Green power of 138 W was generated at an estimated beam quality of M(2) = 11 by intracavity frequency doubling of a diode-pumped Nd:YAG laser. The laser employs a diffusive close-coupled diode-pumping design and a bifocusing-compensation resonator design to ensure stable operation.
We present a magnet-based device used to perform side-to-side peripheral vascular anastomoses. Its advantages include the ability to anastomose vessels without requiring circumferential surgical exposure. Vascular anastomosis performed with these magnets demonstrated 100% patency in the dog, lacked apparent aneurysm or other potentially catastrophic failure, and demonstrated remodeling of the vessel wall after several weeks, to incorporate the magnets, making indefinite retention of field strength unnecessary. This technique could enable minimally invasive procedures, such as complex reconstructive and revascularizing surgery, and warrants further study in vessels with different sizes, flow rates, and locations.
We have obtained UV power of 20.5 W with a repetition rate of 10 kHz by the use of a high-brightness high-power all-solid-state green laser and a high-quality CsLiB(6)O(10) crystal. This power is, to our knowledge, the highest UV power achieved so far in all-solid-state lasers.
A series of microsurgical free flap reconstructions to amputation stumps of the upper as well as the lower extremities was reviewed in 7 male and 2 female patients. Indications included preservation of length after trauma in 6 patients and cure of local infection in 2 patients. In 1 patient an extensive defect after resection of a recurrent shoulder sarcoma required use of a complete arm fillet free flap for tumor reconstruction. Microvascular free flaps used included four scapular flaps, two fillet flaps from the amputated extremity, one anterolateral thigh flap, and one lateral arm flap. Seven of 9 patients were fitted with a prosthesis and underwent occupational therapy resulting in ambulatory and improved functional status. Microvascular reconstruction is indicated in emergency settings as well as for elective reconstruction of amputation sites. Using uninjured "spare parts" of the amputated extremity should be considered. Elective reconstruction is performed preferably with free flaps based on the subscapular vascular system.
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