Laparoscopic surgery is becoming a major procedure, owing to smaller incisions, shorter hospitalizations, and less post-operative pain as compared with traditional laparotomies. However, there is marked interindividual variability of post-operative shoulder-tip pain following laparoscopic surgery. The incidence of shoulder pain varies from 35% to 80% and ranges from mild to severe. In some cases, it has been reported to last more than 72 hours after surgery. The hypothesis of post-operative shoulder-tip pain is that carbon dioxide induced phrenic nerve irritation causes referred pain to C4. Therefore, we should try to do is that if we could reduce carbon dioxide retention in the pelvic cavity. This clinical controlled trial is tried to find out the practical and clinical maneuver to reduce post-operative should-tip pain following laparoscopic surgery.
All the patients will receive laparoscopic surgery using carbon dioxide (CO2 ) gas as distension medium. At the end of the surgery, in the control group C, CO2 was removed by passive exsufflation through the port site. In the intervention group A, at the end of the surgery, the upper part of the abdominal cavity was evenly and bilaterally filled with the 0.9% normal saline in the amount of 500 cc. We will leave the fluid in the abdominal cavity. Then, patients will be placed in the Trendelenburg position (30 degrees), and a pulmonary recruitment maneuver consisting of five manual pulmonary inflations was performed with a maximum pressure of 60 cm H2O. The anesthesiologists held the fifth positive pressure inflation for approximately 5 seconds. During these maneuvers, the surgeon was instructed to ensure that the trocar sleeve valve was fully open to allow the CO2 gas to escape. In the intervention group B, at the end of the surgery, the upper part of the abdominal cavity was evenly and bilaterally filled with the 0.9% normal saline in the amount of 500 cc. We will leave the fluid in the abdominal cavity. Patients will be asked to fill out questionnaires up to 48 hours to determine the frequency and severity of their shoulder and upper abdominal pain. The scores will be assessed 12, 24, 48 hours after surgery using a visual analogue scale( VAS) from 0 ( no pain) to 10 ( worst possible pain).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
TRIPLE
Enrollment
360
Combined maneuver (Intraperitoneal normal saline infusion and Pulmonary recruitment maneuver): the upper part of the abdominal cavity was evenly and bilaterally filled with the 0.9% normal saline in the amount of 500 cc. We will leave the 0.9% normal saline fluid in the abdominal cavity. Then, a pulmonary recruitment maneuver consisting of five manual pulmonary inflations was performed with a maximum pressure of 60 cm H2O. The anesthesiologist held the fifth positive pressure inflation for approximately 5 seconds.
the upper part of the abdominal cavity was evenly and bilaterally filled with the 0.9% normal saline in the amount of 500 cc. We will leave the 0.9% normal saline fluid in the abdominal cavity.
Taipei Veterans General Hospital
Taipei, Taiwan
RECRUITINGChange from baseline pain score of should and upper abdominal pain at 12 hours after surgery
The main objective of this trial is to assess the efficacy of clinical maneuver to reduce shoulder and upper abdominal pain. Thus the primary outcome measure of this trial is the severity and frequency of their should and upper abdominal pain. The pain score is based on the visual analogue scale in which patients record the intensity of their pain 12 hours after surgery. VAS consists of a subjective evaluation of the pain on a scale of 10 in which 0 is no pain and 10 the most severe pain.
Time frame: Baseline and 12 hours after surgery
Change from baseline pain score of should and upper abdominal pain at 24 hours after surgery
The main objective of this trial is to assess the efficacy of clinical maneuver to reduce shoulder and upper abdominal pain. Thus the primary outcome measure of this trial is the severity and frequency of their should and upper abdominal pain. The pain score is based on the visual analogue scale in which patients record the intensity of their pain 24 hours after surgery. VAS consists of a subjective evaluation of the pain on a scale of 10 in which 0 is no pain and 10 the most severe pain.
Time frame: Baseline and 24 hours after surgery
Change from baseline pain score of should and upper abdominal pain at 48 hours after surgery
The main objective of this trial is to assess the efficacy of clinical maneuver to reduce shoulder and upper abdominal pain. Thus the primary outcome measure of this trial is the severity and frequency of their should and upper abdominal pain. The pain score is based on the visual analogue scale in which patients record the intensity of their pain 48 hours after surgery. VAS consists of a subjective evaluation of the pain on a scale of 10 in which 0 is no pain and 10 the most severe pain.
Time frame: Baseline and 48 hours after surgery
Change from baseline of Nause, vomiting and abdominal distention rate at 48 hours after surgery
Secondary outcome measures included the occurrence of nausea or vomiting and abdominal distention.
Time frame: Baseline and 48 hours after surgery
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.