ECSP982377A - GUIDED ENERGY METHOD AND APPARATUS - Google Patents

GUIDED ENERGY METHOD AND APPARATUS

Info

Publication number
ECSP982377A
ECSP982377A ECSP982377A ECSP982377A EC SP982377 A ECSP982377 A EC SP982377A EC SP982377 A ECSP982377 A EC SP982377A EC SP982377 A ECSP982377 A EC SP982377A
Authority
EC
Ecuador
Prior art keywords
instrument
energy
line
target
subsurface target
Prior art date
Application number
Other languages
Spanish (es)
Inventor
John C Mcneirney
Michael K Landi
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed filed Critical
Priority to ECSP982377 priority Critical patent/ECSP982377A/en
Publication of ECSP982377A publication Critical patent/ECSP982377A/en

Links

Landscapes

  • Laser Surgery Devices (AREA)

Abstract

Un instrumento invasor tal como una aguja de biopsia, jeringa o perforadora adaptada para ser guiada por un rayo de energía, como un rayo láser a lo largo de una línea predefinida de un camino visible hacia un objetivo de subsuperficie, es divulgado. El instrumento es adaptado para ser utilizado en conjunción con un sistema de rayo de energía a una línea de camino de visibilidad hacia un objeto. El instrumento incluye un medio para acceder a un objetivo de subsuperficie percutánea, una porción conductor de energía y un medio sensible a energía, interpuestos entre los medios para acceder a un objetivo de subsuperficie de modo percutáneo y la porción conductor de energía. También se revela un método para el uso del instrumento. En este método, un operador monitorea el medio de respuesta a la energía para una indicación visual de alineamiento del instrumento. Con una línea predefinida de un camino visible, avanza a los medios de acceso percutáneo y así al objetivo de la subsuperficiea lo largo de una linea de camino visible hacia ese objetivo.An invasive instrument such as a biopsy needle, syringe, or perforator adapted to be guided by an energy beam, such as a laser beam along a predefined line of a visible path to a subsurface target, is disclosed. The instrument is adapted to be used in conjunction with an energy beam system on a line of sight path to an object. The instrument includes a means for accessing a percutaneous subsurface target, an energy conducting portion, and an energy sensitive means, interposed between the means for accessing a subsurface target percutaneously and the energy conducting portion. A method for using the instrument is also revealed. In this method, an operator monitors the energy response medium for a visual indication of instrument alignment. With a predefined line of a visible path, it advances to the percutaneous access means and thus to the subsurface target along a visible path line to that target.

ECSP982377 1998-01-22 1998-01-22 GUIDED ENERGY METHOD AND APPARATUS ECSP982377A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
ECSP982377 ECSP982377A (en) 1998-01-22 1998-01-22 GUIDED ENERGY METHOD AND APPARATUS

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
ECSP982377 ECSP982377A (en) 1998-01-22 1998-01-22 GUIDED ENERGY METHOD AND APPARATUS

Publications (1)

Publication Number Publication Date
ECSP982377A true ECSP982377A (en) 1999-01-05

Family

ID=42043300

Family Applications (1)

Application Number Title Priority Date Filing Date
ECSP982377 ECSP982377A (en) 1998-01-22 1998-01-22 GUIDED ENERGY METHOD AND APPARATUS

Country Status (1)

Country Link
EC (1) ECSP982377A (en)

Similar Documents

Publication Publication Date Title
ATE265190T1 (en) ENERGY CONTROLLED DEVICE
DK1189547T3 (en) Safety device comprising a stop for a drill instrument for use especially in dental surgery and a device for calibration and storage of drilling depth
CA2338786C (en) Light guiding device and method
DE69620242D1 (en) TRENCHLESS UNDERGROUND DRILLING SYSTEM WITH LOCALIZATION OF THE DRILL
BR0002973A (en) System and process for evaluating the resistivity of earth formations surrounding a well
NO984566D0 (en) Laser-applikatorsett
ES2010701B3 (en) APPARATUS AND METHOD FOR LOCATING A DISCONTINUOUS UNDERGROUND DRILLING DEVICE.
ES2100881T3 (en) ELECTRONICALLY LEGIBLE INFORMATION SUPPORT.
EP4417120A3 (en) Devices, systems and methods for tissue analysis, location determination and therapy thereof using optical radiation
DE10336276A1 (en) Operating unit, in particular for medical devices
ECSP982377A (en) GUIDED ENERGY METHOD AND APPARATUS
EP1255487B1 (en) Laser pointer
ES2102881T3 (en) TRACER SYSTEM FOR THE ANALYSIS OF ERRORS IN REAL-TIME OPERATING SYSTEMS.
SV1998000011A (en) GUIDED ENERGY METHOD AND APPARATUS
ES2035098T3 (en) CONNECTION ARRANGEMENT WITH ELECTRICAL CABLE SLOT AND CORRESPONDING CONNECTION INSTRUMENT.
GT199800015A (en) GUIDED ENERGY METHOD AND APPARATUS.
ES2166354T3 (en) DEVICE AND METHOD OF DETECTION OF THE PRESENCE OF OIL IN WATER.
Yaroslavsky et al. Ex vivo evaluation of super pulse diode laser system with smart temperature feedback for contact soft-tissue surgery
Ho et al. Microwave irradiation design using dielectric lenses (short papers)
Cannon et al. Probing the HiRes aperture near 1020 eV with a distant laser
BR9900372A (en) Transmission sector control device.
Sekulic et al. Testing of the soil chemical properties as a prerequisite for the establishment of orchards
Vendiola Site-growth relationship of Acacia mangium Willd.: the case of the provident tree farms, Inc. Plantation in San Teodoro, Oriental Mindoro [Philippines]
WO2024137946A3 (en) Measurement device and drill guide
Ferrer et al. Considerations on the tolerance for erosion losses in much developed soils