Postoperative ileus (POI) is a frequent complication after abdominal surgery leading to nausea, vomiting and infectious complications. Bowel dysmotility can last for days and necessitates parenteral nutrition resulting in an prolonged hospital stay and a high economic burden. Until now there is no evidence based therapy of manifest POI because of missing valid surrogate markers demonstrating the severity and resolution of POI. A novel tool to examine gastrointestinal function is the SmartPill®. By measuring pH value, temperature and intraluminal pressure the capsule is able to analyse gastric emptying, small bowel transit, large bowel transit and peristaltic activity. Unfortunately the use of the SmartPill® is not allowed in the first three months after abdominal surgery. Therefore a trial is needed to investigate the behaviour of the SmartPill® during its passage through the human gastrointestinal tract immediately after surgery. The primary endpoint is \- to investigate the safety of the SmartPill® in patients after abdominal surgery. The secondary endpoints are: * is the SmartPill® able to detect the gastrointestinal transit and the peristaltic activity followed by abdominal surgery compared with patients which underwent thoracic/vascular surgery. * is it possible to correlate the measured parameters (delayed gastrointestinal transit, lack of peristalsis) with the clinical signs of POI (nausea, vomiting, prolonged duration until first postoperative defecation). * is the detected peristaltic activity influenced by intravenous applicated prokinetic drugs * is the detected peristaltic activity influenced by physiotherapy Using those endpoints the investigators hope to demonstrate the safety of the SmartPill® after abdominal surgery, to evaluate its ability to analyse severity and length of POI and to examine whether the used prokinetic drugs and postoperative mobilization are able to influence peristaltic activity.
Postoperative ileus (POI) is a frequent complication after abdominal surgery leading to nausea, vomiting and infectious complications. Bowel dysmotility can last for days and necessitates parenteral nutrition resulting in an prolonged hospital stay and a high economic burden. Until now there is no evidence based therapy of manifest POI. Instead, the quality of the existing clinical trials are just of low or moderate quality. The main reason for this is the lack of a valid surrogate marker to define the end of POI: Some trials used first flatus or first defecation as a marker for purposeful peristalsis and resolution of POI, others used the ability to consume solid food again or auscultation of bowel sounds. However it remains questionable whether these parameters are really able to demonstrate the severity or the end of POI. Therefore POI research needs a reliable, patient and investigator independent parameter that is able to determine resolution of POI to improve the quality of future clinical trials. A novel tool to examine gastrointestinal function is the SmartPill®. The capsule is able to measure pH value, temperature and intraluminal pressure after oral application, the data is sent to a transmitter located near the patient. Using those values, it is possible to analyse gastric emptying, length of small bowel, large bowel or whole gut passage and the smooth muscle contractility/peristalsis of the whole gastrointestinal tract. Therefore the SmartPill® would be an ideal, patient and investigator independent tool to investigate gastrointestinal function and transit time after visceral surgery. Unfortunately the use of the SmartPill® is not allowed in the first three months after abdominal surgery. Therefore a trial is needed to investigate the behaviour of the SmartPill® during its passage through the human gastrointestinal tract immediately after surgery. The primary endpoint is \- to investigate the safety of the SmartPill® in patients after abdominal surgery. The secondary endpoints are: * is the SmartPill® able to detect the gastrointestinal transit and the peristaltic activity followed by abdominal surgery compared with patients which underwent thoracic/vascular surgery. * is it possible to correlate the measured parameters (delayed gastrointestinal transit, lack of peristalsis) with the clinical signs of POI (nausea, vomiting, prolonged duration until first postoperative defecation). * is the detected peristaltic activity influenced by intravenous applicated prokinetic drugs * is the detected peristaltic activity influenced by physiotherapy Using those endpoints the investigators hope to demonstrate the safety of the SmartPill® after abdominal surgery, to evaluate its ability to analyse severity and lenght of POI and to examine whether the used prokinetic drugs and postoperative mobilization are able to influence peristaltic activity.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
55
Application of the SmartPill at the end of surgery
Department of Surgery, University of Bonn
Bonn, Germany
RECRUITINGADEs / SADEs in Patients after surgery
Number of participants with ADEs / SADEs in Patients after surgery
Time frame: Participants will be followed from first postoperative day until excretion of the SmartPill, an expected average of 8 days
Analysis of pH value measured by the SmartPill during gastrointestinal passage
Analysis of pH changes measured by the SmartPill during gastrointestinal passage
Time frame: Participants will be followed from first postoperative day until excretion of the SmartPill, an expected average of 8 days
Correlation between clinical signs of POI resolution and passage time of the SmartPill
Analysis of the correlation between clinical signs of targeted peristalsis (time until first defecation in combination with tolerance of solid food) and gastric emptying (hours), small bowel and large bowel transit time (hours)
Time frame: Participants will be followed from first postoperative day until excretion of the SmartPill, an expected average of 8 days
Peristaltic activity before and after application of prokinetics
Variation of intraluminal pressure and peristaltic waves (mmHg) measured by the SmartPill before and after intravenous application of prokinetic drugs
Time frame: Participants will be followed from first postoperative day until excretion of the SmartPill, an expected average of 8 days
Peristaltic activity before, during and after physiotherapy
Variation of intraluminal pressure and peristaltic waves (mmHg) measured by the SmartPill before, during, and one hour after physiotherapy
Time frame: Participants will be followed from first postoperative day until excretion of the SmartPill, an expected average of 8 days
Analysis of pressure measured by the SmartPill during gastrointestinal passage
Analysis of pressure changes (mmHg) measured by the SmartPill during gastrointestinal passage
Time frame: Participants will be followed from first postoperative day until excretion of the SmartPill, an expected average of 8 days
Analysis of temperature measured by the SmartPill during gastrointestinal passage
Analysis of temperature changes (°C) measured by the SmartPill during gastrointestinal passage
Time frame: Participants will be followed from first postoperative day until excretion of the SmartPill, an expected average of 8 days
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