The development of a new kind of air-pressurized water jet scalpel is discussed, including its design, assembly, and adjustment, the choice of optimum parameters, results of animal experiments, and clinical applications. The water jet scalpel is known for its compact structure and safe operation. The air pressure to drive the water jet scalpel varies from 1.0–1.5 MPa, and the quantity of normal saline used is to per operation. The results of preliminary clinical applications have shown that the water jet scalpel has many advantages over the conventional scalpel in operations requiring liver cutting.
Issue Section:
Technical Papers
1.
Jessen, K., Philipp, J., Classen, M., Schikorr, W., and Louis, H., 1982, “Endoscopic jet cutting—A new method for stone destruction in the common bile duct,” 6th International Symposium on Jet Cutting Technology, BHRA, England, pp. 39–52.
2.
Aeikens, B., Decker, B., Haferkamp, H., and Louis, H., 1986, “Cracking of ureter calculi by high speed water jet pulses,” 8th International Symposium on Jet Cutting Technology, BHRA, England, pp. 157–166.
3.
Vijay, M. M., 1989, “A critical examination of the use of water jets for medical applications,” Proc. 5th U.S. Water Jet Conference, Toronto, Canada, pp. 425–448.
4.
Nishisaka, T., and Yonekawa, M., 1984, “Development of the water jet scalpel,” Proc. International Symposium on Water Jet Technology, Tokyo, Japan, pp. 49–61.
5.
Summers, D. A. and Viebrock, J., 1988, “The impact of water jet on human flesh,” Proc. 9th International Symposium on Jet Cutting Technology, BHRA, England, pp. 423–433.
6.
Uchino, J., Une, Y., Horie, T., Yonekawa, M., Kakita, A., and Sano, F., 1988, “Surgical cutting of the liver by water jet,” Proc. 9th International Symposium on Jet Cutting Technology, BHRA, England pp. 641–650.
7.
Muneki YOSHIDA and Akira KAKITA, 1999, “The Usefulness of the Water Jet Dissector for Laparoscopic Surgery in the Patient with Chronic Cholecystitis,” Proc. Pacific Water Jet Conference, Ishinomaki, Japan, pp. 461–465.
8.
Sun Jiajun, 1992, Technology of Water Jet Cutting, Press of China University of Mining and Technology, Xuzhou, pp. 90–98.
Copyright © 2001
by ASME
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