Biological Clock Dysfunction in Optic Nerve Hypoplasia
Recruitment status was Recruiting
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Purpose
Background: Optic Nerve Hypoplasia (ONH) is a leading cause of blindness in children. For unclear reasons, the incidence of ONH is increasing, with ONH affecting about 1 in 10,000 live-born infants. In addition to visual deficits, ONH is associated with varying degrees of hypopituitarism, developmental delay, brain malformations and obesity. Although genetic mutations have been rarely observed to result in ONH, the causes of ONH are largely not known. In limited anatomical observations, the suprachiasmatic nuclei (SCN) located in the anterior hypothalamus, which generate circadian rhythms, have been observed to be abnormal in children with ONH. Thus, children with ONH may have biological clock dysfunction.
In collaborative studies with Dr. Mark Borchert of Childrens Hospital Los Angeles (CHLA), we have recently discovered that one-half of children with ONH have grossly abnormal sleep-wake patterns, as assessed by actigraphy. Although not known for children with ONH, abnormal sleep-wake patterns have been observed to be associated with neurocognitive impairment and obesity. We also observe that nocturnal melatonin administration can improve abnormal sleep-wake cycles in these children, raising the possibility that it will be possible to treat abnormal rhythmicity in children with ONH.
| Condition | Intervention | Phase |
|---|---|---|
|
Biological Clock Dysfunction Optic Nerve Hypoplasia |
Dietary Supplement: Melatonin Dietary Supplement: Placebo Comparator |
Phase 0 |
| Study Type: | Interventional |
| Study Design: | Allocation: Randomized Endpoint Classification: Efficacy Study Intervention Model: Crossover Assignment Masking: Double Blind (Subject, Investigator) Primary Purpose: Diagnostic |
| Official Title: | Identification and Treatment of Biological Clock Dysfunction in Optic Nerve Hypoplasia |
- Assessment of rest-activity patterns [ Time Frame: two years ] [ Designated as safety issue: No ]
| Estimated Enrollment: | 100 |
| Study Start Date: | October 2008 |
| Estimated Study Completion Date: | September 2011 |
| Estimated Primary Completion Date: | September 2011 (Final data collection date for primary outcome measure) |
| Arms | Assigned Interventions |
|---|---|
|
Active Comparator: 1
Individuals with abnormal rhythmicity will be treated with melatonin to assess if sleep patterns are improved.
|
Dietary Supplement: Melatonin
Oral administration before bed. We will test two doses (0.5 or 3.0 mg/m2. 6 week duration.)
|
| Placebo Comparator: 2 |
Dietary Supplement: Placebo Comparator
Oral administration before bed. 6 week duration.
|
Detailed Description:
Objectives and Hypotheses. Our objectives are to define the scope and problems related to biological clock disorders in children with ONH and to develop effective treatments for this condition. Based on our observations, we hypothesize: (1) Daily rest-activity patterns and sleep will be abnormal in up to 50% of children with ONH. (2) It is possible to identify risk factors for abnormal circadian system function and sleep problems in ONH. (3) Nocturnal melatonin administration will improve abnormal sleep and activity patterns in children with ONH.
Design: These studies will involve collaborative efforts between Yale University and Dr. Mark Borchert of Childrens Hospital Los Angeles, who follows the largest population of children with ONH in the world. We will study children ages 2-10 years with documented ONH using standard criteria. Based on these criteria, we have more than 100 eligible patients.
To test our hypotheses, we will: (1) examine expressed rhythmicity in children with ONH. These studies will use actigraphy, sleep questionnaires, and assessment of melatonin secretory profiles. (2) We will correlate hypothalamic anatomical abnormalities and the degree endocrine dysfunction with sleep and expressed rhythmicity. (3) We will test if short-term administration of melatonin improves sleep-wake patterns in children with abnormally-expressed rhythmicity.
Potential Impact: Our preliminary data raise the possibility that children with ONH will have circadian system dysfunction resulting in abnormal rhythmicity and sleep. However, to date there have been no formal attempts to identify children with ONH who are at risk for such problems, nor have there been efforts aimed at developing potential treatments. The proposed prospective clinical study will represent an important attempt to identify a group of children with circadian system dysfunction.
At the completion of this study, we anticipate having determined risk factors for circadian system dysfunction in children with ONH. Insights gained from these studies should lead to the development of new approaches for treating circadian clock lesions in ONH, with the hope of improving the well-being of circadian system function in the boys and girls with this condition.
Eligibility| Ages Eligible for Study: | 2 Years to 10 Years |
| Genders Eligible for Study: | Both |
| Accepts Healthy Volunteers: | No |
Inclusion Criteria:
- Confirmed diagnosis of ONH (Diagnosis will be confirmed by ocular fundus photography.Disc-macula distance 0.35 or below. In eyes without ONH, the DD/DM ratio is greater than 0.3581.)
- Ages 2-10 years
- Ability to ambulate independently
- Under care of endocrinologist if on pituitary hormone replacement therapy.
Exclusion Criteria:
- Non-ambulatory
- Active malignancy
- Cardio-respiratory disorder
Contacts and Locations| United States, California | |
| Children's Hospital of Los Angeles | Recruiting |
| Los Angeles, California, United States, 90027 | |
| Contact: Joyce Sutedja 323-361-6219 jsutedja@chla.usc.edu | |
| Study Director: | Casandra Fink | Children's Hospital Los Angeles |
More Information
No publications provided
| Responsible Party: | Esther Nakamura-Reyes, Childrens Hospital of Los Angeles |
| ClinicalTrials.gov Identifier: | NCT00825591 History of Changes |
| Other Study ID Numbers: | 0804003699, TRSH-SAR |
| Study First Received: | October 13, 2008 |
| Last Updated: | February 7, 2011 |
| Health Authority: | United States: Institutional Review Board |
Keywords provided by Yale University:
|
optic nerve hypoplasia septo-optic dysplasia melatonin circadian rhythm |
Additional relevant MeSH terms:
|
Melatonin Central Nervous System Depressants Physiological Effects of Drugs Pharmacologic Actions Central Nervous System Agents |
Therapeutic Uses Antioxidants Molecular Mechanisms of Pharmacological Action Protective Agents |
ClinicalTrials.gov processed this record on May 16, 2013