Small Animal Laparoscopy and Thoracoscopy. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
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Жанр произведения: Биология
Год издания: 0
isbn: 9781119666929
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      All instrument packs for MIS should include traditional open surgical instruments for the securing of drapes and initial port entry. Additionally, it is wise to always be prepared to convert to an open procedure when warranted. To that end, a general surgery pack containing at least drapes large enough to cover the patient and operating table; sufficient towel clamps to secure the drapes to the patient; a #3 scalpel handle; a pair each of Brown‐Adson and DeBakey thumb forceps; several curved mosquito and either Crile or Kelly hemostatic forceps; Metzenbaum, Mayo, and suture scissors; needle holders; a saline bowl; and 4 × 4 x‐ray detectable gauzes are needed.

Photo depicts an example of a laparoscopic instrument pack in its tray for sterilization and storage.

      Source: Photo courtesy of Dr. Philipp Mayhew.

      A basic starting laparoscopic instrument pack for a beginning endoscopic surgeon using multiple‐port approach should include a 5‐mm, 0° telescope or a 10‐mm, 0° telescope; a light cable; insufflator tubing; an endoscopic video camera; a Veress needle (if desired entry technique); three 5‐mm cannulas with two sharp‐tipped trocars and one blunt‐tipped trocar; one to two 10‐mm cannulas with one sharp and one blunt trocar (to accommodate a 10‐mm telescope, instruments, or energy devices); two reducer caps; 10‐mm double‐action Babcock or Duval grasping forceps; a 5‐mm double‐ or single‐action Babcock forceps; two 5‐mm curved Kelly or Maryland grasping‐dissecting forceps; 5‐mm Metzenbaum dissecting scissors; 5‐mm cup biopsy forceps with or without spikes; 5‐mm punch biopsy forceps; a‐5 mm palpation probe; and an ovariectomy hook.

      For more advanced surgeons, this basic pack may be expanded to include right‐angle dissecting forceps; additional graspers such as atraumatic tissue graspers, bullet‐nosed graspers, or bowel graspers; needle holders (straight or curved); additional suturing equipment such as a knot pusher or Suture Assistant; hook scissors; a suction and lavage device; a fan retractor; a 5‐mm, 30° telescope; bipolar electrosurgical instrumentation; mini‐laparoscopic telescopes and instrumentation; and single‐port access cannulas with either articulating or roticulating instruments.

       Nicole J. Buote

      Key Points

       Trocar assembly includes a cannula, seal, and obturator.

       Veress needle use for insufflation requires blind insertion of a specially designed needle for CO2 insufflation before trocar placement.

       In the direct insertion technique, the primary trocar is placed without preinsufflation with either a bladed trocar or an optical trocar.

       The Hasson technique requires a mini‐laparotomy with visualization of intraabdominal structures before placement of the trocar.

       Reported complications of trocar placement include laceration to intraabdominal organs, hemorrhage from intraabdominal vessels, and subcutaneous emphysema.

      In its simplest configuration, a trocar is a pen‐shaped instrument with a sharp triangular point at one end, typically used inside a hollow cylinder, known as a cannula or sleeve, which provides an access port into a cavity during surgery. Rigid telescopes must be placed through a cannula in order to gain access to the body cavity. The literature shows a notable inconsistency of terminology; often trocar is used to describe the assembly of a cannula with its associated obturator. A cannula–trocar assembly is made up of three components: a cannula, seal, and obturator.

      A cannula is a tube‐shaped metal or plastic shaft placed in the patient to allow access into the abdominal cavity during a laparoscopic procedure. Cannulas are sometimes sutured in place to the body wall or thoracic wall to ensure they do not migrate; they can also be screwed in place or held in place by inflatable balls and plastic flanges. Sheaths are protective shafts that are usually locked in place on the telescope, such as used with cystoscopes and arthroscopes [1].

      A seal is located at the top of the cannula, which allows instruments to pass through the cannula while preventing carbon dioxide (CO2) from escaping from the abdominal cavity. A gas‐tight valve is located at the top of the cannula to allow instruments to be inserted and removed during a procedure without permitting the insufflated carbon dioxide escape. Various types of valves are available (spring loaded, magnetic trap door, trumpet, silicone, and so on), offering different characteristics in terms of leakage, mode of operation, and location on the cannula. More recently, a valveless cannula has been designed that makes use of a pressurized curtain of gas at the top of the instrument, eliminating the need for a valve altogether. This approach has the dual benefit of significantly reducing carbon dioxide leakage and smudging of the laparoscope lens, which is problem commonly associated with traditional valve types [2].

      Today, a very wide range of precision‐engineered laparoscopic trocars exist, which has revolutionized patient care as we know it. Surgical trocars in human medicine are most commonly a single‐patient use instrument and have graduated from the “three‐point” design that gave them their name to either a flat bladed “dilating tip” product or something that is entirely blade free. In veterinary medicine, the most commonly used trocar assemblies are reusable, reautoclavable configurations made of stainless steel or plastic or silicone materials.

      Laparoscopic entry is covered in detail in Chapter 8. However, a brief description as it relates to instrumentation follows here.

      Initial trocar placement