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    Efficacy and safety of endoscopic laser lithotripsy for urinary stone treatment in children
    (Springer, 2012) Uygun, Ibrahim; Okur, Mehmet Hanifi; Aydogdu, Bahattin; Arayici, Yilmaz; Isler, Burak; Otcu, Selcuk
    We reviewed our 6 years of experience with endoscopic holmium: yttrium aluminum garnet (YAG) laser lithotripsy for treatment of urinary stones in different locations in 111 children. A retrospective review was performed on endoscopic holmium: YAG laser lithotripsy procedures performed to treat stones in children between March 2006 and March 2012. In total, 120 laser lithotripsy procedures were performed to treat 131 stones in 111 children (80 males and 31 females; age range, 11 months to 16 years; median age, 6 years). Stones were located in the kidney in 48 cases (36.7 %), ureter in 52 (39.7 %), bladder in 21 (16.0 %), and urethra in 10 (7.6 %). Stone size ranged from 4 to 30 mm (mean, 12.8 mm), and anesthesia duration was 10-170 min (mean, 56 min). Forty-four ureters required balloon dilation, and 61 double J stents were inserted. Follow-up ranged from 3 to 75 months (mean, 35 months). Complete stone clearance was achieved at the end of the procedure in 102 (91.9 %) patients (age < 7 years, 93.3 % vs. age a parts per thousand yen 7 years, 90.2 %; p > 0.05). The success rate was 81.3 % for kidney stones (< 10 mm, 90.9 % vs. a parts per thousand yen 10 mm, 78.4 %; p > 0.05) and 100 % for the ureter, bladder, and urethral stones. Overall success rate with extracorporeal shockwave lithotripsy was 100 %. No major complications were encountered during or after the procedures. These results confirm the effectiveness and safety of holmium laser lithotripsy for treating all urinary stone locations in children of all ages.
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    Magnetic Compression Ostomy for Simple Tube Colostomy in Rats - Magnacolostomy
    (Wroclaw Medical Univ, 2012) Uygun, Ibrahim; Okur, Mehmet H.; Arayici, Yilmaz; Keles, Aysenur; Ozturk, Hayrettin; Otcu, Selcuk
    Background. Magnetic compression anastomoses (magnamosis) have been previously described for gastrointestinal, biliary, urinary, and vascular anastomoses. Objectives. Herein, the authors report the creation of a magnetic compression colostomy (magnacolostomy) using a simple technique in rats. Material and Methods Animals were randomized into two groups (n = 8, each): a magnetic colostomy (MC) group and a control surgical tube colostomy (SC) group. In the MC group, the first magnetic ball (3 mm) was rectally introduced into the rat colon. The second magnetic ball (4 mm) was placed subcutaneously into the left quadrant, and the two magnetic balls strongly coupled. On postoperative day 20 for the MC group and postoperative day 10 in the SC group, the rats were sacrificed and the colostomies evaluated macroscopically, histopathologically, and for mechanical burst testing. Results. From the macroscopic evaluation, two rats failed to form the colostomy canal due to colostomy catheter and magnetic ball removal. In the remaining rats, evidence of complications were not observed. Two rats in the MC group displayed mild adhesion and all rats in the SC group displayed moderate adhesion. No significant differences between the burst pressures were observed. However, a significant difference (p < 0.001) between the procedure times of the MC (4.13 +/- 1.00 minutes) and SC groups (14.25 +/- 2.05 minutes) was evident. Conclusions: Magnacolostomy is an easy and effective procedure in the rat model and presents a safe, minimally invasive alternative to current tube colostomy procedures such as antegrade continence enemas, percutaneous endoscopic, and colostomy/cecostomy in humans (Adv Clin Exp Med 2012, 21, 3, 301-305).