Abstract:
A hand held light source probe for use with a transillumination apparatus for tumor detection having a housing with a handle, light source, light skill and air circulating means.

Description:
BACKGROUND OF THE INVENTION 
     Transillumination apparatus for tumor detection in female human breasts generally requires a high intensity light source in a hand held probe. That portion of the probe to be engaged by the operator&#39;s hand must be cool enough to permit use for substantial time periods and the breast contacting potion of the probe must be substantially uniformly lighted with no focal spots of the light source which could burn the breast tissue. 
     BRIEF DESCRIPTION OF THE INVENTION 
     The probe of the present invention has a housing which includes a heat insulating handle portion enclosing an air cooled high intensity light source. A light pipe has a proximal plane surface end within the housing and terminates at its distal end following a curved section in a second plane surface spaced from the housing and lying at substantially 90° to the proximal surface. A light shield having substantially less area than the proximal end of the pipe is positioned between the light source and the pipe to positively prevent random focal points of light on the distal end of the pipe. The handle portion also includes a fan means positioned on that side of the light source remote from the light pipe to provide a cooling circulation of air over the exterior of the light source and the interior of the housing. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a side elevation partially in section of the probe; and 
     FIG. 2 is a perspective view of FIG. 1. 
    
    
     DETAILED DESCRIPTION 
     Referring to the drawings, the probe includes a handle portion 10 having a light pipe 12 extending from one end thereof. The pipe which is formed of LUCITE or the like has a proximal face 14 within the housing and a distal face 16 for contact with human tissue. The pipe is curved through a substantially 90° bend which facilitates positioning of the probe by the operator. The exterior side wall of the pipe is completely covered with a bright aluminum foil 18 so that all light projected into the pipe is retained and appears only at the distal end. 
     A light source 20 to illuminate the proximal face of the light pipe is mounted within the housing and is preferably an incandescent lamp of the projector type incorporating a reflector 22 which will focus the light from the filament at a fixed distance. In order to positively prevent the occurrence of random focal spots at the distal face of the light pipe, which could otherwise occur due to internal reflection from the foil wrap, a light shield 24 is positioned between the light source an the pipe. As shown most clearly in FIG. 2, the shield is of substantially less area than the proximal surface of the pipe. 
     Since light sources of this type generate considerable heat, a cooling means must be provided as shown by the fan 26 which will positively circulate air from openings 28 in the rear of the housing over the light source and the interior of the housing and then outwardly of the housing through openings 30. 
     The light source 20 is rigidly mounted in any convenient manner within the housing at a fixed distance from the light pipe. 
     The handle portion of the probe may be formed from a section of cylindrical PVC pipe and coated on its exterior surface by spray painting with aluminum paint to block the transmission of light and infrared energy. 
     While a preferred embodiment has been herein shown and described, Applicant claims the benefit of a full range of equivalents within the scope of the appended claims.