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| Name | Class |
|---|---|
| Latham Centers | UNKNOWN |
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The Polyvagal Theory focuses on how function and structure changed in the vertebrate autonomic nervous system during evolution. The theory is named for the vagus, a major cranial nerve that regulates bodily state. As a function of evolution, humans and other mammals have a "new" vagal pathway that links the regulation of bodily state to the control of the muscles of the face and head including the middle ear muscles. These pathways regulating body state, facial gesture, listening (i.e., middle ear muscles), and vocal communication collectively function as a Social Engagement System (SES). Because the Social Engagement System is an integrated system, interventions influencing one component of this system (e.g., middle ear muscles) may impact on the other components.
Individuals with Prader-Willi Syndrome (PWS) exhibit many behaviors that are consistent with a compromised Social Engagement System. Atypical function of the Social Engagement System results in problems associated with state regulation (e.g., impulsivity, tantrums, and difficulty with change in routine), ingestion (e.g., difficulties in sucking at birth, hyperphagia), coordination of suck/swallow/breathe, intonation of vocalizations, auditory processing and hypersensitivity, and socialization. We propose to confirm that several features of the behavioral phenotype of PWS may be explained within the context of a dysfunctional SES (Specific Aim I), which may be partially rehabilitated via an intervention designed as a 'neural exercise' of the SES (Specific Aim II).
Specific Aims:
Aim I: To demonstrate that children with PWS have atypical regulation of the SES. We hypothesize these effects will be manifested by dampened vagal regulation of the heart (low parasympathetic tone); poor middle ear muscle regulation resulting in auditory hypersensitivities and poor auditory processing; lack of voice intonation (prosody), and difficulties in accurately detecting the emotions of others.
Aim II: To demonstrate the effectiveness of the Listening Project Protocol (LPP) in decreasing the atypical features of the SES in adolescents with PWS. We hypothesize that individuals who complete the LPP will have improved vagal regulation of the heart, improved middle ear muscle regulation, increased voice intonation and improved ability to accurately detect the emotions of others.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Filtered Music Intervention | Experimental | All participants will participate in pre-intervention assessments (6 months, 1 week prior) and post-intervention assessments (1 week, 1 month post). The Filtered Music Intervention (i.e., Listening Project Protocol) will last for 1 hour per day, for 5 consecutive days. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Listening Project Protocol | Behavioral | The filtered music intervention will consist of listening to computer-altered acoustic stimulation, designed to modulate the frequency band of vocal music passed to the participant. The frequency characteristics of the acoustic stimulation are selected to emphasize the relative importance of specific frequencies in conveying the information embedded in human speech Modulation of the acoustic energy within the frequencies of human voice, similar to an exaggerated vocal prosody, are hypothesized to recruit and modulate the neural regulation of the middle ear muscles and to functionally reduce sound hypersensitivities and improve auditory processing. |
| Measure | Description | Time Frame |
|---|---|---|
| Effect of Intervention on Autonomic regulation | Respiratory sinus arrhythmia (RSA) | Change from 1 week pre-intervention RSA to 1 month post-intervention |
| Measure | Description | Time Frame |
|---|---|---|
| Effect of Intervention on Heart period | heart period | Change from 1 week pre-intervention heart period to 1 month post-intervention |
| Effect of Intervention on Auditory processing | Filtered Words subtest of SCAN |
| Measure | Description | Time Frame |
|---|---|---|
| Stability of Autonomic regulation | Respiratory sinus arrhythmia (RSA) | Change from 6 months pre-intervention RSA to 1 week pre-intervention |
| Immediate effects of intervention on Autonomic regulation | Respiratory sinus arrhythmia (RSA) |
Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Stephen W Porges, PhD | Indiana University/Kinsey Institute | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Latham Centers School | Brewster | Massachusetts | 02631 | United States |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 19885725 | Background | Bal E, Harden E, Lamb D, Van Hecke AV, Denver JW, Porges SW. Emotion recognition in children with autism spectrum disorders: relations to eye gaze and autonomic state. J Autism Dev Disord. 2010 Mar;40(3):358-70. doi: 10.1007/s10803-009-0884-3. | |
| 2667133 | Background | Borg E, Counter SA. The middle-ear muscles. Sci Am. 1989 Aug;261(2):74-80. doi: 10.1038/scientificamerican0889-74. No abstract available. |
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| ID | Term |
|---|---|
| D011218 | Prader-Willi Syndrome |
| D001146 | Arrhythmia, Sinus |
| D012919 | Social Behavior |
| D003919 | Diabetes Insipidus |
| D012001 | Hyperacusis |
| ID | Term |
|---|---|
| D008607 | Intellectual Disability |
| D019954 | Neurobehavioral Manifestations |
| D009461 | Neurologic Manifestations |
| D009422 | Nervous System Diseases |
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All participants will receive the active (filtered music) intervention.
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No masking.
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|
| Change from 1 week pre-intervention Filtered Words to 1 month post-intervention |
| Effect of Intervention on Auditory processing | Competing Words subtest of SCAN | Change from 1 week pre-intervention Competing Words to 1 month post-intervention |
| Effect of Intervention on Sensory Sensitivities | BBC Sensory Scales (questionnaire) | Change from 1 week pre-intervention BBC Sensory Scales to 1 month post-intervention |
| Effect of Intervention on Latency to Affect recognition | Dynamic Affect Recognition Evaluation (DARE) - latency | Change from 1 week pre-intervention DARE (latency) to 1 month post-intervention |
| Effect of Intervention on Accuracy of Affect recognition | Dynamic Affect Recognition Evaluation (DARE) - accuracy | Change from 1 week pre-intervention DARE (accuracy) to 1 month post-intervention |
| Effect of Intervention on Prosody | Analyses of vocal recordings | Change from 1 week pre-intervention Prosody to 1 month post-intervention |
| Effect of Intervention on Disruptive Behavior | Developmental Behavior Checklist (DBC) (questionnaire) | Change from 1 week pre-intervention DBC to 1 month post-intervention |
| Effect of Intervention on Social behavior | Listening Project Parent (LPP) Questionnaire | Change from 1 week post-intervention LPP to 1 month post-intervention |
| Effect of Intervention on Oxytocin | oxytocin levels derived from salivary sample | Change from 1 week pre-intervention oxytocin to 1 month post-intervention |
| Effect of Intervention on Vasopressin | vasopressin levels derived from salivary sample | Change from 1 week pre-intervention vasopressin to 1 month post-intervention |
| Change from 1 week pre-intervention RSA to 1 week post-intervention |
| Short-term effects of intervention on Autonomic regulation | Respiratory sinus arrhythmia (RSA) | Change from 1 week post-intervention RSA to 1 month post-intervention |
| Stability of Heart period | heart period | Change from 6 months pre-intervention heart period to 1 week pre-intervention |
| Immediate effects of intervention on Heart period | heart period | Change from 1 week pre-intervention heart period to 1 week post-intervention |
| Short-term effects of intervention on Heart period | heart period | Change from 1 week post-intervention heart period to 1 month post-intervention |
| Stability of Auditory processing | Filtered Words subtest of SCAN | Change from 6 months pre-intervention Filtered Words to 1 week pre-intervention |
| Immediate effects of intervention on Auditory processing | Filtered Words subtest of SCAN | Change from 1 week pre-intervention Filtered Words to 1 week post-intervention |
| Short-term effects of intervention on Auditory processing | Filtered Words subtest of SCAN | Change from 1 week post-intervention Filtered Words to 1 month post-intervention |
| Stability of Auditory processing | Competing Words subtest of SCAN | Change from 6 months pre-intervention Competing Words to 1 week pre-intervention |
| Immediate effects of intervention on Auditory processing | Competing Words subtest of SCAN | Change from 1 week pre-intervention Competing Words to 1 week post-intervention |
| Short-term effects of intervention on Auditory processing | Competing Words subtest of SCAN | Change from 1 week post-intervention Competing Words to 1 month post-intervention |
| Stability of Sensory Sensitivities | BBC Sensory Scales (questionnaire) | Change from 6 months pre-intervention BBC Sensory Scales to 1 week pre-intervention |
| Stability of Latency to Affect recognition | Dynamic Affect Recognition Evaluation (DARE) - latency | Change from 6 months pre-intervention DARE latency to 1 week pre-intervention |
| Immediate effects of intervention on Latency to Affect recognition | Dynamic Affect Recognition Evaluation (DARE) - latency | Change from 1 week pre-intervention DARE latency to 1 week post-intervention |
| Short-term effects of intervention on Latency to Affect recognition | Dynamic Affect Recognition Evaluation (DARE) - latency | Change from 1 week post-intervention DARE latency to 1 month post-intervention |
| Stability of Accuracy of Affect recognition | Dynamic Affect Recognition Evaluation (DARE) - accuracy | Change from 6 months pre-intervention DARE accuracy to 1 week pre-intervention |
| Immediate effects of intervention on Accuracy of Affect recognition | Dynamic Affect Recognition Evaluation (DARE) - accuracy | Change from 1 week pre-intervention DARE accuracy to 1 week post-intervention |
| Short-term effects of intervention on Accuracy of Affect recognition | Dynamic Affect Recognition Evaluation (DARE) - accuracy | Change from 1 week post-intervention DARE accuracy to 1 month post-intervention |
| Stability of Prosody | Analyses of vocal recordings | Change from 6 months pre-intervention prosody to 1 week pre-intervention |
| Immediate effects of intervention on Prosody | Analyses of vocal recordings | Change from 1 week pre-intervention prosody to 1 week post-intervention |
| Short-term effects of intervention on Prosody | Analyses of vocal recordings | Change from 1 week post-intervention prosody to 1 month post-intervention |
| Stability of Disruptive behavior | Developmental Behavior Checklist (DBC) (questionnaire) | Change from 6 months pre-intervention DBC to 1 week pre-intervention |
| Immediate effects of intervention on Disruptive behavior | Developmental Behavior Checklist (DBC) (questionnaire) | Change from 1 week pre-intervention DBC to 1 week post-intervention |
| Short-term effects of intervention on Disruptive behavior | Developmental Behavior Checklist (DBC) (questionnaire) | Change from 1 week post-intervention DBC to 1 month post-intervention |
| Stability of Oxytocin | oxytocin levels derived from salivary sample | Change from 6 months pre-intervention oxytocin to 1 week pre-intervention |
| Stability of Vasopressin | vasopressin levels derived from salivary sample | Change from 6 months pre-intervention vasopressin to 1 week pre-intervention |
| 22138367 | Background | Lewis GF, Furman SA, McCool MF, Porges SW. Statistical strategies to quantify respiratory sinus arrhythmia: are commonly used metrics equivalent? Biol Psychol. 2012 Feb;89(2):349-64. doi: 10.1016/j.biopsycho.2011.11.009. Epub 2011 Dec 3. |
| 11587772 | Background | Porges SW. The polyvagal theory: phylogenetic substrates of a social nervous system. Int J Psychophysiol. 2001 Oct;42(2):123-46. doi: 10.1016/s0167-8760(01)00162-3. |
| 23201146 | Background | Porges SW, Macellaio M, Stanfill SD, McCue K, Lewis GF, Harden ER, Handelman M, Denver J, Bazhenova OV, Heilman KJ. Respiratory sinus arrhythmia and auditory processing in autism: modifiable deficits of an integrated social engagement system? Int J Psychophysiol. 2013 Jun;88(3):261-70. doi: 10.1016/j.ijpsycho.2012.11.009. Epub 2012 Nov 29. |
| 25136545 | Background | Porges SW, Bazhenova OV, Bal E, Carlson N, Sorokin Y, Heilman KJ, Cook EH, Lewis GF. Reducing auditory hypersensitivities in autistic spectrum disorder: preliminary findings evaluating the listening project protocol. Front Pediatr. 2014 Aug 1;2:80. doi: 10.3389/fped.2014.00080. eCollection 2014. |
| D000015 | Abnormalities, Multiple |
| D000013 | Congenital Abnormalities |
| D009358 | Congenital, Hereditary, and Neonatal Diseases and Abnormalities |
| D025063 | Chromosome Disorders |
| D030342 | Genetic Diseases, Inborn |
| D000096803 | Imprinting Disorders |
| D009765 | Obesity |
| D050177 | Overweight |
| D044343 | Overnutrition |
| D009748 | Nutrition Disorders |
| D009750 | Nutritional and Metabolic Diseases |
| D001145 | Arrhythmias, Cardiac |
| D006331 | Heart Diseases |
| D002318 | Cardiovascular Diseases |
| D010335 | Pathologic Processes |
| D013568 | Pathological Conditions, Signs and Symptoms |
| D001519 | Behavior |
| D007674 | Kidney Diseases |
| D014570 | Urologic Diseases |
| D052776 | Female Urogenital Diseases |
| D005261 | Female Urogenital Diseases and Pregnancy Complications |
| D000091642 | Urogenital Diseases |
| D052801 | Male Urogenital Diseases |
| D010900 | Pituitary Diseases |
| D004700 | Endocrine System Diseases |
| D006311 | Hearing Disorders |
| D004427 | Ear Diseases |
| D010038 | Otorhinolaryngologic Diseases |
| D012678 | Sensation Disorders |
| D012816 | Signs and Symptoms |