Balloon catheter for puncturing, medical tube introduction...

Surgery – Means for introducing or removing material from body for... – Treating material introduced into or removed from body...

Reexamination Certificate

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C604S027000, C604S048000

Reexamination Certificate

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06685671

ABSTRACT:

TECHNICAL FIELD OF THE INVENTION
The present invention relates to a medical tube inserting device for ensuring safely and infallibly a route for drainage of digestive juices and infusion of drug solution, enteral nutrition and the like, and particularly, a balloon catheter for puncturing endowed with a function so that it does not rupture immediately by puncturing thereby ensuring lumen, and structures of tube inserting devices including the above-described catheter and a method for use thereof.
BACKGROUND OF THE INVENTION
Conventionally, particularly as a method for enteral nutrition dosage, a pediatric surgeon Gaudert and an endoscope surgeon Ponsky developed percutaneous endoscopic gastrostomy (PEG) in 1979 which is an endoscopic surgery for forming fistula opening on the surface of lumen of stomach and abdominal wall skin using an endoscope (Japanese Patent Application National Publication Laid-Open No. 6-503243), further, some technologies for applying this technology have been developed and are in widespread use. However, this is not to mention that this technology is restricted to doctors who can handle an endoscope. Also, this technology is restricted by cases and can not be used or use thereof is difficult in cases such as “when massive ascites are stored”, “when liver and transverse colon are present between stomach and abdominal wall”, “after a gastrectomy,” and the like since stomach walls and abdominal walls are needled.
Further, there is a method with a nasal gastric tube; however, when indwelling lasts for a long period of time, pain in naris, nasal cavity and pharynx may increase and ulcers may be formed in the naris which makes continuous indwelling difficult, and further, pneumonia may even coincide due to difficulty of expectoration.
The method is also not preferable from these standpoints in view of QUALITY OF LIFE.
Further, in 1983, Allem. S. Chen et al. have suggested in the United States a method in which a bulb or optical fiber or magnet is installed in a balloon, a tube equipped with the balloon is inserted via nose, a cervical area is needled using a detector for detecting transmitted light or magnetic wave at the cervical area, and an esophagostomy is made for indwelling of a nutrition tube. In Japan, Nakano et al. developed a method for making an esophagostomy under X-ray fluoroscopy in 1993. In this indwelling method, a tube equipped with a balloon is inserted into an esophagus via the nose, a contrast medium is injected into the balloon in the cervical esophagus to expand lumen of the cervical esophagus, then, the cervical esophagus is needled percutaneously under X-ray fluoroscopy, and an esophagostomy is made for indwelling of a nutrition tube. The indwelling method of Nakano is simple, imparts minimal invasion and pain to patients and is useful for nutrition control for a long period of time, however, in this method, puncturing is conducted only under X-ray fluoroscopy and there is a possibility of danger in view of the anatomical structure of cervix. Further, in any of the suggested two methods, a balloon catheter is used having a tube equipped with a balloon which ruptures when punctured; therefore, in the puncturing, whether the puncturing needle reaches the esophagus lumen or not is determined by the puncturing of the balloon, and there is a danger that the leading point of the needle, after puncturing, injures the esophageal wall or the puncturing needle releases from the esophageal wall due to the esophagus collapsing.
On the other hand, the present inventor Oishi et al. improved the method of Nakano et al. in which a an esophagostomy is formed under X-ray fluoroscopy, and invented, as a method for needling a balloon of a balloon catheter, a method in which a balloon is needled with a puncturing needle safely and infallibly while externally confirming position of the balloon using a ultrasonic probe (“Regarding Percutaneous Trans-esophageal Gastro-tubing, Application and Utility Thereof”, Journal of Japan Surgical Society, 1997. “Regarding Esophageal Gastro-tubing, Knack and Side-injury Percutaneous Trans Thereof”, The Japanese Journal of Gastroenterological Surgery, 1997.). However, in this method, the danger that the leading point of the needle after puncturing of the balloon injures the esophageal wall or the puncturing needle releases from the esophageal wall remains, since a Foley catheter which causes rupture by puncturing is used similar to the method of Nakano.
The present invention has been made in view of the above-described conditions, and the object thereof is to provide a medical tube inserting device for ensuring safely and infallibly a route for drainage of digestive juices and infusion of drug solution, enteral nutrition and the like, and more specifically, a balloon catheter for puncturing having no danger that the leading point of a needle injures the esophageal wall and the like or the puncturing needle releases from the esophageal wall and the like, a medical tube inserting device using this catheter, and a method for use thereof.
DISCLOSURE OF THE INVENTION
Namely, the balloon catheter for puncturing of the present invention provided an intending solution of the above-described problems is a balloon catheter for puncturing which is inserted through a puncture area in a body via nose and the like, expanded by fluid such as physiological saline and the like and needled, wherein the above-described balloon is so constituted that when it is needled externally by a puncturing needle, it does not rupture immediately and lumen can be ensured. More specifically, the balloon has a thickness of 0.01 to 1 mm, a tensile strength of 8 to 25 MPa, a tear strength of 20 to 60 kg/cm, a 100% modulus of 3 to 6 MPa, an elongation of 300 to 460% and a balloon internal pressure of 2.8 to 75 psi, and does not rupture immediately in needling by a puncturing needle; and a catheter shaft made of a material having remarkably different levels of ultrasound transmission as compared with internal fluid such as physiological saline and the like in the balloon is placed approximately in the center of lumen of the balloon; in addition, for improvement of insertion operation, lumen is provided so that the balloon catheter can be inserted smoothly into a hollow organ along a previously inserted guide wire or a stilet is contained for firming a catheter up; further, for enabling insertion operation without X-ray contrast, graduation is provided on the catheter shaft and a pilot balloon for confirming expansion of the balloon is placed in the vicinity of a connector area.
Owing to the above-described constitution, when a catheter of the present invention is used, a catheter shaft having excellent visibility is situated in the center of the balloon in an ultrasonic echo image in needling; therefore, by adjusting puncturing predetermined lines onto the above-described echo image, not only is simple puncturing enabled but also the above-described balloon does not rupture immediately when punctured; consequently, a danger that a needle injures puncture areas or a needle releases from the puncture areas almost disappears.
In the present invention, the medical tube inserting device provided an intending solution of the above-described, prior art is advanced through the combination of at least a puncturing balloon catheter having the above-described constitution, a puncturing needle equipped with an inner needle for guiding a guide wire on which roughening process or the like is performed for catching clearly an ultrasonic echo image for guiding a guide wire, a guide wire equipped with graduation and the like for tube introduction, a dilator equipped with a sheath for extending the puncture axes, and an indwelling catheter which indwells in stomach mainly via esophagus and effects drainage of digestive juices, infusion of drug solution and the like in which a balloon having an expanded diameter of 20 mm or more is placed at a position about 10 cm from the leading point and at least one side pore is provided on the catheter at the leading point side of the ball

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