Device and method for delivery of long wavelength laser energy to a tissue site
First Claim
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1. A laser energy delivery device suitable for delivery of relatively long wavelength laser energy to a biological tissue in an aqueous medium comprising:
- (a) an elongate hollow sheath having an open distal end and a closed proximal end provided with a handpiece, the sheath defining a lumen, and a gas inlet port defined by the handpiece spaced from the proximal end of the sheath and in oven communication with the lumen; and
(b) a laser energy conduit extending through the handpiece, having a proximal end adapted for connection to a laser energy source capable of generating light having a wavelength of at least about 1,300 nanometers and a distal end adapted for delivery of laser energy emitted from the energy source to a tissue site;
the laser energy conduit being disposed within the lumen of the sheath and passing through the closed proximal end of the sheath;
the distal end of the laser energy conduit being positioned at the open distal end of the sheath;
the gas inlet port being adapted for connection to a gas delivery source for concomitant infusion of a biologically compatible gas through the lumen and the open distal end of the sheath while laser energy is emitted directly to the tissue site from the distal end of the laser energy conduit, the sheath guiding the infused gas to direct impingement on the tissue site; and
wherein the distal end of the sheath is flared.
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Abstract
A laser energy delivery device and method are provided for irradiating a body tissue with relatively long wavelength laser energy in the presence of an aqueous liquid without significant absorption of the laser energy by the liquid. The device includes an elongate hollow sheath that is open at its distal end and closed at its proximal end, a laser energy conduit such as an optical fiber or hollow waveguide, within the sheath, the distal end of the conduit being disposed near the open distal end of the sheath, and the proximal end of the conduit being adapted for connection to a source of long wavelength laser energy. The sheath also includes an inlet port, spaced from the proximal end of the sheath, and adapted to receive and deliver a biologically compatible gas through the sheath to a body tissue site in contact with the open distal end of the sheath.
40 Citations
25 Claims
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1. A laser energy delivery device suitable for delivery of relatively long wavelength laser energy to a biological tissue in an aqueous medium comprising:
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(a) an elongate hollow sheath having an open distal end and a closed proximal end provided with a handpiece, the sheath defining a lumen, and a gas inlet port defined by the handpiece spaced from the proximal end of the sheath and in oven communication with the lumen; and
(b) a laser energy conduit extending through the handpiece, having a proximal end adapted for connection to a laser energy source capable of generating light having a wavelength of at least about 1,300 nanometers and a distal end adapted for delivery of laser energy emitted from the energy source to a tissue site;
the laser energy conduit being disposed within the lumen of the sheath and passing through the closed proximal end of the sheath;
the distal end of the laser energy conduit being positioned at the open distal end of the sheath;
the gas inlet port being adapted for connection to a gas delivery source for concomitant infusion of a biologically compatible gas through the lumen and the open distal end of the sheath while laser energy is emitted directly to the tissue site from the distal end of the laser energy conduit, the sheath guiding the infused gas to direct impingement on the tissue site; and
wherein the distal end of the sheath is flared. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A method of delivering relatively long wavelength laser energy to a body tissue in an aqueous liquid medium comprising the steps of:
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(a) providing an endoscope defining at least one channel having an inner diameter, the channel having an open distal end and an open proximal end;
(b) providing a laser energy delivery system which comprises a source of laser energy having a wavelength of at least about 1,300 nanometers;
an elongate hollow sheath defining a lumen having an open distal end and a closed proximal end, and further defining a gas inlet port spaced from the closed proximal end of the sheath and in open communication with the lumen, the sheath having an outer diameter smaller than the inner diameter of the endoscope channel and the lumen having an inner diameter;
an elongate laser energy conduit within the lumen of the sheath and extending through the closed proximal end of the lumen, the laser energy conduit having an outer diameter smaller than the inner diameter of the lumen of the sheath, having a proximal end adapted for connection to the source of laser energy and a distal end adapted to emit the laser energy supplied by the laser energy source, the distal end of the laser energy conduit being positioned at the open distal end of the lumen of the sheath;
the laser energy source being operably connected to the proximal end of the laser energy conduit; and
a source of biocompatible gas operably connected to the gas inlet port;
(c) positioning the endoscope within a body tissue lumen cavity such that the open distal end of the endoscope channel is disposed generally opposite a tissue site in need of laser energy treatment;
(d) positioning the sheath of the laser energy delivery system through the endoscope channel such that the distal end of the sheath extends through the open distal end of the endoscope channel and is positioned adjacent to a body tissue site in need of laser energy treatment;
(e) supplying gas from the source of biocompatible gas through the gas inlet port and lumen of the sheath to the tissue site, at a pressure and flow race sufficient to displace fluid from the tissue site and maintain a substantially fluid-free region between the distal end of the laser energy conduit and the body tissue; and
(f) supplying long wavelength laser energy from the laser energy source through the distal end of the laser energy conduit to the tissue through the substantially liquid-free tissue region for a period of time and at a laser energy intensity sufficient to treat the tissue. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24)
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25. A method for delivering laser energy having a wavelength of at least about 1,300 nanometers to a selected tissue site in a lumen which comprises displacing liquid present at the selected tissue site with a bubble of biocompatible gas and concomitantly irradiating the selected tissue site with the laser energy through the bubble.
Specification
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Current AssigneeTrimedyne Incorporated (InnovaQuartz, LLC)
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Original AssigneeTrimedyne Incorporated (InnovaQuartz, LLC)
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InventorsLoeb, Marvin P.
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Primary Examiner(s)Farah, A.
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Application NumberUS10/324,897Publication NumberTime in Patent Office1,026 DaysField of Search606/3, 606 13- 16, 606 20- 26, 606/78, 128/898, 607 88- 92, 607/100, 607/104, 607/143, 604/20, 604 26- 28, 604/544, 600/101, 600/105, 600/108, 600/129, 600/130, 600/156, 600/176US Class Current606/15CPC Class CodesA61B 18/201 with beam delivery through ...A61B 18/22 the beam being directed alo...A61B 2017/00274 Prostate operation, e.g. pr...A61B 2018/00547 ProstateA61B 2018/00577 AblationA61B 2018/00625 VaporizationA61B 2218/006 for smoke evacuation
