Palatal surgery in a transoral robotic setting (TORS): preliminary results of a retrospective comparison between uvulopalatopharyngoplasty (UPPP), expansion sphincter pharyngoplasty (ESP) and barbed repositioning pharyngoplasty (BRP).

It has become increasingly clear in the past decade that surgical management of obstructive sleep apnoea hypopnoea syndrome (OSAHS) is most successfully managed with multilevel surgery. We evaluated the outcomes of multilevel interventions comparing three different palatal techniques added to TORS: uvulopalatopharyngoplasty (UPPP), a modified expansion sphincter pharyngoplasty (ESP), inspired by the Pang expansion sphincter pharyngoplasty technique and the latest barbed repositioning pharyngoplasty (BRP). Thirty patients were retrospectively evaluated. Ten patients underwent UPPP by Fairbanks, 10 BRP and 10 a modified ESP already described. All patients underwent TORS, tonsillectomy and septo-turbinoplasty. For all cases, the following data were retrieved and revaluated: preoperative and postoperative apnoea-hypopnoea index (AHI), preoperative and postoperative Epworth Sleepiness Scale (ESS), pain visual analogue scale (VAS; 0-10) for the first 5 days postoperatively, palatal operative time for each surgical technique, discharge date and complication types and rate. Both BRP and ESP resulted in better postoperative AHI values and higher surgical success rates in comparison with UPPP. On the other hand, BRP was not more effective than ESP. ESP surgery time was significantly higher than UPPP, while BRP was the quickest procedure. In summary, ESP and BRP seem to be more effective than UPPP in a multilevel surgical robotic setting. However, being quicker, easy to learn and with a low rate of complications, BRP is a safe, effective and promising option for treatment of OSAHS patients. © Copyright by Società Italiana di Otorinolaringologia e Chirurgia Cervico-Facciale, Rome, Italy.

Introduction

Today, transoral robotic surgery (TORS) for obstructive sleep apnoea-hypopnea syndrome (OSAHS) is a widely recognised effective therapeutic option.

It has become increasingly clear in the past decade that surgical management of OSAHS is most successfully managed with multilevel surgery -.

In particular, drug-induced sleep endoscopy (DISE) has shown that the hypopharynx and base of tongue are important anatomic components of obstruction in OSAHS and therefore must be treated .

During the last decades, several variations in palatal surgery have been proposed. We evaluated the outcomes of multilevel interventions comparing three different palatal techniques added to TORS: uvulopalatopharyngoplasty (UPPP), a modified expansion sphincter pharyngoplasty (ESP), inspired by the Pang expansion sphincter pharyngoplasty technique and the latest barbed repositioning pharyngoplasty (BRP) -.

Materials and methods

Thirty patients were retrospectively evaluated. The patients were randomly selected from the dataset including OSAHS patients treated surgically from May 2008 to December 2015 at the ENT unit of the Hospital Morgagni- Pierantoni, Forlì, Italy. Incomplete or very recent cases, with a postoperative polysomnographic evaluation shorter than 6 months, were excluded. Patients met inclusion criteria if they were 18 years of age or older, had failed continuous positive airway pressure as a nonsurgical treatment alternative and had an apnoea-hypopnoea index (AHI) of 20 or above. Patients who had had prior airway surgery, such as UPPP or tonsillectomy, were not eligible. Preoperative workup also included DISE. Only patients who were found to have significant collapse contemporarily at the retropalatal, retrolingual and hypopharyngeal levels were included. Three groups, each with 10 patients, were compared. Ten patients underwent UPPP by Fairbanks , 10 BRP and 10 a modified ESP already described . All 30 patients were treated with a robotic tongue base reduction with supraglottoplasty (SGP) by Vicini with temporary tracheostomy, tonsillectomy and septo-turbinoplasty. For all cases, the following data were retrieved and revaluated:

age;

sex;

preoperative BMI;

preoperative and postoperative AHI (all sleep studies were carried out in an unattended fashion by means of a Polymesam 8-channel; reviewed and scored by the same expert in sleep medicine according to the American Academy of Sleep Medicine Guidelines 2007 ;

preoperative and postoperative Epworth Sleepiness Scale (ESS), using the Italian version of the Epworth test that was adapted and tested for the Italian-speaking population ;

pain visual analogue scale (VAS; 0–10) for the first 5 days postoperatively;

palatal operative time for each surgical technique (excluding tonsillectomy), as measured by our operating theatre electronic system;

discharge date;

complication types and rate.

The 3 groups were reasonably matched for sex, age, BMI and preoperative AHI. The definition of surgical response and success were a reduction from the preoperative AHI of at least 50% (response) and less than 20 events per hour (success). All clinical records were reviewed to examine all the differential features between the 3 groups potentially related to the different palate procedures applied.

The study met the approval of the Local Board of Ethics (Institutional Review Board of the Hospital Morgagni– Pierantoni, Forlì). Statistical evaluation of pre-postoperative changes between groups was performed by means of Mann-Whitney, Kruskal Wallis and Wilcoxon tests, with the latter used to evaluate pre-postoperative changes in each group.

Results

The 3 groups showed no significant difference in F/M ratio (1/9 in all groups), age, BMI and preoperative AHI (Table I). The AHI decreased significantly after surgery in all groups except UPPP. ESS values, however, decreased significantly postoperatively in all groups (Table II). No significant differences in post-operative pain, deltaAHI (preAHI-postAHI) and hospital stay were recorded (Table III).

Table I.

Pre-operative intergroup analysis.

		N	Mean	Std. deviation	P
Age	UPPP	10	58.40	9.90	0.170
	ESP	10	52.80	11.39
	BRP	10	48.20	11.39
	Total	30	53.13	11.36
BMI	UPPP	10	26.79	3.72	0.181
	ESP	10	27.03	2.12
	BRP	10	28.77	2.56
	Total	30	27.53	2.92
preAHI	UPPP	10	34.04	14.03	0.953
	ESP	10	35.59	13.87
	BRP	10	37.84	21.60
	Total	30	35.82	16.37

Table II.

Intragroup analysis: pre-postoperative variations.

	Group	Mean	Std. Deviation	P
preAHI	BRP	34.04	14.03	0.005
postAHI		13.53	7.76
preESS		10.40	2.50	0.008
postESS		3.90	3.57
preAHI	ESP	35.59	13.87	0.005
postAHI		9.63	9.25
preESS		13.00	4.49	0.005
postESS		4.90	3.87
preAHI	UPPP	37.84	21.60	0.059
postAHI		22.92	13.30
preESS		12.30	4.24	0.021
postESS		8.50	5.42

Table III.

Post-operative intergroup analysis (not significant).

		N	Mean	Std. Deviation	P
Pain	UPPP	10	1.69	0.62	0.416
	ESP	10	1.79	0.90
	BRP	10	2.79	2.02
	Total	30	2.09	1.37
Hospital stay	UPPP	10	6.70	1.25	0.811
	ESP	10	7.10	1.52
	BRP	10	7.10	3.24
	Total	30	6.96	2.12
deltaAHI	UPPP	10	20.51	12.45	0.313
	ESP	10	25.96	13.95
	BRP	10	14.92	26.83
	Total	30	20.46	18.78

Surgical success rate was 90% in the ESP and BRP groups, and 50% in the UPPP group. ESP and BRP postoperative AHI values were significantly lower than UPPP. On the other hand, ESP and BRP did not show any differences in this measure. Both ESP and BRP post-operative ESS values were significantly lower than the UPPP figure, while no differences were seen between the first two groups. ESP surgery time was significantly higher than UPPP while BRP was seen to be the quickest procedure (Table IV).

Table IV.

Post-operative intergroup analysis.

	Group	Mean	Std. Deviation	P
palatalTIME	BRP	15.70	2.16	0,00
	UPPP	28.20	2.29
postESS	BRP	3.90	3.57	0,019
	UPPP	8.50	5.42
postAHI	BRP	13.53	7.76	0,043
	UPPP	22.92	13.30
PalatalTIME	BRP	15.70	2.16	0,00
	ESP	37.60	4.59
postESS	BRP	3.90	3.57	0,62
	ESP	4.90	3.87
postAHI	BRP	13.53	7.76	0,29
	ESP	9.63	9.25
palatalTIME	ESP	37.60	4.59	0,00
	UPPP	28.20	2.29
postESS	ESP	4.90	3.87	0,013
	UPPP	8.50	5.42
postAHI	ESP	9.63	9.25	0,019
	UPPP	22.92	13.30

No complications were recorded in any group.

Discussion

In our sleep disorder breathing surgical practice, it is routine to perform multilevel surgery at the same surgical session.

In our philosophy, TORS is just a step devised to address tongue base and supraglottic collapse, and is routinely carried out together with nose and palate surgery if required, according to DISE findings.

In the last years, many palatal techniques have been proposed. The introduction of the Pang ESP technique and, more recently, BRP have changed our OSAHS multilevel surgical setting . These two techniques soon became our first option with the robot-assisted multilevel procedure. Recently, the effectiveness of ESP was demonstrated in a meta-analysis by Pang . Moreover, our group reported on the superiority of ESP in a multilevel setting when compared to UPPP .

However, in a 2015 study by our group it was shown that the BRP technique is feasible, safe and effective in the management of OSAHS patients . The use of a barbed suture allows to perform a quick procedure and to respect mucosal and muscular structures (Figs. 1, 2).

Fig. 1

Descriptive scheme of all BRP steps highlighting the anchoring points for the barbed suture.

Fig. 2

Pre-operative and post-operative images of a patient treated with a BRP technique: the improvement of the anterior-posterior diameter is shown.

The purpose of the present study was to show the superiority of ESP and BRP compared to traditional UPPP in a multilevel setting, highlighting the advantages of BRP.

Taking into account the retrospective nature of our study and the limited size of the three groups, our preliminary results may be interpreted as follows. Both BRP and ESP resulted in better postoperative AHI values and higher surgical success rate in comparison with UPPP. On the other hand, BRP was not more effective than ESP.

ESP surgery time was significantly higher than UPPP while BRP was seen to be the quickest procedure. Furthermore, in our series no complications were recorded, likely due to the small size of our sample. However, we assume that the probability of bleeding is significantly lower in BRP patients, as the soft palate and the pharyngopalatine muscle are respected when performing this technique.

No difference in postoperative pain was recorded between groups, probably because all patients underwent tonsillectomy contemporarily.

The higher effectiveness of BRP and ESP may be interpreted considering their more focused action on the lateral wall area. Moreover, the authors feel that circular scarring and tension produce a significantly delayed reduction of oropharyngeal section in UPPP cases. In ESP, the same scar retraction would probably tend to straighten the angle between the plane of tonsillar fossa and the intrapalatal muscular flap, producing a progressive enlarging vector for the lateral wall and palate.

BRP, instead, allows to displace the posterior pillar (palatopharyngeal muscle) in a more lateral and anterior position to enlarge the oropharyngeal inlet as well as the retropalatal space. In a previous study published by our group, it was shown how this technique is easy to learn even for non-experienced surgeons, less time consuming and with no significant complications .

Conclusions

ESP and BRP seem to be more effective than UPPP in a multilevel surgical robotic setting. Being quicker, easy to learn and with a low rate of complications, BRP appears to be a safe, effective and promising option for the treatment of OSAHS patients.