Advanced first entry model for surgical simulation

We claim: 1. A surgical training device for practicing laparoscopic first entry surgical procedures, the surgical training device comprising: a simulated abdominal wall configured to be penetrable with an optical trocar; a receptacle containing one or more simulated organs; the one or more simulated organs being observable via a scope placed inside the optical trocar; wherein the receptacle is made of at least one layer of elastomeric material having an upper surface and a lower surface defining a thickness therebetween; the receptacle being configured to retain a negative pressure inside the receptacle such that the one or more simulated organs are located proximate to the simulated abdominal wall, wherein the surgical training device is configured such that penetration of the one or more of the simulated abdominal wall and receptacle releases the negative pressure, resulting in at least part of the one or more simulated organs to translate distally away from the simulated abdominal wall, and wherein the upper surface of the at least one layer of elastomeric material is attached at its perimeter to a lower surface of the simulated abdominal wall leaving an unattached central portion; the unattached central portion being surrounded by a portion of the at least one layer of elastomeric material that is attached to the simulated abdominal wall, forming an expandable separation or a pocket between the simulated abdominal wall and the at least one layer of elastomeric material. 2. The surgical training device of claim 1 wherein the receptacle is attached to the simulated abdominal wall such that the upper surface of the at least one layer of elastomeric material is located in juxtaposition adjacent to the simulated abdominal wall. 3. The surgical training device of claim 1 wherein the at least one layer of elastomeric material is sealed against the simulated abdominal wall at its perimeter. 4. The surgical training device of claim 1 wherein the one or more simulated organs are located within the expandable separation or pocket. 5. The surgical training device of claim 1 wherein the one or more simulated organs are formed integrally with the at least one layer of elastomeric material; the at least one layer of elastomeric material being formed from a plurality of layers; wherein each of the plurality of layers having a desired size, shape and transparency to simulate tissues and organs encountered within abdomen of a human being. 6. The surgical training device of claim 1 wherein the receptacle is drawn toward the simulated abdominal wall when the pressure inside the receptacle is negative, whereas the receptacle is stretched away from the simulated abdominal wall once the negative pressure is released. 7. The surgical training device of claim 1 wherein the simulated abdominal wall comprises a plurality of substantially planar layers. 8. The surgical training device of claim 1 wherein the surgical training device is further configured to restore the negative pressure inside the receptacle to simulate a loss of pneumoperitoneum during a surgical procedure; the negative pressure being restored via a valve located across the receptacle or through the optical trocar when inserted into the simulated abdominal wall. 9. A surgical training device, comprising: a penetrable simulated tissue structure having an upper surface and a lower surface and comprising at least one layer that simulates a tissue layer; a receptacle connected to the penetrable simulated tissue structure; the receptacle being made of at least one layer of elastomeric material forming a receptacle layer; one or more simulated organs disposed between the receptacle layer and the penetrable simulated tissue structure; the one or more simulated organs being configured to be located proximate to the penetrable simulated tissue structure; wherein the surgical training device is configured such that penetration of one or more of the penetrable simulated tissue structure and receptacle results in at least part of the one or more simulated organs to translate distally away from the penetrable simulated tissue structure to simulate surgical insufflation of an abdominal cavity, and wherein the receptacle layer is attached at its perimeter to the lower surface of the penetrable simulated tissue structure leaving an unattached central portion of the receptacle layer; the unattached central portion being surrounded by a portion of the receptacle layer that is attached to the penetrable simulated tissue structure, forming an expandable separation or a pocket between the penetrable simulated tissue structure and the receptacle layer. 10. The surgical training device of claim 9 wherein the receptacle layer has an upper surface and a lower surface defining a thickness therebetween. 11. The surgical training device of claim 9 wherein the receptacle layer is attached to the penetrable simulated tissue structure such that an upper surface of the receptacle layer is located in juxtaposition adjacent to the penetrable simulated tissue structure. 12. The surgical training device of claim 9 wherein the penetrable simulated tissue structure is configured to simulate an abdominal wall. 13. The surgical training device of claim 12 wherein the receptacle layer is sealed against the simulated abdominal wall at its perimeter. 14. The surgical training device of claim 9 wherein the one or more simulated organs are located within the expandable separation or pocket. 15. The surgical training device of claim 9 wherein the one or more simulated organs are formed integrally with the receptacle layer. 16. The surgical training device of claim 9 wherein the receptacle layer is formed from a plurality of layers; each of the plurality of layers having a desired size, shape and transparency to simulate tissues and organs encountered within the abdomen of a human body. 17. The surgical training device of claim 9 wherein the receptacle layer is configured to retain a negative pressure inside the expandable separation or pocket. 18. The surgical training device of claim 17 wherein penetration of the expandable separation or pocket releases the negative pressure. 19. The surgical training device of claim 9 wherein transfer of fluid into the expandable separation or pocket results in increasing a volume of an interior of said expandable separation or pocket. 20. The surgical training device of claim 19 wherein the at least one layer of elastomeric material comprises a valve for fluidic communication between the interior and exterior of the expandable separation or pocket. 21. The surgical training device of claim 9 wherein the expandable separation or pocket is expandable by mechanical or electro-mechanical inflation of the receptacle layer. 22. The surgical training device of claim 21 wherein the mechanical or electro-mechanical inflation of the receptacle layer is reached by mechanical driving means. 23. The surgical training device of claim 22 wherein the mechanical driving means comprises hydraulics, levers or balloons.