15 ( 5 ): 778 - 790 .

TAKUMI T , TAMADA K , HATANAKA F , et al . Behavioral Neuroscience of Autism [J ] . Neuroscience & Biobehavioral Reviews , 2020 , 110 : 60 - 76 .

ANDREO-MARTÍNEZ P , RUBIO-APARICIO M , SÁNCHEZ-MECA J , et al . A Meta-Analysis of Gut Microbiota in Children with Autism [J ] . Journal of Autism and Developmental Disorders , 2022 , 52 ( 3 ): 1374 - 1387 .

FALONY G , VANDEPUTTE D , CAENEPEEL C , et al . The Human Microbiome in Health and Disease: Hype or Hope [J ] . Acta Clinica Belgica , 2019 , 74 ( 2 ): 53 - 64 .

VUONG H E , HSIAO E Y . Emerging Roles for the Gut Microbiome in Autism Spectrum Disorder [J ] . Biological Psychiatry , 2017 , 81 ( 5 ): 411 - 423 .

AHMED H , LEYROLLE Q , KOISTINEN V , et al . Microbiota-Derived Metabolites as Drivers of Gut–Brain Communication [J ] . Gut Microbes , 2022 , 14 ( 1 ): 2102878 .

CAMPBELL S C , WISNIEWSKI P J , NOJI M , et al . The Effect of Diet and Exercise on Intestinal Integrity and Microbial Diversity in Mice [J ] . PLoS One , 2016 , 11 ( 3 ): e0150502 .

LIANG X , LI R , WONG S H S , et al . The Effects of Exercise Interventions on Executive Functions in Children and Adolescents with Autism Spectrum Disorder: A Systematic Review and Meta-Analysis [J ] . Sports Medicine , 2022 , 52 ( 1 ): 75 - 88 .

SORBONI S G , MOGHADDAM H S , JAFARZADEH-ESFEHANI R , et al . A Comprehensive Review on the Role of the Gut Microbiome in Human Neurological Disorders [J ] . Clin Microbiol Rev , 2022 , 35 ( 1 ): e0033820 .

AZOUZ H G , ZAKARIA N H E , KHALIL A F , et al . Gastrointestinal Manifestations and Their Relation to Faecal Calprotectin in Children with Autism [J ] . Przeglad Gastroenterologiczny , 2021 , 16 ( 4 ): 352 - 357 .

DE ANGELIS M , FRANCAVILLA R , PICCOLO M , et al . Autism Spectrum Disorders and Intestinal Microbiota [J ] . Gut Microbes , 2015 , 6 ( 3 ): 207 - 213 .

HSIAO E Y , MCBRIDE S W , HSIEN S , et al . Microbiota Modulate Behavioral and Physiological Abnormalities Associated with Neurodevelopmental Disorders [J ] . Cell , 2013 , 155 ( 7 ): 1451 - 1463 .

ADAMS J B , JOHANSEN L J , POWELL L D , et al . Gastrointestinal Flora and Gastrointestinal Status in Children with Autism—Comparisons to Typical Children and Correlation with Autism Severity [J ] . BMC Gastroenterology , 2011 , 11 : 22 .

AVERINA O V , KOVTUN A S , POLYAKOVA S I , et al . The Bacterial Neurometabolic Signature of the Gut Microbiota of Young Children with Autism Spectrum Disorders [J ] . Journal of Medical Microbiology , 2020 , 69 ( 4 ): 558 - 571 .

CAMPANIELLO D , CORBO M R , SINIGAGLIA M , et al . How Diet and Physical Activity Modulate Gut Microbiota: Evidence, and Perspectives [J ] . Nutrients , 2022 , 14 ( 12 ): 2456 .

REN J , GUO B , SUI H , et al . The Effects of Aerobic Exercise on the Intestinal Tumors and Flora of the ApcMin/+ Mouse [J ] . Clinical and Translational Oncology , 2022 , 24 ( 2 ): 305 - 318 .

MORITA E , YOKOYAMA H , IMAI D , et al . Aerobic Exercise Training with Brisk Walking Increases Intestinal Bacteroides in Healthy Elderly Women [J ] . Nutrients , 2019 , 11 ( 4 ): 868 .

程鹏 . 抗阻训练对抑郁倾向女大学生肠道菌群及情绪影响研究 [D ] . 重庆 : 西南大学 , 2020 .

MAILING L J , ALLEN J M , BUFORD T W , et al . Exercise and the Gut Microbiome: A Review of the Evidence, Potential Mechanisms, and Implications for Human Health [J ] . Exercise and Sport Sciences Reviews , 2019 , 47 ( 2 ): 75 - 85 .

CRONIN O , BARTON W , SKUSE P , et al . A Prospective Metagenomic and Metabolomic Analysis of the Impact of Exercise and/or Whey Protein Supplementation on the Gut Microbiome of Sedentary Adults [J ] . mSystems , 2018 , 3 ( 3 ): e00044-18 .

XUE Y Q , AN S S , QIU W H , et al . Exercise Changes Gut Microbiota: A New Idea to Explain that Exercise Improves Autism [J ] . International Journal of Sports Medicine , 2023 , 44 ( 7 ): 473 - 483 .

DAN Z , MAO X H , LIU Q S , et al . Altered Gut Microbial Profile is Associated with Abnormal Metabolism Activity of Autism Spectrum Disorder [J ] . Gut Microbes , 2020 , 11 ( 5 ): 1246 - 1267 .

STRANDWITZ P , KIM K H , TEREKHOVA D , et al . GABA-Modulating Bacteria of the Human Gut Microbiota [J ] . Nature Microbiology , 2019 , 4 ( 3 ): 396 - 403 .

CHUA H H , CHOU H C , TUNG Y L , et al . Intestinal Dysbiosis Featuring Abundance of Ruminococcus Gnavus Associates with Allergic Diseases in Infants [J ] . Gastroenterology , 2018 , 154 ( 1 ): 154 - 167 .

QUIROGA R , NISTAL E , ESTÉBANEZ B , et al . Exercise Training Modulates the Gut Microbiota Profile and Impairs Inflammatory Signaling Pathways in Obese Children [J ] . Experimental & Molecular Medicine , 2020 , 52 ( 7 ): 1048 - 1061 .

BONOMINI-GNUTZMANN R , PLAZA-DÍAZ J , JORQUERA-AGUILERA C , et al . Effect of Intensity and Duration of Exercise on Gut Microbiota in Humans: A Systematic Review [J ] . Int J Environ Res Public Health , 2022 , 19 ( 15 ): 9518 .