Trials / Completed

CompletedNCT00101777

Ventilatory Physiology in Children at Risk for Anxiety

Summary

The importance of the proposed research project derives from a steady accumulation of research findings on the relationship between respiration and anxiety. The relationship between panic disorder and abnormalities in respiration has been recognized for more than 10 years. Increased sensitivity to CO2 exposure in panic disorder represents the most consistent finding supporting this relationship. The current proposal follows naturally from three sets of recent research findings in the area of panic disorder. First, our group has recently shown that children with anxiety disorders, like adults with panic disorder, exhibit increased sensitivity to CO2. Second, other researchers have shown that psychiatrically healthy relatives of patients with panic disorder also exhibit increased sensitvity to CO2. Finally, our group has also recently shown that children of adults with panic disorder exhibit high rates of anxiety disorders, particularly separation anxiety disorder, the childhood anxiety disorder which exhibits the highest degree of CO2 sensitivity. These three findings suggest that children of parents with panic disorder may exhibit a latent vulnerability to panic disorder, manifested as increased sensitivity to CO2. A secondary feature of the proposed research project derives from a steady accumulation of research findings in basic science literature outlining the parts of the brain that mediate fear and anxiety in animals. It may be possible to use insights from research on the brain basis of fear in animals to develop methods for assessing the brain basis of fear in humans. Moreover, work in animals notes changes in brain systems that mediate fear and anxiety across development. If development. If developmentally sensitive methods could be used to study fear in children, it may also be possible to greatly enhance our understanding of the manner in which the relationship between brain function and fear changes as children age. If similarities could be demonstrated across animals and humans in these areas, new insights on potential treatments for anxiety could be more readily transferred from the laboratory to the clinic. A second goal of the current proposal is to refine two neuropsychological probes that are thought to assess functional aspects of brain systems implicated in fear and anxiety across various species, from rodents to humans.

Detailed description

The importance of the proposed research project derives from a steady accumulation of research findings on the relationship between respiration and anxiety. The relationship between panic disorder and abnormalities in respiration has been recognized for more than 10 years. Increased sensitivity to CO2 exposure in panic disorder represents the most consistent finding supporting this relationship. The current proposal follows naturally from three sets of recent research findings in the area of panic disorder. First, our group has recently shown that children with anxiety disorders, like adults with panic disorder, exhibit increased sensitivity to CO2. Second, other researchers have shown that psychiatrically healthy relatives of patients with panic disorder also exhibit increased sensitvity to CO2. Finally, our group has also recently shown that children of adults with panic disorder exhibit high rates of anxiety disorders, particularly separation anxiety disorder, the childhood anxiety disorder which exhibits the highest degree of CO2 sensitivity. These three findings suggest that children of parents with panic disorder may exhibit a latent vulnerability to panic disorder, manifested as increased sensitivity to CO2. A secondary feature of the proposed research project derives from a steady accumulation of research findings in basic science literature outlining the parts of the brain that mediate fear and anxiety in animals. It may be possible to use insights from research on the brain basis of fear in animals to develop methods for assessing the brain basis of fear in humans. Moreover, work in animals notes changes in brain systems that mediate fear and anxiety across development. If developmentally sensitive methods could be used to study fear in children, it may also be possible to greatly enhance our understanding of the manner in which the relationship between brain function and fear changes as children age. If similarities could be demonstrated across animals and humans in these areas, new insights on potential treatments for anxiety could be more readily transferred from the laboratory to the clinic. A second goal of the current proposal is to refine two neuropsychological probes that are thought to assess functional aspects of brain systems implicated in fear and anxiety across various species, from rodents to humans.

Conditions

• Anxiety
• Panic Disorder

Timeline

Start date

2001-12-01

Completion

2005-11-01

First posted

2005-01-13

Last updated

2008-03-04

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT00101777. Inclusion in this directory is not an endorsement.