'Cardiac and Intramuscular Adaptations Following Short-term Exercise Prehabilitation in Unfit Patients Scheduled to Undergo Hepatic- or Pancreatic Surgery'

Surgery remains an important treatment modality in the treatment of hepatopancreatobiliary (HPB) malignancies, but the physiological stress caused by surgery is at the same time a challenge for the homeostasis of patients. A patient's preoperative aerobic capacity has been found to have a consistent relation with postoperative outcomes in major abdominal surgery, with low aerobic capacity being associated with a higher risk of postoperative morbidity and mortality. Preoperative exercise prehabilitation programs can effectively increase the ability of patients to cope with surgical-induced allostatic load, by improving aerobic capacity, and functioning of the respiratory, cardiovascular, and/or musculoskeletal systems. However, besides the effect of exercise prehabilitation on physical fitness in terms of improvement of aerobic capacity as measured by the cardiopulmonary exercise test (CPET), the exact role of adaptations in cardiac and/or skeletal muscle function contributing to the improvement in aerobic capacity is still unknown. Insight in the physiological adaptations that lead to improvement in aerobic capacity after prehabilitation in patients with low aerobic capacity will enable caregivers to individually optimize the exercise program (e.g. by changing exercise frequency, intensity, duration and type) and better explain the rationale and effectiveness behind the short-term physical exercise training program to patients. Therefore, the main objective of this study is to assess the central (cardiac function) and peripheral (skeletal muscle function) physiological adaptations in response to short-term exercise prehabilitation. Secondary objective is to assess the relationship between immune function and exercise. In this study, unfit patients are asked to undergo additional in-magnet exercise testing to investigate the central and peripheral physiological adaptations in response to exercise prehabilitation.

Rationale: Surgery remains an important treatment modality in the treatment of hepatopancreatobiliary (HPB) malignancies, but the physiological stress caused by surgery is at the same time a challenge for the homeostasis of patients. A patient's preoperative aerobic capacity has been found to have a consistent relation with postoperative outcomes in major abdominal surgery, with low aerobic capacity being associated with a higher risk of postoperative morbidity and mortality. Preoperative exercise prehabilitation programs can effectively increase the ability of patients to cope with surgical-induced allostatic load, by improving aerobic capacity, and functioning of the respiratory, cardiovascular, and/or musculoskeletal systems. However, besides the effect of exercise prehabilitation on physical fitness in terms of improvement of aerobic capacity as measured by the cardiopulmonary exercise test (CPET), the exact role of adaptations in cardiac and/or skeletal muscle function contributing to the improvement in aerobic capacity is still unknown. Insight in the physiological adaptations that lead to improvement in aerobic capacity after prehabilitation in patients with low aerobic capacity will enable caregivers to individually optimize the exercise program (e.g. by changing exercise frequency, intensity, duration and type) and better explain the rationale and effectiveness behind the short-term physical exercise training program to patients. Objective: The main objective is to assess the central (cardiac function) and peripheral (skeletal muscle function) physiological adaptations in response to short-term exercise prehabilitation. Secondary objective is to assess the relationship between immune function and exercise. Study design: This study is a single-center prospective clinical trial with a one-group pretest-posttest design. It will take place at the University Medical Center Groningen (UMCG), the Netherlands. As part of standard care, all patients scheduled to undergo hepatic or pancreatic surgery for (suspected) HPB malignancies at the UMCG are screened for low aerobic capacity, and subjected to exercise prehabilitation in case of low aerobic capacity. In this study, unfit patients are asked to undergo additional in-magnet exercise testing to investigate the central and peripheral physiological adaptations in response to exercise prehabilitation. Study population: Unfit patients diagnosed with a (suspected) HPB malignancy who are scheduled to undergo elective hepatic or pancreatic surgical resection and participate in the exercise prehabilitation program. Intervention: In-magnet exercise test consisting of in vivo exercise cardiac magnetic resonance (exCMR) imaging and 31P-magnetic resonance spectroscopy (31P-MRS) during exercise testing in a MR-compatible ergometer, before and after the 4-week prehabilitation program. In addition to exCMR imaging and 31P-MRS during rest, blood will be withdrawn at three different time points (before first CPET, after first CPET and before second CPET). Main study parameters/endpoints: The difference in left and right ventricular function will be measured by exCMR in rest, during progressive exercise, and recovery to assess the effect of the preoperative physical exercise training program on cardiac function. The difference in quadriceps phosphocreatine concentration (PCr), quadriceps inorganic phosphorus concentration (Pi), and quadriceps pH at rest, during progressive exercise, and recovery rate will be measured by 31P-MRS to assess the effect of the prehabilitation program on skeletal muscle function. Differences in inflammatory and immunological cytokines and chemokines before the first CPET, directly after the first CPET and before second CPET. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: The intervention consists of four extra hospital visits. During these visits the in-magnet exercise tests and blood sample collection (exCMR and 31P-MRS) will be performed. The in-magnet exercise test can lead to physical discomfort, due to an uncomfortable feeling while cycling on an ergometer whilst laying supine in the MRI. However, before the in-magnet exercise test, a CPET in a controlled environment (continuous 12-lead electrocardiography registration and under supervision of a sports physician) is performed and therefore the in-magnet exercise test can be safely performed when the CPET does not show contra-indications for exercise. The imaging consisting of exCMR and 31P-MRS has previously been shown to be safe and is already widely used in different studies at the UMCG. Patients are not exposed to any radiation and/or contrast agents. The blood samples that will be taken are not expected to cause an extra risk/burden to the patients. Except for little pain/discomfort, or the possibility of local hemorrhage which can easily solved by compression of the vein