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Clinical Trial Summary

Surgical procedures to remove a significant portion of the liver are used to treat various diseases including cancer. They have demonstrated to be the most effective treatment for selected patients. These procedures rely on the fascinating ability of the liver to grow back, allowing surgeons to remove of up to 70% of the organ in a safe manner. However, there are instances where severe complications and death occur due to the inability of the residual liver to perform all functions. It is estimated that up to 32% of patients undergoing this type of surgery will experience such complications. To prevent this, physicians calculate the total liver volume before surgery using radiology and estimate how much liver will remain after surgery. Only when the liver remnant is 30% or higher, the procedure is deemed safe. One of the main limitations of this strategy is that the estimated percentage of the liver remnant does not entirely reflect a proportional function. To overcome this limitation and avoid serious complications, a more precise assessment is required. Recently, a new scan was introduced using mebrofenin, which is metabolized in the liver and can be traced in a particular region of the organ using computer software. As a result, clinicians can know with certainty, the percentual function of a portion of the liver, and if that portion will be sufficient to avoid complications and death after a major liver operation. This project proposes incorporating this technology for preoperative evaluation against our traditional assessment using just volume calculations. Participants will be randomly assigned to the traditional volume calculation or the new scan with mebrofenin, and investigators will compare how well both methods are able to predict complications and death after surgery. Researchers are particularly interested in demonstrating if major complications and death after surgery are less using the new mebrofenin scan. Our study evaluating the introduction of a new and relatively harmful technique will help to better identify those patients with high risk for complications and death after a major surgical procedure on the liver. This will help in better selecting future patients and will allow for a more precise discussion during initial evaluation.


Clinical Trial Description

Surgical procedures to remove a significant portion of the liver are used to treat various diseases, including cancer. They have been demonstrated to be the most effective treatment for selected patients. These procedures rely on the fascinating ability of the liver to grow back, allowing surgeons to remove up to 70% of the organ in a safe manner. However, there are instances where severe complications and death occur due to the inability of the residual liver to perform all functions. It is estimated that up to 32% of patients undergoing this type of surgery will experience such complications. To prevent this, physicians use radiology to calculate the total liver volume before surgery and estimate how much liver will remain after surgery. The procedure is deemed safe only when the liver remnant is 30% or higher. One of the main limitations of this strategy is that the estimated percentage of the liver remnant does not entirely reflect a proportional function. A more precise assessment is required to overcome this limitation and avoid serious complications. Recently, a new scan was introduced using computer software using mebrofenin, which is metabolized in the liver and can be traced in a particular organ region. As a result, clinicians can know with certainty the percentual function of a portion of the liver and if that portion will be sufficient to avoid complications and death after a major liver operation. This project proposes incorporating this technology for preoperative evaluation against our traditional assessment using just volume calculations. Participants will be randomly assigned to the traditional volume calculation or the new scan with mebrofenin, and investigators will compare how well both methods are able to predict complications and death after surgery. Researchers are particularly interested in demonstrating if major complications and death after surgery are less common using the new mebrofenin scan. Our study evaluating the introduction of a new and relatively harmful technique will help to better identify those patients with a high risk for complications and death after a major surgical procedure on the liver. This will help better select future patients and allow for a more precise discussion during the initial evaluation. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05280990
Study type Interventional
Source Nova Scotia Health Authority
Contact
Status Withdrawn
Phase N/A
Start date January 15, 2023
Completion date July 30, 2025

See also
  Status Clinical Trial Phase
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