Clinical Research Directory

Evaluate the Performance of the Dexcom G7 Continuous Glucose Monitoring (CGM) System in Critically Ill Patients Undergoing Major Abdominal Surgery and Solid Organ Transplantation Which Require Blood Glucose Monitoring for Intensive Insulin Therapy.

Main objective: The goal is to to determine the accuracy of Dexcom G7 Continuous glucose monitor system in critically ill patients, undergoing major abdominal surgery and solid organ transplantation, in the intensive care unit. On admission to the intensive care unit or at the end of surgery, two Dexcom G7 sensors are placed in the infraclavicular position. Sensor number 1 will be blinded and will only be active when paired with the receiver, without the ability to monitor glucose levels. Sensor number 2 is used for continuous glucose monitoring and can be used to adjust the insulin dose. Patients will wear the continuous glucose monitoring sensor for a maximum of 10 days, including the time spent in the intensive care unit and the immediate care unit. The study will not interfere with any usual care clinical workflows. Calibration is only performed on an unblinded sensor. The reference method for calibration is the glucose from the blood glucose meter. Calibrate on the first day of monitoring: 4 times a day after approximately 6 hours, or if the blood glucose reading from the blood glucose meter is not within the estimated error range of the continuous glucose monitor (difference greater than 1,5mmol/L). Calibration on days 2 and 3 of monitoring: once in the morning, or when the meter's glucose reading is not within the estimated error range of the continuous glucose monitoring (difference greater than 1,5mmol/L) On subsequent days when the blood glucose meter reading is not within the estimated error range of continuous glucose monitoring (difference greater than 1,5mmol/L). Hypothesis: * Ho: No difference in mean absolute relative difference (MARD) between calibrated and non-calibrated sensors. * Ha: Calibrated sensors have lower mean absolute relative difference (δ = 4%, SD = 5%). Further objectives: To evaluate further aspects regarding the Dexcom G7 continuous glucose monitor system's performance in the intensive care unit (ICU), particularly in terms of sensitivity and specificity to detect hypo- and hyperglycaemic events, data availability, device deficiencies and safety. To identify predictive factors of the accuracy of the Dexcom G7 continuous glucose monitor system in critically ill patients in the ICU.

Transition to Hospital Discharge in Insulinized Patients With Type 2 Diabetes Mellitus

This clinical study explores whether adding technological tools during hospital discharge can help people with type 2 diabetes who are starting insulin therapy achieve better treatment adherence and blood glucose control once they return home. The discharge transition period includes both the final days of hospitalization and the first weeks to months after returning home. When people with type 2 diabetes are hospitalized, they sometimes need to begin insulin therapy. After discharge, managing insulin properly is essential to avoid high or low blood sugar levels. However, many patients forget or delay insulin doses, which can lead to poor control of their diabetes. This study will compare two groups of patients. All participants will be adults with type 2 diabetes, between 18 and 70 years old, who are newly starting insulin during their hospital stay. Group 1 ("technological group") will use a continuous glucose monitor (CGM) and a smart insulin pen cap called Insulclock. These tools show real-time blood glucose data and record when and how much insulin is injected. Patients and doctors can use this information to better adjust treatment. Insulclock also includes alarms to remind patients of their doses. Group 2 ("control group") will use the same devices, but they will not see the data in real time. Instead, they will manage their insulin based on standard finger-prick blood sugar checks four times a day, as typically done in standard care. Both groups will be followed for 12 weeks after hospital discharge. Medical check-ins will occur in weeks 1, 2, 4, 8, and 12. Blood tests and treatment adjustments will be performed as needed. The main goals are: To measure if the use of technology helps patients stick to their insulin schedule (fewer missed or mistimed injections). To see if it leads to better blood glucose control (e.g., more time within the recommended range, fewer episodes of low or high glucose). To evaluate patient satisfaction with this technology and check if the number of unplanned hospital readmissions decreases. The study will take place at Hospital Universitari i Politècnic La Fe in Valencia, Spain. Around 80 patients will participate. This study is important because real-world data about the use of CGM and smart insulin devices during the hospital-to-home transition are limited. It may help improve diabetes care for people starting insulin after hospitalization.