Ligation and Hemorrhoidopexy Technique Versus Ligation of Hemorrhoidal Arteries Using Ultrasound for Hemorrhoids

Not Applicable

Completed

• Conditions: Hemorrhoids
• Interventions: Procedure: Ultrasound Guided Ligation of Hemorrhoidal Arteries; Procedure: Ligation and Hemorrhoidopexy

• Registration Number: NCT03298997
• Lead Sponsor: Larissa University Hospital

Brief Summary

The purpose of this study is to compare two techniques for treating hemorrhoids, the ligation and hemorrhoidopexy technique and the conventional ligation of hemorrhoidal arteries using ultrasound, in patients with non-complicated hemorrhoids.

Detailed Description

Surgical operations for the treatment of perianal diseases are a major part of all elective surgical cases. The reduction in the hospitalization time of patients undergoing surgical procedures for benign perianal diseases is to the benefit of both the patient and healthcare provider. The importance of 'one day' surgical operations lies in the fact that the patient returns directly to his social and working environment, while the number of occupied hospital beds and the total hospitalization costs are reduced. A typical example is the goal set by National Health Service (NHS), where the 75% of the scheduled operations should consist of 'one day' operations. In order to achieve this goal, several obstacles should be dealt with, including the implementation of more efficient and safe surgical techniques. Therefore, this would be associated with a decrease in the operation time, early recovery and faster hospital discharge.

Hemorrhoids is one of the most common benign perianal diseases. According to a recent prospective study of 976 patients, 38.93% of them suffered from hemorrhoids, with 8.16% and 0.53% being Grade III and IV, according to Goligher classification, respectively. The percentage of the symptomatic patients was, also, significant (44.74%). Symptomatic hemorrhoids, include bleeding, pruritus, pain, poor hygiene and the presence of palpable hemorrhoid nodules.

As far as the blood supply of the rectum and the broader anatomic region is concerned, it is provided by the superior, middle and inferior hemorrhoidal arteries. The superior hemorrhoidal artery is a branch of the inferior mesenteric artery and is carried behind the rectum, where it provides branches up to the internal sphincter muscle. The right and left middle hemorrhoidal artery originate from the respective internal iliac artery and their branches are cross-linked with the respective branches deriving from the superior hemorrhoidal artery. Finally, inferior hemorrhoidal arteries derive from the respective internal pudendal arteries. Correspondingly, hemorrhoidal venous plexus consists of the middle and inferior hemorrhoidal veins, which through the internal iliac veins drain into the inferior cava vein. Hemorrhoidal tissue constitutes a continence mechanism of the upper rectum and consists of vascular tissue, connective tissue and smooth muscle fibers, within the rectal canal. Through the approximation of the hemorrhoidal tissue, closure of the anal canal and protection of the sphincter mechanism is achieved. Since modern pathogenesis theories of hemorrhoidal disease attribute to the increased arterial flow in the hemorrhoidal plexus the generating cause of this disease, recent anatomical studies mapped the vascular network, indicating that the arteries are not confined to the anatomical regions described in the literature.

According to recent guidelines, the modification of dietary intake, through the increase of fluid and fiber intake, consists the first line treatment of symptomatic hemorrhoidal disease. However, in Grade III-IV hemorrhoidal disease or in Grade II, where conservative therapy failed, surgical intervention is required. Surgeon has plenty of techniques at his disposal, in order to treat hemorrhoids. Examples of these techniques are operations, such as hemorrhoidectomy (open, closed, Milligan-Morgan, Parks, using staplers, using energy sources, e.g. Harmonic, Ligasure, Laser, bipolar forceps), elastic rings ligation, sclerotherapy and Hemorrhoidal Arteries Ligation (ΗΑL) or Transanal Hemorrhoidal Dearterialization (THD).

Ligation of hemorrhoidal arteries using a Doppler apparatus, is a minimally invasive technique that was first applied by Morinaga et al. in 1995 and has as principle the elective ligation of the arteries that supply the hemorrhoidal plexus. In a recent meta-analysis, the superiority of HAL in areas such as, postoperative bleeding, emergency reoperation, operative duration, length of hospital stay and postoperative pain, was shown. A major drawback of this technique, however, remains the high rate of recurrence, which ranges from 11.1% to 59.3%, for Grade IV hemorrhoids.

Despite the comparative advantages of this minimally invasive technique, the high cost of the necessary equipment and the respective consumables, is a barrier to its broad application. Gupta et al. in a prospective randomized study, compared Doppler-Guided HAL (DG-HAL) to hemorrhoid artery ligation and hemorrhoidopexy. Ligation was performed on the hemorrhoid nodule at the 3rd, 7th and 11th hours, followed by continuous hemorrhoidal nodule ligation and hemorrhoidopexy. The DG-HAL group had a significantly longer operative time (31 min vs 9 min) and post-operative pain (4.4 vs 2.2), without any differences in complication or recurrence rates. Similarly, Huang et al., reported a respective ligation technique, where, through the use of the index finger, the artery was palpated, followed by repeating compression and ligation cycles, in order to fix the affected hemorrhoids above the dental line. In this group, operative time was longer when compared to the DG-HAL group (35.57 vs. 12.73). There was no difference in terms of postoperative improvement of symptoms and hospitalization duration. In the experimental group, however, the cost of hospitalization and the relapse rate was significantly lower. Finally, Aigner et al., in a recent randomized study, investigated the efficacy of hemorrhoidopexy for Grade III hemorrhoids. They concluded that the techniques of hemorrhoidopexy are effective and the addition of DG-HAL does not affect the results.

Given these facts, the present trial was designed, in order to compare the two techniques for hemorrhoidal disease treatment, the ligation and hemorrhoidopexy technique and the conventional ligation of hemorrhoid arteries using ultrasound.

Study Timeline

• Study First Submitted: 2017-09-22
• Study First Submitted QC: 2017-09-26
• Study Start: 2017-10-01
• Study First Posted: 2017-10-02
• Primary Completion: 2020-04-15
• Study Completion: 2020-07-15
• Status Verified: 2020-10
• Last Update Submitted: 2020-10-08
• Last Update Posted: 2020-10-12

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 60

Inclusion Criteria

• Μale or female
• Age: 18 to 80 years
• American Society of Anesthesiologists (ASA) score: I and II
• Grade I, II, and III hemorrhoids

Exclusion Criteria

• Acute perianal diseases, such as perianal abscesses, complicated hemorrhoids (e.g., thrombosis) and acute anal fissure
• Malignant perianal disorders
• Patient age ≥ 80 years
• ASA score ≥ ΙΙΙ
• Presence of inflammatory bowel disease
• History of a previous rectoanal operation
• Presence of a clinically significant cardiovascular, respiratory, renal, hepatic or metabolic disorder. Furthermore, diseases, such as obesity, psychiatric disorders or gastrointestinal disorders constitute exclusion criteria

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Ultrasound Guided Ligation of Hemorrhoidal Arteries	Ultrasound Guided Ligation of Hemorrhoidal Arteries	The patient will be placed in the Lloyd-Davies position. Provision of a sterile field, using a 10% povidone iodine solution. Rectal dilatation will be performed with a 10% xylocaine gel. Use of a proctoscope combined with a Doppler sensor. After the hemorrhoidal artery localization, Z ligations will be placed, using an absorbable polyglycolic acid suture (2-0, 5/8 inch needle). The proper artery ligation will be confirmed by the absence of the Doppler signal. In the presence of residual hemorrhoidal tissue hemorrhoidopexy will be performed, by applying a continuous suture. Placement of a hemostatic gauze in the surgical field. Prior to operation, the patients will be submitted to spinal anesthesia. Using an atraumatic 25 Gauge (G) needle, a levobupivacaine 5mg/ml and fentanyl 25mg solution, will be administered at the height of lumbar (L)2-L3 or L3-L4.
Ligation and Hemorrhoidopexy	Ligation and Hemorrhoidopexy	The patient will be placed in the Lloyd-Davies position. Provision of a sterile field, using a 10% povidone iodine solution. Rectal dilatation will be performed with a 10% xylocaine gel. Introduction of a proctoscope. Identification of the hemorrhoidal nodules (3rd, 7th, 11th hour). Confirmation of the hemorrhoidal artery location, through palpation. Ligation of the hemorrhoidal nodules using an absorbable polyglycolic acid suture (2-0, 5/8 inch needle). Placement of a fixative suture in the hemorrhoidal nodule and then performance of hemorrhoidopexy Placement of a hemostatic gauze in the surgical field. Prior to operation, the patients will be submitted to pudendal nerve block. Using an atraumatic 25 Gauge (G) needle, a 20ml lidocaine solution (diluted with saline in a 1:1 rate) will be administered bilaterally, medially to the ischial tuberosity. 10 minutes before the operation, the patient will receive 1-2.5mg midazolam and 0.1-0.2 mg fentanyl.

Primary Outcome Measures

Name	Time	Method
Symptoms Remission Rate	1 month postoperatively	The primary endpoint of the present study, is the identification of difference in the symptoms remission rate, within one month postoperatively, between the ligation and hemorrhoidopexy technique and the conventional ligation of hemorrhoidal arteries using ultrasound, in patients with non-complicated hemorrhoidal disease.; If the symptoms are treated then it will be defined as=1 'YES' If the symptoms are not treated then it will be defined as=0 'NO'

Secondary Outcome Measures

Name	Time	Method
Operative time	Intraoperative period	The total operative time will be recorded. Measurement unit: minutes
Postoperative mobilization time	Maximum time frame 24 hours postoperatively	The postoperative mobilization time of the patient will be recorded. Measurement unit: hours
Onset of oral feeding	Maximum time frame 24 hours postoperatively	The time that the patient started oral feeding will be recorded. Measurement unit: hours
Hypotension	Maximum time frame 24 hours postoperatively	Occurrence of postoperative hypotension. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Nausea	Maximum time frame 24 hours postoperatively	Occurrence of postoperative nausea. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Vomiting	Maximum time frame 24 hours postoperatively	Occurrence of postoperative vomiting. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Headache	Maximum time frame 24 hours postoperatively	Occurrence of postoperative headache. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Stenosis at the operative site	7 days postoperatively	Occurrence of postoperative stenosis at the operative site. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Pruritus	1 year postoperatively	Occurrence of postoperative pruritus at the operative site. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Reoperation	1 year postoperatively	Occurrence of reoperation. If the patient is reoperated, then it will be defined as=1 'YES' If the patient is not reoperated, then it will be defined as=0 'NO'
Postoperative pain level at 12 hours	12 hours postoperatively	Postoperative pain level at 12 hours after surgery, quantified with the use of the Visual analogue scale (VAS) scale.
Bleeding at the operative site	Maximum time frame 24 hours postoperatively	Occurrence of postoperative bleeding at the operative site. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Postoperative discharge time	Maximum time frame 48 hours postoperatively	Postoperative time that the patient can be safely discharged. Measurement unit: hours.; The patient will be discharged, when it is ensured that is medically safe to be released. In particular, as the exit time of the patient, will be regarded the time that the patient will fulfill the Clinical Discharge Criteria. More specifically, the patient should meet the following : steady vital signs, be oriented, without nausea or vomiting, mobilized with a steady gait, without a significant bleeding.
Oedema at the operative site	7 days postoperatively	Occurrence of postoperative oedema at the operative site. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Hematoma at the operative site	7 days postoperatively	Occurrence of postoperative hematoma at the operative site. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Infection at the operative site	7 days postoperatively	Occurrence of postoperative infection at the operative site. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Mucosal proptosis	1 year postoperatively	Occurrence of postoperative mucosal proptosis at the operative site. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Constipation	1 year postoperatively	Occurrence of postoperative constipation. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Urinary retention	Maximum time frame 24 hours postoperatively	Occurrence of postoperative urinary retention. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Postoperative return to work time	Postoperative period up to 1 month	The time that the patient resumed his work or normal activities will be recorded. Measurement unit: days
Perianal nodules	1 year postoperatively	Occurrence of postoperative perianal nodules. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Tenesmus	1 year postoperatively	Occurrence of tenesmus. If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'
Satisfaction level	1 year postoperatively	Satisfaction level measured at a 0-10 scale
Postoperative pain level at 7 days	7 days postoperatively	Postoperative pain level at 7 days after surgery, quantified with the use of the VAS scale.
Difference in the quality of life of the patient	Preoperatively, 1 month postoperatively and 1 year postoperatively	Difference in the quality of life of the patient, at 1 month and 1 year postoperatively, compared to the respective preoperative measurements, based on the Short Form 36 (SF-36) questionnaire, weighted for the Greek population.
Disease recurrence rate	1 year postoperatively	Disease recurrence rate If such an episode occurs, then it will be defined as=1 'YES' If such an episode does not occur, then it will be defined as=0 'NO'

Trial Locations

Locations (1)

Department of Surgery, University Hospital of Larissa; 🇬🇷 Lárisa, Larissa, Greece