Ultrasound accuracy in determining the tumor depth for boost field radiotherapy in breast cancer in comparison with CT scan plus clips

Background: There are miscellaneous methods of boost field determination with different levels of accuracy. One of the important parameters in boost field planning is the tumor bed depth, as it is important for determining electron energy

Objectives: The purpose of present research was the determination of ultrasound accuracy to estimate the appropriate depth for the tumor bed

Patients and Methods: Patients who were undergone breast conservative surgery with placing of 5 clips in the tumor bed [lower, upper, medial, lateral, and posterior] were included. The depth and location of the tumor bed were determined using ultrasonography. The optimum field boost was planned with an appropriate 2.5 cm margin. After putting the marker on the field boost, the CT simulation was done and then the obtained depth of the ultrasound report and that of the CT scan-clips were compared

Results: Twenty five patients were included. The average depth reported by the ultrasound was about 18 mm +/- 3 mm [range 10-26 mm], and the average obtained from the CT scan-clips was about 48 mm +/- 13 mm [range 24-80 mm], [P Value = 0.001]. In almost all cases, the depth obtained from the ultrasound was less than that obtained from the CT scan- clips

Conclusions: Ultrasound is not an accurate method to determine the appropriate depth and field for determination of breast field boost. Thus, it is better not to use ultrasound to estimate the tumor cavity depth; the CT scan images with surgical clips should be used instead

Treatment of a pigmented hypertrophic scar by low-level laser therapy [LLLT]: a case report

A hypertrophic scar is defined as an excess healing response that is a dilemma for physicians. Several therapies are available: intralesional corticosteroids, topical treatments, cryotherapy, surgery, radiation, silicone gel dressing and laser therapy. Pulsed-dye, Nd-Yag and CO2 lasers have been used for treatment of keloids and hypertrophic scars but recurrence is common. Recently Low-Level Laser Therapy [aluminum-gallium-arsenide [AlGaAs] Diode 980nm, red light [Mustung, KLO4, Helium Neon 630 nm] and blue light LED lasers have been used for closure of wounds. The aim of this report is to show the effectiveness of these lasers for the treatment of a hypertrophic scar on the forearm of a 40 year-old woman due to burning by gas explosion