Respiratory and autonomic dysfunction in children with autism spectrum disorders

INTRODUCTION Cardiac parasympathetic hypofunction has been reported in autism spectrum disorders (ASD). This usually is linked to respiratory dysrhythmia which has been documented in some children with ASD. OBJECTIVES This study evaluated the cardiorespiratory functions in ASD to elucidate the physiologic basis of behaviors. METHODS Nineteen children with ASD and 18 age matched controls underwent autonomic function monitoring at a defined resting state using the NeuroScope. The non-invasive real time beat-to-beat blood pressure was measured by Portapres and fed into the NeuroScope where heart rate, cardiac vagal tone and cardiac sensitivity to baroreceptor were derived from the EKG and blood pressure waveforms using the Vagosoft software; and respiratory rate and rhythm were measured simultaneously by plethysmograph. Respiration was analyzed breath by breath using our prior published methods. RESULTS Various respiratory dysrhythmias, particularly Biot's and Cheyne-Stokes respiration, were detected in children with ASD, who also exhibited greater variability in respiratory rhythm and amplitudes than controls. The respiratory dysrhythmia in children with ASD was associated with a lower cardiac vagal activity. CONCLUSION The Biot's breathing and Cheyne-Stokes respiration coupled with cardiac vagal hypofunction in ASD suggest a brainstem dysfunction consistent with our previous findings. The low parasympathetic activity could explain in part the chronic sensory hyperarousal state in children with ASD.

[1]  W. Cheshire Highlights in clinical autonomic neuroscience: New insights into autonomic dysfunction in autism , 2012, Autonomic Neuroscience.

[2]  Jason H. Mateika,et al.  Control of breathing. , 1970, British medical journal.

[3]  P. Novak,et al.  Influence of respiration on heart rate and blood pressure fluctuations. , 1993, Journal of applied physiology.

[4]  Charles Herbert Best,et al.  The physiological basis of medical practice , 1937 .

[5]  James A. Roberts,et al.  Biophysical Mechanisms of Multistability in Resting-State Cortical Rhythms , 2011, The Journal of Neuroscience.

[6]  D. Weese-Mayer,et al.  Pediatric Autonomic Disorders , 2006, Pediatrics.

[7]  S. Telles,et al.  Changes in autonomic variables following two meditative states described in yoga texts. , 2013, Journal of alternative and complementary medicine.

[8]  Debra E Weese-Mayer,et al.  Autonomic Nervous System Dysregulation: Breathing and Heart Rate Perturbation During Wakefulness in Young Girls with Rett Syndrome , 2006, Pediatric Research.

[9]  Monitoring the autonomic nervous activity as the objective evaluation of music therapy for severely and multiply disabled children. , 2012, The Tohoku journal of experimental medicine.

[10]  J. Posner Plum and Posner's Diagnosis of Stupor and Coma , 1982 .

[11]  C. Hutt,et al.  Arousal and Childhood Autism , 1964, Nature.

[12]  M. Brimacombe,et al.  Autism Spectrum Disorders: Concurrent Clinical Disorders , 2008, Journal of child neurology.

[13]  Xue Ming,et al.  Reduced cardiac parasympathetic activity in children with autism , 2005, Brain and Development.

[14]  P. Julu,et al.  A linear scale for measuring vagal tone in man. , 1992, Journal of autonomic pharmacology.

[15]  R. Maestri,et al.  A hybrid approach for continuous detection of sleep‐wakefulness fluctuations: validation in patients with Cheyne–Stokes respiration , 2012, Journal of sleep research.

[16]  Jeffrey C. Smith,et al.  Respiratory rhythm generation in vivo. , 2014, Physiology.

[17]  Z R Struzik,et al.  Autonomic Imbalance Induced Breakdown of Long-range Dependence in Healthy Heart Rate , 2007, Methods of Information in Medicine.

[18]  D. Southall,et al.  Hyperventilation in the awake state: potentially treatable component of Rett syndrome. , 1988, Archives of disease in childhood.

[19]  S. Hansen,et al.  Cardiorespiratory challenges in Rett's syndrome , 2008, The Lancet.

[20]  P. Julu,et al.  Assessment of the maturity-related brainstem functions reveals the heterogeneous phenotypes and facilitates clinical management of Rett syndrome , 2005, Brain and Development.

[21]  D. Eckberg,et al.  Important influence of respiration on human R-R interval power spectra is largely ignored. , 1993, Journal of applied physiology.

[22]  C. Gennings,et al.  The Moderating Role of Sensory Overresponsivity in HPA Activity , 2010, Journal of attention disorders.

[23]  M. Poe,et al.  Hyperresponsive sensory patterns in young children with autism, developmental delay, and typical development. , 2007, American journal of mental retardation : AJMR.

[24]  Chih-Ping Chou,et al.  Autonomic and behavioral responses of children with autism to auditory stimuli. , 2012, The American journal of occupational therapy : official publication of the American Occupational Therapy Association.

[25]  W. Dunn,et al.  Sensory processing in children with and without autism: a comparative study using the short sensory profile. , 2007, The American journal of occupational therapy : official publication of the American Occupational Therapy Association.

[26]  M. Toichi,et al.  Paradoxical Autonomic Response to Mental Tasks in Autism , 2003, Journal of autism and developmental disorders.

[27]  B. Fink,et al.  Influence of cerebral activity in wakefulness on regulation of breathing. , 1962, Journal of applied physiology.