Clinical Trial Details
— Status: Suspended
Administrative data
| NCT number |
NCT00474331 |
| Other study ID # |
H04-70223 |
| Secondary ID |
|
| Status |
Suspended |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
June 2004 |
| Est. completion date |
June 2023 |
Study information
| Verified date |
May 2017 |
| Source |
University of British Columbia |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
The investigator's goal for this project is to examine the causes of the wide variability of
the expression of Hereditary Multiple Exostoses (HME). Previous work completed by our group
shows that there exists a correlation between genotype and phenotype such that certain
mutations or affected genes cause certain patterns of presentation, symptoms, and signs. The
investigators intend to achieve this goal by increasing our study sample size to build upon
the results generated from the pilot project of this study, in order to obtain statistical
significance. This will be achieved by performing genotype-phenotype analysis on new families
presenting with HME in British Columbia.
Description:
Subject Recruitment:
New patients presenting with HME will be identified through the offices and clinics of
British Columbia Children's Hospital Orthopaedic Department. All potential participants will
be educated about the study's rationale, purpose, and procedures and informed consent will be
obtained.
Demographics:
All probands (affected patient), their first degree family members and extended family
members willing to participate in the study will be interviewed. Information including age,
gender, ethnic origin, family history, symptoms, complications and previous surgery will be
elucidated.
Phenotype:
Affected patients will have their osteochondroma(s) mapped for location, size, morphology,
and symptoms. A total of seventy-five phenotypic parameters divided into four major data
categories will be collected. The first two categories are accumulated from physical
examinations and include stature and limb segment lengths (15 (x2 for left and right). The
other two categories, lesion quality (19 parameters) and limb alignment and deformity (26
parameters) will be drawn from radiographic examinations which are part of the patient's
current care. All available xrays will be reviewed and the exostoses characterized
radiographically. This will establish the patient's genotype.
Genotype:
Each participant whose genotype is unknown will have a 10 cc. blood sample collected at BC
Children's Hospital. This sample will be processed for mutation analysis (DNA extraction from
blood samples, mutation analysis) at the Clinical Molecular Diagnostic Laboratory at BC
Children's Hospital. The techniques used in the pilot study will be implemented with the
exception that microsatellite markers will not be used in order to save cost.
Using EXT 1 and EXT 2 primers (Appendix 1) both strands of a DNA segment are sequenced using
ABI Big Dye chemistry Version 2. The resulting sequencing reaction products are then run on
an ABI 3100 Avant genetic analyzer. Once a sequence is obtained it is analyzed with SeqScape
version 2 software which allows comparison with reference sequence.
Data Analysis:
All information resulting from this research study will be kept strictly confidential. All
documents will be identified by an ID number and kept in locked filing cabinets. Participants
will not be identified by name in any reports of the completed study. Databases will be
stored on project-dedicated laptop computer which is locked in the research office.
The phenotypic data collected will be used to describe family degrees (designed using
Cyrillic software), phenotypes of affected individuals and mutations in the exostoses genes
of interest (site and type of mutation). Subject heights and segment lengths will be
converted to percentile figures to standardize for age and gender to allow for comparison
amongst groups.
Genotypic data from the mutation analysis of blood samples will include location of the
mutation (early in the gene versus late in the gene), type of mutation (alteration of gene as
missense, frameshift, nonsense or splice site), and the amino acid change that was caused by
the mutation. The data will be analyzed as follows:
Preliminary Analysis
1. EXT 1 versus EXT 2
2. Males versus Females
3. EXT 1 males versus EXT 1 females versus EXT 2 males versus EXT 2 females
Secondary Analysis
4. Types of mutations (Missense versus Nonsense versus Splice site versus Frameshift)
5. Early or late mutation (less than 1700 base pairs versus greater than 1700 base pairs)
With 2-way analyses, an unpaired t-test will be calculated and with greater than 2-way
analyses, an ANOVA will be calculated. Power will be calculated for every comparison due to
the huge variation in sample size. Statistical significance will be set to prior at 0.05 and
power of 0.8.
