Instrument port for minimally invasive cardiac surgery

We claim: 1. An instrument port for introducing an instrument into a surgical site, the instrument port comprising: a port body including a body channel extending therethrough from a proximal end to a distal end of the port body; an instrument sleeve in slidable contact with the body channel and having an instrument channel configured to receive the instrument, the instrument sleeve removably sealed within the port body, wherein an outer surface of the instrument sleeve and an inner surface of the port body define a fluid gap within the body channel, and wherein a flood line is defined in the fluid gap between the outer surface of the instrument sleeve and the inner surface of the port body; a transparent bulb at the distal end of the port body; and an imaging system at the distal end of the port body within the transparent bulb, wherein the imaging system comprises an imaging device and an illumination device. 2. The instrument port of claim 1 , wherein the imaging device comprises an infrared imaging device. 3. The instrument port of claim 1 , wherein the transparent bulb is configured to provide a clear imaging medium. 4. The instrument port of claim 1 , wherein the imaging system is positioned on the distal end of the port body such that the surgical site can be imaged. 5. The instrument port of claim 1 , wherein the illumination device comprises a fiber optic illumination device. 6. The instrument port of claim 1 , wherein the illumination device is positioned on the distal end of the port body such that the surgical site can be illuminated when the instrument is inserted into the surgical site. 7. The instrument port of claim 1 , further comprising: a fluid inlet at the proximal end of the port body and in fluid communication with the flood line, the fluid inlet configured to receive fluid from a fluid source; and a fluid outlet at the proximal end of the port body and in fluid communication with the body channel, the fluid outlet configured to be connected to a suction source. 8. The instrument port of claim 7 , wherein the instrument channel of the instrument sleeve is a first instrument channel, and wherein the fluid outlet is configured to be in fluid communication with a second instrument channel that extends through the instrument when the instrument is inserted into the body channel. 9. The instrument port of claim 8 , wherein application of suction to the fluid outlet causes fluid to be drawn into the fluid inlet from the fluid source, through the flood line, into a proximal end of the instrument channel, through the second instrument channel towards a distal end of the second instrument channel, and out through the fluid outlet. 10. The instrument port of claim 7 , wherein the fluid outlet is configured to be in fluid communication with an interface between the instrument and the instrument sleeve. 11. The instrument port of claim 10 , wherein application of suction to the fluid outlet causes fluid to be drawn into the fluid inlet from the fluid source, through the flood line, into an inlet at a distal end of the instrument sleeve, through the instrument sleeve between an outer surface of the instrument and an inner wall of the instrument sleeve, and out through the fluid outlet. 12. The instrument port of claim 1 , further comprising an openable seal disposed at the distal end of the port body. 13. The instrument port of claim 12 , wherein the openable seal is configured to be opened when a positive pressure is exerted on the openable seal. 14. The instrument port of claim 12 , wherein the openable seal is configured to allow a distal end of the instrument to open the openable seal and protrude through the distal end of the port body. 15. The instrument port of claim 1 , further comprising an imaging sleeve in slidable contact with a second body channel defined in the port body, the imaging sleeve including the transparent bulb and configured to receive the imaging system. 16. The instrument port of claim 15 , further comprising a flush line having an outlet at the proximal end of the port body, the flush line configured to rinse an area directly in front of the transparent bulb to provide a clear optical line of sight for the imaging device. 17. The instrument port of claim 15 , wherein the transparent bulb is flexible such that it conforms to an imaged surface. 18. The instrument port of claim 1 , further comprising a ribbed heart tissue anchor disposed at the proximal end of the port body. 19. The instrument port of claim 18 , wherein the ribbed heart tissue anchor is adjustably attached to the port body. 20. The instrument port of claim 18 , wherein the ribbed heart tissue anchor is molded on the port body. 21. The instrument port of claim 1 , wherein the instrument port is configured to be inserted into an arrested or still-beating heart in the presence of blood. 22. The instrument port of claim 21 , wherein the instrument port is configured such that a total amount of blood lost during the introducing and a removing of the instrument from the surgical site is limited to a flush volume of the body channel. 23. The instrument port of claim 1 , wherein the flood line occupies a first portion of the fluid gap that has a width from the outer surface to the inner surface that is larger than a corresponding width of an adjacent portion of the fluid gap that is not occupied by the flood line. 24. The instrument port of claim 1 , wherein a second flood line is defined in the fluid gap between the outer surface of the instrument sleeve and the inner surface of the port body, and wherein an portion of the fluid gap that is between the flood line and the second flood line has a width from the outer surface to the inner surface that is smaller than both a corresponding width of the flood line and a corresponding width of the second flood line.