An enhanced flow ophthalmic surgical probe for ophthalmic microsurgery, such as vitrectomy, in an eye of a patient is disclosed. The enhanced flow probe includes a body, a needle, a cutter, and an optional stiffening sleeve. The needle, the cutter, and the optional stiffening sleeve each possess a w
An enhanced flow ophthalmic surgical probe for ophthalmic microsurgery, such as vitrectomy, in an eye of a patient is disclosed. The enhanced flow probe includes a body, a needle, a cutter, and an optional stiffening sleeve. The needle, the cutter, and the optional stiffening sleeve each possess a widened diameter at its proximal portion relative to the diameter at its distal portion, thereby providing an enhanced ophthalmic surgical probe that allows adequate stiffness, reduced flow resistance, and an increased flow rate while maintaining a less invasive, large gauge diameter needle and cutter.
대표청구항▼
1. An ophthalmic surgical probe for insertion into an eye of a patient, comprising: a handpiece body;a hollow cutter, the cutter including a first portion having a first outer diameter and a second portion having a second outer diameter sized smaller than the first outer diameter, wherein the first
1. An ophthalmic surgical probe for insertion into an eye of a patient, comprising: a handpiece body;a hollow cutter, the cutter including a first portion having a first outer diameter and a second portion having a second outer diameter sized smaller than the first outer diameter, wherein the first portion and the second portion are in fluid communication;a needle including a third transition portion having a third inner diameter and a fourth portion having a fourth inner diameter sized smaller than the third inner diameter, wherein the third transition portion and the fourth portion are in fluid communication and wherein the fourth portion is the distal most portion of the needle and wherein the second portion of the hollow cutter is circumscribed by the fourth portion and the second outer diameter approximates to the fourth inner diameter to allow the hollow cutter to cut tissue as it slides by a port in the fourth portion; anda hollow, tubular stiffening sleeve including a fifth portion having a fifth inner diameter and a sixth portion having a sixth inner diameter sized smaller than the fifth inner diameter, wherein the sixth inner diameter approximates to an outer diameter of the fourth portion of the needle, and wherein the third, fourth, fifth, and sixth portions are in fluid communication,wherein the cutter is slidably disposed within the needle and the stiffening sleeve and wherein the cutter is coupled to the handpiece body such that a cone-shaped transition section, comprising at least part of the first portion and at least part of the second portion, is configured to move, during cutter operation, inside the hollow stiffening sleeve but not into the handpiece body and not into the fourth portion. 2. The ophthalmic surgical probe of claim 1 wherein the stiffening sleeve comprises a semi-rigid sheath disposed circumferentially around the third portion of the needle and the first portion of the cutter. 3. The ophthalmic surgical probe of claim 1 wherein the first and third portions are located proximal to the eye during and after insertion. 4. The ophthalmic surgical probe of claim 1 further comprising a first connecting portion disposed between the first portion and the second portion such that the first portion, the second portion, and the first connecting portion are in fluid communication. 5. The ophthalmic surgical probe of claim 4 wherein the diameter of the first connecting portion gradually transitions from the first diameter to the second diameter. 6. The ophthalmic surgical probe of claim 1 including a second connecting portion disposed between the fifth portion and the sixth portion such that the fifth portion, the sixth portion, and the second connecting portion are in fluid communication. 7. The ophthalmic surgical probe of claim 6 wherein the diameter of the second connecting portion gradually transitions from the fifth diameter to the sixth diameter. 8. The ophthalmic surgical probe of claim 1 wherein the first portion is slidably disposed within the fifth portion, and wherein the second portion is slidably disposed within the fourth portion. 9. The ophthalmic surgical probe of claim 1, wherein the stiffening sleeve is a cylindrical tube that supports and stabilizes the needle. 10. The ophthalmic surgical probe of claim 1, wherein the stiffening sleeve comprises a cone shaped transition section between the fifth portion and the sixth portion and wherein the needle comprises a cone shaped transition section between the third portion and the fourth portion and wherein the cone shaped transition section of the stiffening sleeve engages the cone shaped transition section of the needle. 11. The ophthalmic surgical probe of claim 1, wherein the stiffening sleeve is a steel tube. 12. The ophthalmic surgical probe of claim 1, wherein the stiffening sleeve, the needle, and the cutter are cylindrical, coaxial, hollow tubes. 13. The ophthalmic surgical probe of claim 1, wherein the stiffening sleeve, the needle, and the cutter are cylindrical, coaxial, thin-walled tubes. 14. The ophthalmic surgical probe of claim 1, wherein the cutter has fewer than three changes of internal diameter. 15. The ophthalmic surgical probe of claim 1, wherein the handpiece body comprises an enlarged outer diameter configured to be held by a surgeon and wherein the stiffening sleeve extends partially into and partially out of the handpiece body.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (102)
Cornwell, Michael D.; Myhre, Douglas C.; Eriksen, O. Harald; Goeke, Jerry L., Active combustion control system for gas turbine engines.
Schechter Alan M. (Long Beach CA) Mark Joseph L. (Indianapolis IN) Stave Frederick R. (St. Joseph MI), Apparatus for minimally invasive tissue removal.
Wade Richard A. ; James Thomas K. ; Page William P. ; Beuger Paul P. M. ; Stain Joseph A., Combination pressure sensor and regulator for direct injection diesel engine fuel system.
Douvas Nicholas G. (4200 N. Gratiot Port Huron MI 48060) Dinelkamp Henry T. (200 W. Orchard Pl. Mt. Prospect IL 60056), Control apparatus for microsurgical instruments.
Scheller Gregg D. (Ballwin MO) Lucas R. Bruce (University City MO) Yefet Gideon (St. Louis MO) Dallam David (Pittsford NY), Control system for ophthalmic surgical instruments.
Fujita Nobuo (Uji JPX) Nakarai Nobuaki (Kawaguchi JPX), Device for indicating contamination degree of hydraulic circuit and method of judging the contamination degree.
Sun,Yu; Li,Yunfeng; Guo,Lin; Yeagle,Paul, Disk drives and methods allowing for dual stage actuator adaptive seek control and microactuator gain calibration.
Jerry S. J. Chen, Flexible irrigation/aspiration tip assembly for providing irrigation to an eye capsule and for aspirating fluid from the eye capsule.
Lim Kian Y. (Corpus Christi TX) McAnally ; III Henry B. (Cypress TX) Stewart ; Jr. William B. (Kingwood TX), Maximizing process production rates using permanent constraints.
Akiyama Susumu (Kariya JPX) Ito Kenzo (Okazaki JPX) Fukaya Hiroyasu (Nagoya JPX) Ogiso Haruhiko (Kariya JPX) Hirabayashi Yuji (Aichi JPX) Kawamura Takahide (Kariya JPX), Method and apparatus for controlling the duty cycle of an off-on type valve by monitoring the history of the state of th.
Rogers Wayne W. (Napa CA) Rogers Daniel D. (Berkeley CA) Wang Carl C. T. (Piedmont CA) Wang Andrew C. C. (Piedmont CA) Lian Fu-Ming (Berkeley CA), Multimedia apparatus for driving powered surgical instruments.
Lucas William L. (Henrico County VA) Asbill ; III Clarence M. (Richmond VA) Frank Gerald L. (Henrico County VA) Miller David M. (Henrico County VA), Pneumatic control system, control means therefor and method of making the same.
Perkins James T. (St. Charles MO) Appelbaum Peter F. (St. Louis MO) Painter John A. (St. Charles MO), Pneumatic controls for ophthalmic surgical system.
Finlay,Russell L.; Jung,Christopher C.; Huculak,John C.; Essex,Paul; Todd,Kirk W., Simultaneous proportional control of surgical parameters in a microsurgical system.
Sundblom Leif J. (Castro Valley CA) Rogers Daniel D. (Berkeley CA) Rogers Wayne W. (Napa CA), Variable pneumatic output means for use with ophthalmic micro-surgical instruments.
de Juan ; Jr. Eugene (Durham NC) Gahn Gerald S. (Manchester MO) Weidenbenner John J. (Manchester MO) Hickingbotham Dyson (Bahama NC), Vitrectomy probe.
Charles Steven T. (Germantown TN) Tyler ; deceased Hugh J. (late of Santa Ana CA by Barbara A. Tyler for the Hugh J. Tyler Family Trust) Domash David M. (Mission Viejo CA), Vitreous cutter.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.