OBJECTIVE: To study the use of power Doppler sonography for assessing changes in vascularity during treatment of fracture sites with low-intensity ultrasound. METHODS: In 6 dogs (3 pairs), subcutaneous dissection of the midshaft of the ulna allowed symmetrical osteotomies to be made with a reciprocation saw. Three dogs were treated and 3 were used as controls. The fracture site was subjected to 1.5-MHz low-intensity ultrasound (30 mW/cm2) for 20 minutes daily from a therapeutic ultrasonic device. Gray scale sonography was performed to evaluate the fracture site. Power Doppler sonography was used to assess flow patterns at the fracture site and surrounding soft tissue. A sonographic contrast agent was administered intravenously. The dose was 0.2 mL/kg. RESULTS: Power Doppler sonography showed an increase in flow around the fracture site in the treated dogs compared with that in control dogs. Color pixel values on day 7 were 3-fold higher in treated legs than control legs and on day 11 were 33% higher in treated legs than control legs. Enhancement after contrast agent administration was consistently higher in treated legs than control legs. CONCLUSIONS: Power Doppler sonography showed increased vascularity around the fracture sites in treated dogs with and without contrast agent administration.
OBJECTIVE: To study the use of power Doppler sonography for assessing changes in vascularity during treatment of fracture sites with low-intensity ultrasound. METHODS: In 6 dogs (3 pairs), subcutaneous dissection of the midshaft of the ulna allowed symmetrical osteotomies to be made with a reciprocation saw. Three dogs were treated and 3 were used as controls. The fracture site was subjected to 1.5-MHz low-intensity ultrasound (30 mW/cm2) for 20 minutes daily from a therapeutic ultrasonic device. Gray scale sonography was performed to evaluate the fracture site. Power Doppler sonography was used to assess flow patterns at the fracture site and surrounding soft tissue. A sonographic contrast agent was administered intravenously. The dose was 0.2 mL/kg. RESULTS: Power Doppler sonography showed an increase in flow around the fracture site in the treated dogs compared with that in control dogs. Color pixel values on day 7 were 3-fold higher in treated legs than control legs and on day 11 were 33% higher in treated legs than control legs. Enhancement after contrast agent administration was consistently higher in treated legs than control legs. CONCLUSIONS: Power Doppler sonography showed increased vascularity around the fracture sites in treated dogs with and without contrast agent administration.
Authors: James A Veronick; Fayekah Assanah; Nicole Piscopo; Yasemin Kutes; Varun Vyas; Lakshmi S Nair; Bryan D Huey; Yusuf Khan Journal: Tissue Eng Part A Date: 2017-07-27 Impact factor: 3.845
Authors: Sandra L Poliachik; Tatiana D Khokhlova; Yak-Nam Wang; Julianna C Simon; Michael R Bailey Journal: Ultrasound Med Biol Date: 2014-05-21 Impact factor: 2.998