The present invention relates to novel equipment's and methods for minimally invasive surgery emphasizing use of rigid platform for transoral endoscopic surgery of upper gastrointestinal tract. The present novel equipments and methods using the rigid platform aids in effective surgical procedures through natural orifice with accuracy, minimum bleeding, and under vision scarless major surgery of upper gastrointestinal (UGI) tract such as transoral cardiomytomy for achalasia cardia (TOEM), transoral fundoplication (TOF) for hiatus hernia, transoral bariatric surgery (TOBS), transoral oesophagectomy (TOO) for oesophageal cancers and NOTES UGI surgery. Present invention provides a Transoral Port (TOP) used for performing natural orifice surgery of the upper gastrointestinal tract; which mainly comprises of Sheath (SH), Blunt Introducer (BI), Telescope (TE), Diaphragm (DI), Silicon washers (SW), Tunnel pusher tube (TP), Airport (AP), Suction port (SP), Bevel (AB or PB), Markings (MA), Monitor (MO).

Apparatus is disclosed for providing access to a functioning vascular system of a patient, the apparatus comprising: a main body having sidewalls defining an interior region and an exterior region, a bottom end and a top end; a base being formed at the bottom end of the main body, securing means being configured on the base so as to allow attachment and formation of a seal between the base and the functioning vascular system of the patient, and the base being configurable to provide a passageway from the interior region of the main body to the functioning vascular system of the patient; and a cover being formed at the top end of the main body, wherein the cover provides a barrier between the interior region and the exterior region at the top end of the main body.

Methods and devices are provided for providing surgical access into a body cavity. In one embodiment, a surgical access device is provided that includes a housing coupled to a retractor. The housing can be have one or more movable sealing ports for receiving surgical instruments. Each movable sealing port can include one or more sealing elements therein for sealing the port and/or forming a seal around a surgical instrument disposed therethrough. Each movable sealing port can be rotatable relative to the housing and each sealing element can be rotatable relative to the housing along a predetermined orbital path.

An access device for surgical procedures includes a multiport end cap having a rigid body with a flexible support sealingly mounted to the rigid body with a plurality of separate access ports for accommodating introduction of individual surgical instruments into a body of a patient. At least one of the access ports is sealingly attached to the flexible support and extends in a proximal direction therefrom. The flexible support is of a material more flexible than those of the rigid body and access ports to provide for relative angular movement of at least one of the access ports to provide flexibility for positioning surgical instruments introduced through the access ports. The flexible support can include at least one flexible bellow.

Provided is an endoscopic surgical device and an overtube with which a surgeon can easily obtain a desired image and operability is high. The overtube includes a slider inside the overtube body that guides an endoscope and a treatment tool into a body cavity, the first valve member provided in the endoscope insertion passage, and the second valve member provided in the treatment tool insertion passage. F1>F3 and F2>F3 are satisfied when a fixing force for fixing the slider to the endoscope is defined as F1, a fixing force for fixing the slider to the treatment tool is defined as F2, and a frictional force that receives from the first valve member when the endoscope moves forward and backward is defined as F3.

A cannula for use in laparoscopic surgery has a central passage which may accept a trocar to create a laparoscopic incision in a body wall to an inner body cavity. A tubular section of the cannula is then pressed into the incision to form a port. The tubular section has passages through its walls for suturing needles and a source for insufflating gas. A tubular sleeve is slidably supported on the exterior surface of the tubular cannula for movement between a raised position clear of the needle passage exit ports and a lowered or rotated position blocking the exit ports to prevent insufflation gases from passing into the body wall.

An access device for surgical procedures includes an end cap having a rigid body with a flexible support sealingly mounted to the rigid body with at least one separate access port for accommodating introduction of individual surgical instruments into a body of a patient. The at least one access port is sealingly attached to the flexible support and extend in a proximal direction therefrom. The flexible support is of a material more flexible than those of the rigid body and the at least one access port to provide for relative angular movement of the at least one access port to provide flexibility for positioning surgical instruments introduced through the at least one access port.

An access device for surgical procedures includes a multiport end cap including a plurality of separate access ports for accommodating introduction of individual surgical instruments into the body of a patient. The access ports extend in a proximal direction. The end cap includes a distally extending seal ring. A bottom body has a distally extending tubular body with an access channel defined therethrough for accommodating surgical instruments from the access ports into the body of a patient. The bottom body includes a plurality of circumferentially spaced apart teeth, wherein the seal ring of the end cap is received inside and seals against a proximal rim of the bottom body. The end cap includes at least one flexible tab with distal teeth thereon configured to engage and disengage the teeth of the bottom body to selectively permit or prevent relative axial rotation of the multiport end cap.

A surgical access port comprises an instrument guide. The instrument guide comprises a proximal end, a distal end, a plurality of instrument guide channels between the proximal and distal ends, and an outside surface that fits closely to an inner wall surface of a cannula into which the instrument guide is inserted. The instrument guide also comprises a first guide channel opening defined along a length of a first guide channel of the plurality of instrument guide channels. The instrument guide also comprises a second guide channel opening defined along a length of a second guide channel of the plurality of instrument guide channels. The instrument guide also comprises an insufflation channel defined between the first and second guide channel openings. The insufflation channel extends from a position between the proximal and distal ends of the instrument guide to the distal end of the instrument guide.

In accordance with the present invention there is provided apparatuses and methods for using a medical instrument including a sizing and positioning adapter. The apparatus comprises an adapter for a medical instrument, the adapt having a body having a shim portion and an instrument holding portion adjacent the shim portion, wherein the shim portion provides an enlarged peripheral surface adjacent the medical instrument such that when the medical instrument is held in the instrument holding portion and the medical instrument and body are inserted through an opening in a patient tissue, at least a portion of the enlarged peripheral surface is in contact with at least a portion of the periphery of the opening in the patient tissue.