Some characteristics of technique and early result of video-assisted thoracoscopic surgery for thymoma with myasthenia gravis at 103 Military Hospital

To review some characteristics of technique and evaluate the early-result of video-assisted thoracoscopic surgery for thymoma with myasthenia gravis at 103 Military Hospital. Subjects and methods: 61 thymoma patients with myasthenia gravis who underwent video-assisted thoracoscopic surgery thymectomy at 103 Military Hospital, from 10 - 2013 to 5 - 2019 were included. Results: There were no in-hospital mortality or major postoperative complications. The mean of operation time was 91.80 ± 49.94 mins, the mean of blood loss was 37.38 ± 31.58 mL, most of the patients resuscitated within 24 hours (93.5%), thoracic drainage duration was 57.84 ± 30.71 hours, and length of hospital stay was 9.8 ± 5.9 days. Conclusion: Video-assisted thoracoscopic surgery thymectomy for thymoma had few complications, and was safe for myasthenia gravis patients.

SOME CHARACTERISTICS OF TECHNIQUE AND EARLY

RESULT OF VIDEO-ASSISTED THORACOSCOPIC SURGERY

FOR THYMOMA WITH MYASTHENIA GRAVIS

AT 103 MILITARY HOSPITAL

Le Viet Anh 1 ; Nguyen Van Nam 1 ; Nguyen Truong Giang 2

SUMMARY

Objectives: To review some characteristics of technique and evaluate the early-result of

video-assisted thoracoscopic surgery for thymoma with myasthenia gravis at 103 Military

Hospital Subjects and methods: 61 thymoma patients with myasthenia gravis who underwent

video-assisted thoracoscopic surgery thymectomy at 103 Military Hospital, from 10 - 2013 to 5 -

2019 were included Results: There were no in-hospital mortality or major postoperative

complications The mean of operation time was 91.80 ± 49.94 mins, the mean of blood loss was

37.38 ± 31.58 mL, most of the patients resuscitated within 24 hours (93.5%), thoracic drainage

duration was 57.84 ± 30.71 hours, and length of hospital stay was 9.8 ± 5.9 days Conclusion:

Video-assisted thoracoscopic surgery thymectomy for thymoma had few complications, and was

safe for myasthenia gravis patients

* Keywords: Thymoma; Video-assisted thoracoscopic surgery; Myasthenia gravis.

INTRODUCTION

Thymoma is a primary tumor in the

upper and anterior mediastinum (90%),

accounting for 5 - 21.7% of all mediastinal

tumors and 47% of all anterior mediastinal

masses, about 0.2 - 1.5% of all malignant

tumor

Many authors had affirmed that when a

thymoma with myasthenia gravis (MG)

was diagnosed, thymectomy is a first-choice

treatment and most effective Surgical

removal of thymoma can be carried out via a trans-sternal or transcervical approach

Recently, thymectomy via video-assisted thoracoscopic surgery (VATS) has become

a preferred method for thymoma with

MG at 103 Military Hospital Therefore,

we carried out this research: To review

some characteristics of technique and evaluate the early result of video-assisted thoracoscopic surgery (VATS) for thymoma with MG at 103 Military Hospital

1 103 Military Hospital

2 Vietnam Military Medical University

Correspoding author: Le Viet Anh (drlevietanh@gmail.com)

Date received: 11/07/2019

Date accepted: 23/08/2019

SUBJECTS AND METHODS

1 Subjects

Sixty-one thymoma patients with MG,

as confirmed by postoperative histology,

who underwent VATS thymectomy at

103 Military Hospital from 10 - 2013 to

5 - 2019, were included

* Techniques of VATS thymectomy:

- Anaesthetization: With a double-lumen

endotracheal tube for one-lung ventilation

- Position: A 30 - 45 degree lateral

position

- Surgical approach: The left or right

VATS was determined according to the

position of the tumor presented in the

pre-operative chest CT-scan

- Trocars: VATS was usually carried

out with 3 trocars:

+ Trocar 1: At the 3rd intercostal space

(ICS) (or the 4th intercostal space) in the

anterior axillary (AAL) or mid axillary

(MAL) line for instruments

+ Trocar 2: At the 5th intercostal space

(or the 6th intercostal space) in the anterior

axillary (or mid-axillary) line for the camera

+ Trocar 3: At the 6th intercostal space

(or the 7th intercostal space) in the anterior

axillary (or mid-clavicular (MCL)) line for

instruments

In the indispensable cases need a more trocar to hold the tumor

- Determination of mediastinal pleura and anatomical landmarks, removing tumor and thymus gland Take the specimen with a specimen endo-bag under the camera's observation Check the surgical area and put the chest drainage tube

- Conversion to open surgery when there were complications which cannot be treated by VATS, invasive tumors that VATS could not remove safely

After surgery, if respiratory is guaranteed, withdraw the endotracheal tube and transfer

to the Department of Thoracic Surgery or

to the intensive care unit (ICU)

* Index:

- Sites: Sides, number and position of ports

- Surgery: VATS or conversion to open surgery

- Operating: Status of invasion, accidents, surgery time, blood loss

- Postoperative: ICU stay, chest tube removal time, complications, post-operative hospital stay

* Data: with the SPSS software,

version 23.0 (SPSS Inc., Chicago, IL, USA)

RESULTS

1 Some characteristics of the technique of VATS for thymoma with MG

Table 1: Sides, number and position of ports

Sites

Number of ports

Trocar 1

Trocar 2

Trocar 3

ports

(ICS: Intercostal space)

There were 35 cases (57.4%) approaching through the right pleural, the remaining

26 cases (42.6%) were approached via left pleural, most patients used 3 trocars

(96.7%) and there were 3 locations commonly used: 3rd ICS AAL (60.7%), 5th ICS MAL

(55.7%) and 6th ICS MCL 85.2%

Table 2: Relationship between surgery method and tumor size

Tumor size Surgery method

VATS

Conversion to open surgery

Total

(b: Chi - Square test)

Conversion to open surgery was available in all 3 size groups, higher in group

≥ 3 cm This difference was not statistically significant

Table 3: Masaoka stage and surgery method

Surgery method

VATS

Conversion to open

Total

(b: Chi - Square test)

8 cases had to conversion to open surgery, the most were in the group Masaoka Iva stage, one case in Masaoka I stage, this was the case with operative accident

Table 4: Characteristics of VATS for thymoma with MG

Surgical time (minutes)

There were 3.3% of complications, the average time of surgery was 91.80 minutes 23/61 patients (37.7%) within 60 minutes The average blood loss during surgery: 37.38 mL (at least 10 mL, maximum of 200 mL)

2 The early-result of VATS for thymoma with MG

Table 5: Early-result of VATS for thymoma with MG

Length of ICU stay (hours)

(hours)

Postoperative hospital stay

(days)

After surgery, most patients (42/61 = 68.9%) were removed the endotracheal tube and transferred directly to the Thoracic Department, in ICU within 24 hours (24.6%) and had time to withdraw drainage after surgery within 48 hours ( 68.9%) The duration

of postoperative treatment was less than 7 days (45.9%) and 8 - 10 days (34.4%) and the average treatment day was 9.8 ±±± 5.9 days (the shortest was 5 days, the longest was 37 days)

DISCUSSION

1 Some characteristics of the

technique of VATS for thymoma with

MG

The choice of left or right VATS

depends on the surgeon’s experience and

the anatomy of the tumor, which was

normally studied in preoperative chest

CT-scan While Yim et al (1995) prefered

to approach the tumor via right VATS,

most European surgeons prefer the

left-sided approach [1] In our study, the right

approach was mainly (57.4%) In fact,

right VATS offered better visualization

and control of the superior vena cava,

aorta and right atrium, thereby reducing

the potential risk of injury to these

structures However, with a non-small

amount of access to the left side of the

road (42.6%), we also had safe operation

with no complications According to many

opinions of other authors, it is agreed that

the pleural approach to the left or right

side is not different

VATS thymectomy could be accomplished with 3 ports: A 10 mm port for a telescope, two ports for instruments, while the fourth or the fifth trocar could be used when necessary Some surgeons prefered to use four trocars or single-port

In our study, we managed to completely remove the thymoma with 3 ports, except for only two patients (3.3%) with a large tumor that required another port to hold the tumor

The authors' comments that in addition

to patient posture, the position of trocar plays a very important role in the surgery Authors used different trocar position Nguyen Cong Minh used 3 trocars at 7th ICS PAL, AAL and 3rd ICS MAL Anthony P.Yim (1999): the 3rd ICS MAL, the 5th ICS PAL and the 6th ICS AAL Mineo T.C (1996) used 4 trocars at the 4th ICS MCL, the 5th ICS AAL for the camera, the 4th ICS AAL, the 6th ICS MCL and AAL [2] In

our study (table 1), we often used 3

trocars: the 3rd ICS AAL (60,7%), the 5th

ICS MAL (55.7%) and the 6th ICS MCL

(85.2%) In case of necessity, we used

another trocar at the 2nd ICS MCL

So far, there is still no agreement on

how big the thymoma’s size is, so it is

possible to work with it, how much should

it not be? The statistics according to table 2

showed that the rate of open surgery was

available in all size groups: size less than

3 cm with two cases, greater than 6 cm

with two cases and from 3 - 6 cm with

4 cases But this difference was not

statistical significance Therefore, it can

be seen that the size of the tumor is

relative because it depends on many

other factors, especially the invasion of

the tumor

It is better when VATS used for

thymoma at early stage (according to

Masaoka) Research was conducted by

Chung et al (2012) on 25 thymoma

patients without myasthenia indicated that

there were no patients in Masaoka stage

III, and only one case in Masaoka stage

IV [3] Similarly, our data indicated that

there were 8 patients in the Masaoka

stage III (13.1%) and 7 patients in the

Masaoka stage IVa (11.5%), the rest were

in Masaoka stage I, II Agasthian (2011)

had suggested that thymoma at an early

stage can be safely removed with VATS

[4] However, the author has reported that

there were 13 patients with invasive

thymoma which could be performed the

surgery successfully Table 3 showed in

fact that in 8 cases had conversion to

open surgery, most of all in Masaoka IVa

stage, there was only 1 case in Masaoka I

stage due to operation accident One

point to note was that there was a difference between the assessment of the invasive status of thymoma and surrounding organizations between images

on the CT-scan and in operating So that the surgeon had to consider carefully the characteristics and properties of tumors

on CT-scan before surgery, the direct assessment of tumors in operating is extremely important, to be able to predict the operation and make decisions immediately to operate with VATS or conversion to open surgery

The mean surgical time was 91.80 minutes, we experienced shorter

time surgery in the latter part of the study,

in which 23/61 operations (37.7%) were completed within 60 mins The majority of surgery time was from 60 minutes to

120 minutes (44.3%) This result was similar to other studies by Yim [1], Ashleigh Xie [5], Mineo T.C [2] (from

80 minutes to 160 minutes)

The amount of blood loss by the authors was also different, from 40 mL to 183.1 mL Blood loss in our study was 37.38 ± 31.58 mL (10 - 200 mL), patients with high amounts of blood loss were usually suffered from complications or conversion to open surgery, while patients with completely and conveniently VATS, the amount of blood loss was lower

2 The early result of VATS for thymoma with MG

The results of our study showed that the time stay at ICU after thymectomy was reduced with the VATS approach, as shown by either a smaller number of patients requiring ICU or shorter length of

ICU stay In our study, non-ICU: 68.9%; ≤

24 hours: 24.6%; > 24 - 48 hours: 3.3%; >

48 hours 3.3% Reduced resuscitation

time and ventilation time will reduce the

risk of respiratory failure compared to a

longer time In comparison with previous

research, it is clear that thymectomy by

VATS had significantly reduced the

duration of postoperative resuscitation

treatment compared to open surgery

Especially during the later period of the

study, most of our patients were transfered

straightly to the Department of Thoracic

after surgery It is further demonstrated

that patients had received many advantages

from VATS when performing thymectomy

According to table 5, the majority of

patients in our study were removed chest

tube after surgery within 48 hours (68.9%)

However, compared with the authors,

there were many different results, the

withdrawal chest tube time was from 1.8

to 4.2 days

Except for 7 patients (11.5%) with

postoperative respiratory failure and one

patient (1.6%) with a little pleural effusion,

non-hospital mortality or major postoperative

complication was observed in our study,

these results were similar to the study by

Chao (2015), Cheng (2008) [6], Chung

(2012) [3], Liu T.J (2014) [7], Manoly

(2014) [8], Sakamaki (2014) [9] and Ye B

(2014) [10] No case of diaphragmatic

paralysis as reported by Manoly’s study

(2014) (11.8%) [8], it was 6.7% in Ashleigh

Xie’,s study [5] and pneumothorax in

Ashleigh Xie’s study was 1.9% [5], Ye.B:

0.8% [10]

Most patients had a postoperative

treatment period of fewer than 7 days

(45.9%) and 8 - 10 days (34.4%) The length of postoperative treatment was 9.8 ± 5.9 days (5 - 37 days) The result of our study was so higher than the other authors, like Nguyen Cong Minh: 6.5 days (5 days - 22 days), Anthony P.Yim (1995) [1]: 5 days, Mineo T.C: 3 days, Mack M.J (1996): 4 days [12], Popescu I (2002) [13]: 2.28 days However, in comparison with previous open surgery (transternal surgery), the average postoperative hospital stay was shortened remarkably

CONCLUSION Video-assisted thoracoscopic surgery thymectomy for thymoma is safe surgery

It can be widely applied even for MG with

no death, fewer accidents and complications, good outcomes

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