|Figure 1: CT scan of the chest with arrow pointing out the thymus gland.|
General anesthesia via a double lumen endotracheal tube is used. The patient is positioned supine with an inflatable pressure bag placed horizontally or vertically behind the shoulders to extend the neck and to allow for improved exposure of the anterior mediastinum later in the procedure. (Figure 2 A, B). A large bore (16G) intravenous line is placed in a peripheral vein and an arterial line is also placed. The endotracheal tube is positioned to the left of the mouth and the head of the patient can be turned to the left to further improve access to the mediastinum. The entire neck and anterior chest are prepped and draped so that access to the sternum is easily available should conversion to sternotomy be required.
|Figure 2a: Patient positioned with neck extended.||Figure 2b: inflatable shoulder roll placed behind the shoulders.|
The surgeon wears a headlight to help with illumination of the mediastinum and loops to improve visualization when performing the cervical dissection as well as parts of the mediastinal dissection which are performed under direct vision. A thirty degree thoracoscope is used to provide illumination and visualization within the anterior mediastinum. Insertion of the scope through the cervical incision is done carefully to avoid smearing of the lens and it is maintained at the right end of the cervical incision while dissecting the left mediastinum and vice versa when dissecting the right. The surgeon is positioned at the head of the bed so a direct view of the mediastinum from superior to inferior is obtained. The assistant stands to the right or left of the surgeon, depending on the position of the thoracoscope. The video monitor is best positioned at the foot of the bed so that the surgeon and assistant have the same view of the mediastinum.
A transverse curved 5cm cervical incision is made 2 centimeters above the sternal notch between the sternocleidomastoid muscles and subplatysmal skin flaps are raised superiorly to the thyroid cartilage and inferiorly to the sternal notch (Figure 3, Video 1) . The strap muscles are dissected in the midline and down to the sternal notch. The upper poles of the thymus are identified on the posterior aspect of the strap muscles where they have the appearance of encapsulated fat and can be bluntly dissected with a “peanut” dissector from the surrounding tissue (Video 2). The thyrothymic ligaments at the superior extent of the poles are ligated and divided in between 2-0 silk ligatures which are left long on the thymic end. This allows for traction on the gland which facilitates the dissection into the superior mediastinum (Figure 4).
|Figure 3: Cervical incision with dissection of strap muscles.||Figure 4: Superior pole of the thymus dissected into the mediastinum.|
The plane just posterior to the sternum is developed bluntly with a finger and the Rultract retractor is placed and the skyhook used to elevate the sternum (Figure 5A & B, Video 3) . The inflatable pressure bag posterior to the patient is now deflated, allowing the anterior mediastinum to further expand as the middle mediastinum falls away.
|Figure 5a & 5b: Rultract retractor in place.|
The thymus is dissected into the superior mediastinum using blunt, sharp and cautery dissection interchangeably (Video 4). The thymic veins are encountered posterior to the gland draining into the antero-inferior aspect of the left innominate vein. These are isolated and ligated using 2-0 silk ligatures (Video 5). Clips are not used as the repeated passage of instruments through this area during the operation may cause them to dislodge. Extension of the gland behind the innominate vein can be dissected at this time and the posterior surface of the gland is dissected to a level inferior to the vein.
The substernal plane is then created bluntly using a tonsil sponge on a curved ring clamp (Video 6). This dissection extends from the sternal notch to the domes of the diaphragm and laterally to the pleural reflections and separates the anterior surface of the thymus from the chest wall. This can be done under direct vision or with the thoracoscope, which is introduced through either end of the neck wound.
The left lung is deflated and the mediastinal pleura is widely opened sharply or with cautery starting from the diaphragm inferiorly to the level of the innominate vein (Video 7). Care is taken at the superior extent of this dissection to protect the phrenic nerve and internal mammary vessels; this portion of the dissection is done after the nerve has been visualized. The thoracoscope provides excellent illumination and improved visualization at this stage, but this dissection can also be done under direct vision. Use of a Yankauer sucker keeps the field free of smoke and it can be used to place tension on the cut pleural edge. Collapsing the left lung aids in the ease of performing this part of the dissection, allowing the phrenic nerve running over the lateral pericardial surface to be kept in view at all times and permitting a more complete mediastinal dissection (Video 8). Rolling the OR table to the contra-lateral side of the mediastinal dissection improves visualization and makes this part of the mediastinum more accessible.
The thymus is grasped and retracted to the right and dissected medial to the phrenic nerve using a combination of sharp (thoracoscopic scissors) and blunt techniques (“peanut” or tonsil sponge) starting superiorly below the AP window and continuing distally to the left inferior pole (Video 9). Small vessels that are encountered are clipped with a 5mm endoclip applier and divided. Once the left margin of the gland has been dissected this is continued medially, separating it from the anterior surface of the pericardium sharply or bluntly. The use of cautery on the pericardium should be minimized as this reduces the chance of pericarditis and pericardial effusion postoperatively. The diaphragmatic dissection of the mediastinal fat and gland is done in a similar fashion. This dissection is continued as far right of the midline as possible.
The left lung is re-inflated. The right pleura is opened after collapsing the right lung. This opening is started inferiorly and continued superiorly, taking care to protect or divide the internal mammary vein at the upper extent of the opening if this facilitates further exposure (Video 10). The phrenic nerve running over the anterior hilum is visualized and avoided as the right margin of the gland is dissected after retracting it to the left, starting superiorly or inferiorly. The dissection is continued medially until all except the upper part of the gland is attached to the anterior surface of the pericardium.
|Figure 6: Complete thymus removed.|
Transcervical thymectomy was first performed by Sauerbruch in 1912 for myasthenia gravis  however it was not till the 1960’s that Crile  re-popularized the thymectomy via the transcervical route. In 1988 Jaretzki coined the term “maximal thymectomy,” which consisted of a cervical incision to completely dissect the gland in the neck and a sternotomy via which all anterior mediastinal tissue was removed between the phrenic nerves, the SVC and trachea, AP window . He reported an improved remission rate for myasthenia and this became the standard against which other techniques have been measured . In the same year Cooper reported a modified technique of transcervical thymectomy employing the use of a custom sternal retractor which allowed improved visualization of the mediastinum . Subsequently, series employing this technique have reported comparable rates of remission to that of maximal thymectomy .
Thoracoscopy, and more recently robotics, have now been added to the techniques by which thymectomy can be accomplished with either a left or right chest approach, and series have reported a short term remission equivalent to previous techniques [8, 9]. In 2003, Keshavjee described the addition of thoracoscopy to the transcervical route which improved illumination and visualization of the mediastinum facilitating the transcervical thymectomy [10, 11].
There are now numerous series demonstrating the efficacy of the transcervical route for thymectomy in myasthenic patients, with complete remission rates similar to those of sternotomy but without the morbidity [12-16]. An initial series in 1994  reported a 5-year complete remission rate of 43% which is supported by the largest series on transcervical thymectomies just published in 2006 . The complication rate was 7% and the duration of hospital stay was zero to three days [16, 17]. Preoperative disease severity is predictive of postoperative remission, with more severe disease being associated with a lower chance of remission .
Thymectomy for thymoma via the neck is controversial, with little data regarding long term outcomes. If the technique is to be performed, patient selection should be limited to those with <2 cm well encapsulated tumors . A recent study advocates addition of the transcervical approach for patients undergoing thymectomy by thoracoscopy to ensure a complete thymectomy, but other series report comparable remission rates to trans-sternal or cervical approaches . The transcervical approach to thymectomy with video-assistance is a safe, reliable technique to perform a complete thymectomy with a low morbidity and hospital stay.
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Publication Date: 22-Feb-2007
Last Modified: 22-Feb-2007