Long-term Lung Function and Disease Progression in Children With Early Onset Primary Ciliary Dyskinesia Lung Disease
Status: | Recruiting |
---|---|
Conditions: | Pulmonary |
Therapuetic Areas: | Pulmonary / Respiratory Diseases |
Healthy: | No |
Age Range: | Any - 4 |
Updated: | 2/8/2019 |
Start Date: | July 2008 |
End Date: | August 2019 |
Contact: | Kelli Sullivan, MPH |
Email: | kelli_sullivan@med.unc.edu |
Phone: | 919-966-0713 |
Early Onset and Progression of Primary Ciliary Dyskinesia Lung Disease Prior to 10 Years of Age
Primary ciliary dyskinesia (PCD), also known as Kartagener syndrome, is a genetic disorder of
the cilia, which are microscopic hair-like cells. Cilia work to keep the respiratory system
clean by moving mucus that contains debris to the large airways, where it can be coughed out.
People with PCD have cilia that do not move properly and therefore are not effective in
cleaning the respiratory system. This study will determine when PCD starts and how it changes
over time, specifically in terms of how well the lungs work, what germs grow in lung
secretions, and how the lungs look on computed tomography (CT) scans.
the cilia, which are microscopic hair-like cells. Cilia work to keep the respiratory system
clean by moving mucus that contains debris to the large airways, where it can be coughed out.
People with PCD have cilia that do not move properly and therefore are not effective in
cleaning the respiratory system. This study will determine when PCD starts and how it changes
over time, specifically in terms of how well the lungs work, what germs grow in lung
secretions, and how the lungs look on computed tomography (CT) scans.
PCD, or Kartagener syndrome, is a genetic disorder that causes hair-like cells called cilia
to move improperly, or in some cases, not at all. Cilia are needed to help clear the
respiratory system of pollutants. When they work properly, they move debris-filled mucus into
the large airways, allowing the debris to be coughed out of the body. When the cilia do not
work properly, the body cannot rid itself of debris and is left vulnerable to serious
infections in the sinuses, ears, and lungs. Over time, repeated infections can lead to
scarring and permanent obstruction of these body areas. This study will determine when PCD
starts and how it changes over time, specifically in terms of how well the lungs work, what
germs grow in lung secretions, and how the lungs look on CT scans. This research may lead to
a better understanding of PCD and thereby help doctors improve clinical management of the
disease.
Children in this study will attend six study visits over 5 years. At the first visit, parents
will review their child's medical and cough history with doctors. Also at this visit,
children will undergo a physical exam that will include measures of temperature, blood
pressure, heart rate, respiration rate, and oxygen saturation level. Additional procedures
will include collection of a respiratory mucus sample or a throat culture, measurement of
nasal nitric oxide, collection of blood and urine for specimen banking, a CT scan, and lung
function testing. Children younger than 3 years of age will undergo the scan and lung
function test under sedation. Children older than 3 years of age will not receive sedation.
CT scans will be performed at the initial visit and during the visits 3 and 5 for children
older than 3. For children younger than 3 years, chest CT scans will be performed at the
initial visit and during visits 4 and 6. Lung function tests and blood and urine collection
may be repeated at some of the remaining yearly visits. Between yearly visits, parents will
track on a calendar their children's use of oral, inhaled, and intravenous antibiotics.
to move improperly, or in some cases, not at all. Cilia are needed to help clear the
respiratory system of pollutants. When they work properly, they move debris-filled mucus into
the large airways, allowing the debris to be coughed out of the body. When the cilia do not
work properly, the body cannot rid itself of debris and is left vulnerable to serious
infections in the sinuses, ears, and lungs. Over time, repeated infections can lead to
scarring and permanent obstruction of these body areas. This study will determine when PCD
starts and how it changes over time, specifically in terms of how well the lungs work, what
germs grow in lung secretions, and how the lungs look on CT scans. This research may lead to
a better understanding of PCD and thereby help doctors improve clinical management of the
disease.
Children in this study will attend six study visits over 5 years. At the first visit, parents
will review their child's medical and cough history with doctors. Also at this visit,
children will undergo a physical exam that will include measures of temperature, blood
pressure, heart rate, respiration rate, and oxygen saturation level. Additional procedures
will include collection of a respiratory mucus sample or a throat culture, measurement of
nasal nitric oxide, collection of blood and urine for specimen banking, a CT scan, and lung
function testing. Children younger than 3 years of age will undergo the scan and lung
function test under sedation. Children older than 3 years of age will not receive sedation.
CT scans will be performed at the initial visit and during the visits 3 and 5 for children
older than 3. For children younger than 3 years, chest CT scans will be performed at the
initial visit and during visits 4 and 6. Lung function tests and blood and urine collection
may be repeated at some of the remaining yearly visits. Between yearly visits, parents will
track on a calendar their children's use of oral, inhaled, and intravenous antibiotics.
Inclusion Criteria:
- Younger than 5 years of age
- Diagnosis of PCD or probable PCD based on criteria listed above
- Parent or legal guardian willing to give informed consent
Exclusion Criteria:
- Unable to attend follow-up appointments
- History of lung transplant
- Any co-existing severe diseases that may have significant impact on lung function,
respiratory infections, or overall health status (i.e., severe congenital heart
disease, severe scoliosis, AIDS, cancer, or end-stage kidney disease)
We found this trial at
6
sites
Saint Louis, Missouri 63110
Principal Investigator: Thomas Ferkol, MD
Phone: 314-454-2162
Click here to add this to my saved trials
Chapel Hill, North Carolina 27599
(919) 962-2211
Principal Investigator: Margaret Leigh, MD
Phone: 919-966-7065
University of North Carolina at Chapel Hill Carolina’s vibrant people and programs attest to the...
Click here to add this to my saved trials
Denver, Colorado 80218
Principal Investigator: Scott Sagel, MD
Phone: 720-777-2613
Click here to add this to my saved trials
Palo Alto, California 94304
Principal Investigator: Carlos E. Milla, MD
Phone: 650-721-1132
Click here to add this to my saved trials
Seattle, Washington 98105
Principal Investigator: Margaret Rosenfeld, MD, MPH
Phone: 206-987-5914
Click here to add this to my saved trials
555 University Avenue
Toronto, Ontario M5G 1X8
Toronto, Ontario M5G 1X8
Principal Investigator: Sharon Dell, MD
Phone: 416-813-5587
Click here to add this to my saved trials