A sprayer includes: a sprayer body; a nozzle extending from the sprayer body; and an irradiation unit disposed on a leading end of the nozzle and emitting light that is oriented and diffuses in a leading end direction of the nozzle. The nozzle includes: an elongated nozzle body extending from the sp
A sprayer includes: a sprayer body; a nozzle extending from the sprayer body; and an irradiation unit disposed on a leading end of the nozzle and emitting light that is oriented and diffuses in a leading end direction of the nozzle. The nozzle includes: an elongated nozzle body extending from the sprayer body and having a curved portion on a leading end side; and a nozzle head disposed on a leading end of the nozzle body. The irradiation unit is arranged inside a curve shape of the curved portion.
대표청구항▼
1. A method of applying a drug to a target site in a living body, the method comprising: inserting a leading end of a nozzle into a living body, the nozzle including a drug discharge port from which the drug is discharged, and an irradiation unit that emits light that diffuses in a direction away fr
1. A method of applying a drug to a target site in a living body, the method comprising: inserting a leading end of a nozzle into a living body, the nozzle including a drug discharge port from which the drug is discharged, and an irradiation unit that emits light that diffuses in a direction away from the nozzle;irradiating tissue in the living body by directing the diffused light from the irradiation unit in a direction at the tissue;adjusting a position of the nozzle so that an irradiated site of the tissue that is irradiated by the diffused light is aligned with the target site;discharging the drug from the nozzle in a direction at the target site to apply the drug to the target site; andwherein the direction in which the diffused light is directed from the irradiation unit and the direction in which the drug is discharged from the nozzle are substantially the same so that a direction of orientation of the leading end of the nozzle at which the drug discharge port is located and from which the drug is discharged is predicted by visually observing the irradiated site. 2. The method according to claim 1, wherein the inserting of the leading end of the nozzle into the living body comprises inserting the leading end of the nozzle into a space between an organ and the tissue, and the irradiating of the tissue in the living body comprises irradiating the tissue from the back side of the tissue, and the adjusting of the position of the nozzle so that the irradiated site of the tissue irradiated by the diffused light is aligned with the target site comprises visually observing the irradiated site from a front side of the tissue. 3. A method of applying a drug to a target site of membranous tissue, the membranous tissue having a back side and a front side, wherein the front side of the membranous tissue is visually observable by a user, the method comprising: inserting a leading end of a nozzle into a living body, the nozzle including a drug discharge port from which the drug is discharged, and an irradiation unit that emits light that diffuses in a direction away from the nozzle, the leading end of the nozzle being inserted into the living body to position the drug discharge port and the irradiation unit on a back side of the membranous tissue;irradiating the membranous tissue by directing the diffused light from the irradiation unit at the back side of the membranous tissue;adjusting a position of the nozzle so that an irradiated site of the membranous tissue that is irradiated by the diffused light is aligned with the target site, the position of the nozzle being adjusted by visually observing, from the front side of the membranous tissue, the irradiated site; anddischarging the drug from the nozzle at the target site to apply the drug to the target site. 4. The method according to claim 3, wherein the drug is an anti-adhesive material. 5. The method according to claim 3, wherein the membranous tissue is peritoneum in the living body, and wherein the inserting of the leading end of the nozzle into the living body to position the drug discharge port and the irradiation unit on the back side of the membranous tissue includes positioning the drug discharge port and the irradiation unit between the peritoneum and an organ in the living body. 6. The method according to claim 3, further comprising holding the membranous tissue with a gripper and holding-up the membranous tissue through use of the gripper so that the membranous tissue is spaced from an organ in the living body, and wherein the inserting of the leading end of the nozzle into the living body to position the drug discharge port and the irradiation unit on the back side of the membranous tissue includes positioning the drug discharge port and the irradiation unit between the membranous tissue and the organ. 7. The method according to claim 3, wherein the inserting of the leading end of the nozzle into the living body to position the drug discharge port and the irradiation unit on the back side of the membranous tissue includes inserting the leading end of the nozzle through a hole in an abdominal wall in the living body and into an abdominal cavity in the living body. 8. A method of applying a drug to a suture portion of tissue in a living body, the tissue having a back side and a front side, wherein the front side of the tissue is visually observable by a user, the method comprising: inserting a leading end of a nozzle into a living body, the nozzle including a drug discharge port from which the drug is discharged, and an irradiation unit that emits light that diffuses in a direction away from the nozzle, the leading end of the nozzle being inserted into the living body to position the drug discharge port and the irradiation unit on a back side of the tissue;irradiating the tissue by directing the diffused light from the irradiation unit at the back side of the tissue;adjusting a position of the nozzle so that an irradiated site irradiated by the diffused light is aligned with the suture portion, the position of the nozzle being adjusted by visually observing, from the front side of the tissue, the irradiated site; anddischarging the drug from the nozzle at the suture portion to apply the drug to the back side of the suture portion. 9. The method according to claim 8, wherein the drug is an anti-adhesive material. 10. The method according to claim 8, wherein the tissue is peritoneum in the living body, and wherein the inserting of the leading end of the nozzle into the living body to position the drug discharge port and the irradiation unit on the back side of the tissue includes positioning the drug discharge port and the irradiation unit between the peritoneum and an organ in the living body. 11. The method according to claim 8, further comprising holding the tissue with a gripper and holding-up the tissue through use of the gripper so that the tissue is spaced from an organ in the living body, and wherein the inserting of the leading end of the nozzle into the living body to position the drug discharge port and the irradiation unit on a back side of the tissue includes positioning the drug discharge port and the irradiation unit between the tissue and the organ. 12. The method according to claim 8, wherein the inserting of the leading end of the nozzle into the living body to position the drug discharge port and the irradiation unit on a back side of the tissue includes inserting the leading end of the nozzle through a hole in an abdominal wall in the living body and into an abdominal cavity in the living body.
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Rowe Stephen C. (Wellesley MA) Hubbell Jeffrey A. (San Marino CA) Herman Stephen J. (Andover MA) Sun Vae (Palo Alto CA) Lang Michael F. (North Andover MA) Selecman George E. (Marblehead MA) Ahari Fre, Apparatus and method for local application of polymeric material to tissue.
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