Clinical Trials Logo

Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT02067247
Other study ID # DEXA-SOS
Secondary ID
Status Completed
Phase N/A
First received January 27, 2014
Last updated November 18, 2014
Start date February 2014
Est. completion date September 2014

Study information

Verified date November 2014
Source Shaare Zedek Medical Center
Contact n/a
Is FDA regulated No
Health authority Israel: Ministry of Health
Study type Interventional

Clinical Trial Summary

The purpose of this study is to compare the accuracy and comparability and secondarily to assess the values achieved by measurement of the forearm BMD by DXA and SOS by BeamMed, relative to standard DXA evaluations at the FN and LS.


Description:

Dual-energy X-ray absorptiometry (DXA) is the current gold standard for the clinical diagnosis of osteoporosis based on measurement of bone mineral density (BMD) [Baim et al, 2006]. As DXA technology continues to evolve, new instruments and technologies are introduced [Shepherd et al, 2005], making it necessary to document how these advances compare to prior densitometers.

The purpose of this study is to assess bone mineral density (BMD) comparability and precision using a standard Hologic DXA unit and the quantitative ultrasound-driven speed-of-sound (SOS) BeamMed technology. The physical and mechanical properties of bone that are measured by SOS are different than bone density measured by DXA and reflect bone strength and elasticity [Goossens et al, 2008]. The cohorts will be patients with Gaucher disease [Zimran & Elstein, 2010] who currently are requested to undergo BMD evaluation only bi-annually [Mistry et al, 2011], partly because of the radiation of DXA scans (admittedly low relative to standard X-rays and CT). Patients with Gaucher disease are at added risk for osteonecrosis and pathological fractures but to date no biomarker or technology has been able to predict which patients are imminently at risk. Because the option of disease-specific but very costly enzyme replacement therapy (ERT) [Barton et al, 1991] is predicating on the estimated risk of severe disease, predicting skeletal damage (especially osteonecrosis at the femoral neck, FN) because of osteopenia or osteoporosis has clinically relevant ramifications [Mistry et al, 2011]. Additionally, it has been shown that there is a correlation between low BMD at the lumbar spine (LS) and anemia in patients with Gaucher disease [Khan et al, 2012], so that with correction of anemia with ERT it is hoped that there will be amelioration of BMD values, and this too would be worth performing at closer intervals.

The least inconvenient and shortest evaluation for BMD is at the forearm. For approximately a year, all patients at the Gaucher disease have had DXA forearm evaluations when undergoing routine testing. It is the intention of this study to prospectively compare forearm SOS results [Olszynski et al, 2013] with those from the standard DXA equipment with the possibility of using SOS as a quantitative measure of bone integrity on a more regular basis.

The strategy will be to measure forearm BMD by DXA and SOS by BeamMed for comparison of accuracy and comparability and secondarily to assess the values achieved at the forearm relative to standard DXA evaluations at the FN and LS.

Patients who arrive at the Gaucher Clinic for routine monitoring that includes DXA evaluation of BMD at FN, LS, and forearm will be requested to consent to undergo SunBeam evaluation at the forearm as well. The same DXA hardware and software (Hologic, Bedford, MA) will be used for all examinations as have been employed by the Gaucher Clinic since August 2011.

The SOS technology as developed by the BeamMed Company (originally, the Sunlight Ultrasound Technologies, Israel) is based on the physical property that ultrasound waves travel faster through bone than soft tissue. The bone sonometer measures the time that elapses between the axially transmitted sound generated as an inaudible high-frequency pulsed acoustic signal at a center frequency of 1.25 MHz and the first reception of a signal after it has traveled through the selected bone. This is recorded as the SOS in m/sec. The ultrasonic waves are transmitted and received by transducers embedded in the ultrasound probe. As the ultrasound wave travels, the speed, dispersion, and attenuation of the signal is influenced by the density, elasticity, and cohesiveness of the medium, so that the greater the density and elasticity of the medium, the faster the speed of propagation [Ashman et al, 1984].

The device consists of a desktop main unit and 3 probes of different sizes. The small probe (1.4cm x 2.7cm x 11cm), 900-1000 KHz will be used for this study. Calibration is performed each day using a standardized calibrating plastic provided by the company. The SOS is determined as the mean of 3 scans that are found to be statistically similar (coefficient of variation below 1.2%), as calculated by the software provided with the device. Based on these 3 readings, the 95th percentile of the measured SOS is determined and used for statistical analysis.


Recruitment information / eligibility

Status Completed
Enrollment 100
Est. completion date September 2014
Est. primary completion date September 2014
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Both
Age group 18 Years and older
Eligibility Inclusion Criteria:

- Age: >18

- Gaucher disease type 1

- Able to undergo a DEXA test

Exclusion Criteria:

- Minors

Study Design

Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Screening


Related Conditions & MeSH terms


Intervention

Device:
BeamMed Speed-of-Sound bone strength test at forearm
BeamMed Speed-of-Sound bone strength test at forearm in addition to the DEXA test

Locations

Country Name City State
Israel Shaare Zedek Medical Center Jerusalem

Sponsors (1)

Lead Sponsor Collaborator
Shaare Zedek Medical Center

Country where clinical trial is conducted

Israel, 

Outcome

Type Measure Description Time frame Safety issue
Primary BMD measurements by DEXA and SOS 6 months No
Secondary T-score and Z-score by DEXA and SOS 6 months No
See also
  Status Clinical Trial Phase
Recruiting NCT02583672 - Role of Oxidative Stress and Inflammation in Type 1 Gaucher Disease (GD1) Phase 2
Recruiting NCT04055831 - Immune Biomarkers Related to Bone Pathology in Patients With Type 1 Gaucher Disease
Withdrawn NCT02528617 - The Effect of Velaglucerase Alfa (Vpriv) on Skeletal Development in Pediatric Gaucher Disease Phase 4
Active, not recruiting NCT02843035 - Venglustat in Combination With Cerezyme in Adult Patients With Gaucher Disease Type 3 With Venglustat Monotherapy Extension Phase 2
Completed NCT00319046 - Clinical Study to Evaluate the Long Term Efficacy, Safety and Tolerability of Miglustat in Patients With Stable Type 1 Gaucher Disease Phase 3
Completed NCT06050967 - A Second-generation AI Based Therapeutic Regimen in Patients With Gaucher Disease Treated With Enzyme Replacement Therapy. Phase 2