When monitoring blood oxygen levels in a patient during a magnetic resonance scan, detachable and reusable fiber optic cable heads (16, 18, 98, 131, 132) are coupled to an SpO2 monitor and to a hinged finger clip (40, 70, 90, 110, 190) on a patient. The finger clip (40, 70, 90, 110, 190) includes ap
When monitoring blood oxygen levels in a patient during a magnetic resonance scan, detachable and reusable fiber optic cable heads (16, 18, 98, 131, 132) are coupled to an SpO2 monitor and to a hinged finger clip (40, 70, 90, 110, 190) on a patient. The finger clip (40, 70, 90, 110, 190) includes apertures (94, 196) and a retaining structure (44, 95, 198) to which a coupling portion of the fiber heads (16, 18, 98, 131, 132) are releasable attached. The retaining structure includes retaining clips (44, 198), slots (95), or the like that flexibly receive and align the fiber heads (16, 18, 98, 131, 132). The retaining structure (44, 95, 198) may be deformable, such that detachment of the fiber heads (16, 18, 98, 131, 132) at the end of the MR scan renders the finger clip (40, 70, 90, 110, 190) unusable to ensure that the clip is not reused, thereby preventing cross-infection between patients. Alternatively, the finger clip (40, 70, 90, 110, 190) may be reusable and the retaining clips may be designed to withstand repeated attachment and detachment of the fiber heads (16, 18, 98, 131, 132). A compressible foam or plastic layer is coupled to the interior of the clip portions to provide a snug fit. A transparent layer (54) attached to the foam or plastic layer permits light to pass through the foam/plastic aperture while preventing the fiber heads (16, 18, 98, 131, 132) from contacting the patient's skin.
대표청구항▼
1. An oximetry probe, including: an appendage clip including first and second rigid clip portions, at least one of the clip portions including: a receiving aperture on an exterior surface of the clip portion, wherein the aperture releasably engages and aligns a fiber optic cable head through which l
1. An oximetry probe, including: an appendage clip including first and second rigid clip portions, at least one of the clip portions including: a receiving aperture on an exterior surface of the clip portion, wherein the aperture releasably engages and aligns a fiber optic cable head through which light is transmitted into or received from an appendage received in the clip;a compressible foam or plastic layer affixed to an interior surface of the clip portion, the compressible foam or plastic layer defining an aperture in alignment with the clip portion aperture;an attachment structure that releasably attaches to a fiber optic cable head in alignment with the aperture; andwherein a portion of the exterior surface surrounding the receiving aperture permanently deforms upon removal of the fiber optic cable head from the receiving aperture, such that it is rendered non-functional, thereby ensuring that the appendage clip is not re-used;wherein the fiber optic cable head comprises a coupling portion that has a truncated conical shape, a base of which forms a circular barb that snaps into the attachment structure and releasably locks the fiber optic cable head to the appendage clip, said coupling portion further including a rotatable ring adapted to permit the fiber optic cable head to swivel 360°. 2. The oximetry probe according to claim 1, further including: a transparent window layer that acts as a barrier between a patient's skin and the fiber optic cable head and permits light to pass there through to or from the fiber optic cable head. 3. The oximetry probe according to claim 1, wherein the attachment structure includes: one or more slots extending radially outward from the circumference of the receiving aperture, the slots permitting the receiving aperture to expand to accommodate the fiber optic cable head, and to releasably hold the fiber optic cable head in place. 4. The oximetry probe according to claim 1, wherein both the first and second rigid clip portions are substantially identical in shape and form, and wherein a hinge is coupled to distal ends thereof. 5. The oximetry probe according to claim 4, wherein the first and second rigid clip portions and the hinge are integrally molded plastic. 6. The oximetry probe according to claim 1, further including an adhesive layer that overlays the compressible foam or plastic layer. 7. The oximetry probe according to claim 1, wherein the appendage clip is color-coded to indicate size of the appendage clip. 8. The oximetry probe according to claim 1, wherein the oximetry probe is compatible with a magnetic resonance (MR) environment. 9. A releasably attachable fiber optic oximetry probe for use with disposable appendage clips, including: a pair of fiber optic cable heads that respectively transmit and receive light for monitoring blood oxygen levels in a patient, each fiber optic cable head having a coupling portion that releasably snaps into a respective retaining structure on an exterior surface of an appendage clip that is attached to an appendage of a patient;a patient monitor that receives light from the fiber optic cable heads and determines a blood-oxygen level of the patient therefrom; andwherein the removal of the coupling portion causes the retaining structure of the exterior surface to further permanently deform to a point where it is non-functional for retaining the coupling portion such that the appendage clip is not reusable;wherein each fiber optic cable head comprises a coupling portion that has a truncated conical shape, a base of which forms a circular barb that snaps into the attachment structure and releasably locks the fiber optic cable head to the appendage clip, said coupling portion further including a rotatable ring adapted to permit the fiber optic cable head to swivel 360°. 10. The oximetry probe according to claim 9, wherein the coupling portion has a truncated conical shape that snaps into, and is aligned by, the retaining structure, causing the retaining structure to deform to accommodate the coupling portion. 11. The oximetry probe according to claim 9, wherein the coupling portion is circular such that the fiber optic cable heads are rotatable while attached to the appendage clip. 12. The oximetry probe according to claim 9, wherein the oximetry probe is compatible with a magnetic resonance imaging environment. 13. A method of measuring blood-oxygen content in a patient, including: coupling one or more detachable fiber optic cable heads to respective flexible retaining structures on corresponding exterior surfaces of an appendage clip attached to an appendage of a patient;coupling a fiber optic cable connected to the one or more detachable fiber optic cable heads to a patient monitor;emitting light from the patient monitor through the one or more detachable fiber optic cable heads;receiving light from the one or more fiber optic cable heads;monitoring a blood-oxygen level of the patient;removing the appendage clip from the patient;detaching the one or more fiber optic cable heads from the appendage clip; andwherein the flexible retaining structures of the exterior surfaces are permanently deformed upon detachment of the one or more fiber optic cable heads, rendering the appendage clip unsuitable for subsequent use;wherein each fiber optic cable head comprises a coupling portion that has a truncated conical shape, a base of which forms a circular barb that snaps into the attachment structure and releasably locks the fiber optic cable head to the appendage clip, said coupling portion further including a rotatable ring adapted to permit the fiber optic cable head to swivel 360°. 14. The method according to claim 13, performed in a magnetic resonance environment.
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이 특허에 인용된 특허 (13)
Esseff George J. (Camarillo CA) Steiker Earl (Los Angeles CA), Electronic thermometer probe cover.
Richards Karl T. (Waukesha WI) Buchwald Randall H. (Waukesha WI) Jansta Donald R. (Waukesha WI) Lijewski Robert R. (Milwaukee WI), Fiber optic photoplethysmograph for a magnetic resonance imaging system.
Noll Gregory B. (Riverside CA) Maranto Jack J. (Capistrano Beach CA) Kardos Louis F. (Fountain Valley CA), Single channel snap-lock fiber optic connector.
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