The gallbladder is a small organ located in the upper right quadrant of the abdomen. It
stores bile, which helps in the digestion of food. Gallstones are solid bile particles
that form due to changes in bile composition and concentration caused by factors such as
hormones, medications, diet, and weight changes. Occasionally, a gallstone exits the
gallbladder, blocking the normal flow of bile. Acute cholecystitis occurs when the cystic
duct is obstructed by a gallstone, causing distension and inflammation of the
gallbladder. Cholecystectomy is a commonly performed surgical procedure worldwide for
treating acute cholecystitis. Management of acute cholecystitis is divided into medical
and surgical approaches. Medical management includes bed rest, analgesic agents,
antibiotic therapy, and intravenous fluid replacement. Surgical management involves a
procedure called cholecystectomy, the surgical removal of the gallbladder, which can be
performed through open or laparoscopic surgery. The laparoscopic technique is superior to
open surgery in terms of reduced pain at incision sites, shorter hospital stay, improved
quality of life, and faster recovery times. However, although laparoscopic
cholecystectomy (LC) is minimally invasive, it can still cause moderate to severe pain.
Severe pain can delay postoperative ambulation, reduce patient satisfaction, lead to
chronic pain, and increase the risk of pulmonary and cardiac complications.
Postoperative pain in LC has multiple causes. The majority of postoperative pain in LC
originates from incision sites (50-70%), pneumoperitoneum (20-30%), and the
cholecystectomy procedure itself (10-20%). A multimodal analgesic approach is recommended
for pain control. Various analgesic techniques are used to manage postoperative pain
caused by LC, including non-steroidal anti-inflammatory drugs, paracetamol, opioids,
local anesthetics, and various regional anesthesia techniques. Opioids can lead to side
effects such as postoperative nausea and vomiting (PONV), constipation, and respiratory
depression. Neuraxial analgesia is rarely used in LC due to potential complications and
technical difficulties. The use of regional anesthesia in multimodal analgesia has been
shown to significantly reduce the neuroendocrine stress response to pain and trauma.
In recent years, the use of ultrasound-guided (USG) interfascial plane blocks, considered
easy and safe, has increased in LC surgeries. The anterolateral abdominal wall consists
of the rectus abdominis, external oblique, internal oblique, and transversus abdominis
muscles. The transversus abdominis plane, which contains the thoracolumbar nerves from
T6-L1, lies between the internal oblique and transversus abdominis muscles. The anterior
and lateral abdominal regions are innervated by the anterior branches of the
thoracoabdominal nerves from T7-T12 and L1. Therefore, injecting a local anesthetic (LA)
into the transversus abdominis plane provides sensory blockade from T7 to L1. TAP block
can be part of the analgesic regimen in abdominal surgeries, such as appendectomy, hernia
repair, laparotomy, laparoscopic surgeries, cesarean section, abdominal hysterectomy,
pyloromyotomy, major abdominal wall surgeries, and colostomy. In another study, Grape et
al. reported moderate to high-level evidence that TAP block provided superior analgesia
compared to wound infiltration in patients undergoing laparoscopic cholecystectomy.
Tulgar et al. introduced the recto-intercostal fascial plane block (RIFPB) as a novel
fascial block for sternotomy and sternal surgeries, reporting that it covers almost the
entire upper abdominal region. By injecting LA into the interfascial plane just below the
xiphoid process, between the rectus abdominis muscle and the 6th-7th costal cartilages,
it blocks the anterior branches. Injection of methylene blue into this plane was observed
to spread significantly to the anterior cutaneous branches of the T6-9 nerves and
laterally, contributing to abdominal analgesia. Following Tulgar's study, our study aims
to target dermatomal coverage between T6-T9 using RIFPB with 20 ml of LA.
Patients will complete the Quality of Recovery-15 (QoR-15) questionnaire, a
self-assessment survey that evaluates the quality of postoperative recovery in areas such
as physical comfort, pain, independence, psychological support, and emotional state, both
on the morning of surgery and 24 hours post-surgery. QoR-15 scores range from 0 to 150,
with higher scores indicating better recovery quality. This study will compare the
effectiveness of bilateral TAP and bilateral RIFPB in LC, examining postoperative NRS
(Numeric Rating Scale) scores, opioid consumption, dermatomal spread, PONV score, and
complications to determine which technique is more effective.