Digital manometry finger-mountable sensor device

We claim: 1. A probe system comprising: a finger-mountable housing having a distal end and a proximal receptacle end, wherein the proximal receptacle end defines an opening to receive a finger; and a probe assembly, disposed on or within the finger-mountable housing and having at least (i) a puborectalis activity sensor to measure activity of a puborectalis muscle of a patient when the finger-mountable housing and probe assembly are inserted into an anus and rectum of the patient, (ii) a sphincter activity sensor to measure activity of an anal sphincter muscle of the patient when the finger-mountable housing and probe assembly are inserted into the anus and rectum of the patient, and (iii) an intrarectal pressure sensor to measure intrarectal pressure when the finger-mountable housing and probe assembly are inserted into the anus and rectum of the patient, wherein the puborectalis activity sensor includes at least a first electrode pair having a first conductive trace, strip, or wire and a second conductive trace, strip, or wire, wherein the first conductive trace, strip, or wire and the second conductive trace, strip, or wire (i) are each arranged to extend in a direction parallel to a longitudinal axis of the finger when the finger is inserted in the opening, and over at least a portion of a fingertip pad of the inserted finger, and (ii) are arranged with a spacing, relative to each other and in a direction perpendicular to the longitudinal axis of the inserted finger, that is between 2 mm and 8 mm, wherein the sphincter activity sensor includes at least a second electrode pair positioned at the proximal receptacle end of the finger-mountable housing, and wherein the intrarectal pressure sensor is positioned at the distal end of the finger-mountable housing, such that the intrarectal pressure sensor is adjacent a fingernail of the finger when the finger is inserted in the opening. 2. The probe system of claim 1 , wherein the distal end of the finger-mountable housing has a tactile region for providing a sense of touch for the finger. 3. The probe system of claim 2 , wherein the tactile region is an opening in the finger-mountable housing. 4. The probe system of claim 1 , wherein the puborectalis activity sensor comprises two pairs of electrodes arranged in a double differential configuration. 5. The probe system of claim 1 , wherein the probe assembly further comprises an inertial sensor configured to measure at least one selected from the group consisting of (i) acceleration of a tissue of the patient and (ii) velocity of the tissue. 6. The probe system of claim 1 , wherein the probe assembly further comprises an anal sphincter pressure sensor located at the proximal receptacle end of the finger-mountable housing. 7. The probe system of claim 1 , wherein the probe assembly further comprises a pH sensor. 8. The probe system of claim 1 , wherein the probe assembly further comprises an osmolality sensor. 9. The probe system of claim 1 , wherein the probe assembly further comprises an ultrasound transducer for ultrasound elastography. 10. The probe system of claim 1 , wherein the probe assembly further comprises one or more sensors configured to measure a deformation of the finger-mountable housing. 11. The probe system of claim 1 , wherein the probe assembly further comprises a plurality of pressure sensors of a sensor array having a generally spiral or concentric ring arrangement along at least a portion of a length between the distal end and the proximal receptacle end of the finger-mountable housing. 12. The probe system of claim 11 , wherein the plurality of pressure sensors includes at least 40 pressure sensors arranged to provide a topographic pressure map. 13. The probe system of claim 1 , wherein the probe assembly further comprises an adjustable-length pressure sensor. 14. The probe system of claim 1 , further comprising a controller assembly communicatively coupled to the probe assembly. 15. The probe system of claim 14 , wherein the controller assembly is configured to: determine a first differential value between a first and a second measurement of the puborectalis activity sensor, determine a second differential value between a first and a second measurement of the sphincter activity sensor, determine a third differential value between a first and a second measurement of the intrarectal pressure sensor, and provide an indication relating to a likelihood of an anorectal disorder based at least in part on the first, second, and third differential values. 16. The probe system of claim 15 , wherein the anorectal disorder is dyssynergic defecation. 17. The probe system of claim 15 , wherein the anorectal disorder is fecal incontinence. 18. The probe system of claim 14 , wherein the controller assembly comprises a controller assembly housing and a processor. 19. The probe system of claim 18 , wherein the controller assembly further comprises: an attachment mechanism mounted to the controller assembly housing and configured to be removably attachable to a user of the probe system; and a first plug receptacle for coupling the probe assembly to one or more circuits within the controller assembly housing via one or more wires. 20. The probe system of claim 19 , wherein the controller assembly further includes a second plug receptacle for coupling the one or more circuits within the controller assembly housing to one or more circuits within a remote controller assembly housing, and wherein the one or more circuits within the remote controller assembly housing include the processor. 21. The probe system of claim 20 , wherein the one or more circuits within the remote controller assembly housing are components of a remote personal computer, and wherein the one or more circuits within the controller assembly housing include an amplifier. 22. The probe system of claim 19 , wherein the controller assembly further comprises a wireless transmitter for wirelessly coupling the one or more circuits within the controller assembly housing to the one or more circuits within the remote controller assembly housing. 23. The probe system of claim 1 , wherein the probe assembly further comprises a first anal sphincter pressure sensor, a second anal sphincter pressure sensor, and a third anal sphincter pressure sensor radially spaced around a circumference of the proximal receptacle end of the finger-mountable housing. 24. The probe system of claim 1 , wherein the finger-mountable housing is a multilayer structure comprising: an inner support layer maintaining structural integrity of the finger-mountable housing while the finger-mountable housing is inserted into the anus and rectum of the patient; a probe layer disposed adjacent to the inner support layer; and a flexible outer layer disposed to sandwich the probe layer between the inner support layer and the flexible outer layer. 25. The probe system of claim 24 , wherein the probe layer includes a flex circuit having electrical leads for connecting the probe assembly to a controller assembly through an electrical receptacle. 26. The probe system of claim 24 , wherein the probe layer includes an embedded wireless transmitter for wirelessly communicating with a controller assembly. 27. The probe system of claim 1 , wherein the probe system comprises a glove, and wherein an index finger of the glove includes the finger-mountable hou