Population Pharmacokinetics and Pharmacodynamics of Ciprofol

Overview

The goal of this observational study is to learn how the anesthetic drug ciprofol works in older adults who are having limb surgery under general anesthesia at Shanghai Geriatric Medical Center. The study will help researchers build a population model to better understand how the drug moves through the body (PK) and how it affects patients (PD). This model may help doctors use a Target-Controlled Infusion (TCI) system to adjust the drug dose more precisely. The main question it aims to answer is: Does ciprofol work safely and effectively in older adults during orthopedic surgery? Participants already receiving ciprofol as part of their regular anesthesia care will: 1. Provide blood samples at different time points during and after surgery. 2. Have their vital signs and anesthesia-related data recorded before, during, and after surgery. 3. Be monitored for side effects and recovery indicators such as the Aldrete score and signs of postoperative delirium. Researchers will use this information to: 1. Build and test a population PK/PD model for ciprofol. 2. Simulate recommended TCI dosing plans. 3. Explore how individual responses to ciprofol relate to recovery and safety outcomes. This study may help improve anesthesia care for elder adults by making drug dosing safer and more effective.

Elderly patients undergoing orthopedic limb surgery represent a growing population with unique perioperative challenges. Age-related physiological changes-including reduced hepatic and renal function, altered body composition, and decreased cardiac output-significantly affect the pharmacokinetics (PK) and pharmacodynamics (PD) of anesthetic drugs. These changes increase the difficulty of maintaining adequate anesthesia depth and hemodynamic stability. Ciprofol, a novel intravenous anesthetic, has shown promising efficacy and safety in clinical practice. However, existing PK/PD models are largely derived from healthy volunteers or younger patients, and cannot adequately predict drug behavior in elderly orthopedic patients who often present with comorbidities and heightened surgical stress. This gap may lead to risks such as drug accumulation and circulatory depression, or insufficient dosing and intraoperative awareness. This single-center, observational, prospective study at Shanghai Geriatric Medical Center aims to construct and validate a population PK/PD model of ciprofol specifically for elderly patients undergoing orthopedic limb surgery. The model will support precise control of effect-site concentration via Target-Controlled Infusion (TCI) systems, enabling individualized anesthesia management. Study Objectives 1.Primary Objective: To develop and validate a population PK/PD model of ciprofol tailored to elderly orthopedic patients, and to evaluate its accuracy in predicting effect-site concentrations. 2.Secondary Objectives: 1. To simulate recommended TCI dosing regimens based on the new model and compare them with current drug label recommendations, assessing clinical value and optimization potential. 2. To evaluate the anesthetic efficacy and safety of ciprofol in this patient population. 3.Exploratory Objectives: To investigate the influence of covariates (e.g., age, sex, BMI, hepatic and renal function) on PK/PD parameters, and to explore correlations between individual PK/PD parameters and recovery outcomes such as Aldrete score and postoperative delirium incidence. Study Design 1.Type: Single-center, observational, biosample-utilization study. 2.Population: 45 elderly patients (≥65 years, ASA I-III) scheduled for elective orthopedic limb surgery under general anesthesia. 3.Procedures: 1. Collection of perioperative clinical data (vital signs, BIS monitoring, anesthesia-related indicators). 2. Serial blood sampling at predefined time points for plasma concentration measurement. 3. Monitoring of anesthetic efficacy (induction success, BIS values, recovery times) and safety endpoints (hypotension, bradycardia, hypoxemia, injection pain). 4.Endpoints: 1. Primary Endpoint: Accuracy of the population PK/PD model in predicting effect-site concentrations. 2. Secondary Endpoints: Differences between model-recommended dosing and label-based dosing; incidence of ciprofol-related adverse events; anesthetic efficacy indicators. 3. Exploratory Endpoints: Covariate effects on PK/PD parameters; correlation of PK/PD parameters with Aldrete score recovery and postoperative delirium. Data Management and Analysis All perioperative data will be recorded and stored electronically, with double-entry verification and query resolution procedures to ensure accuracy. PK/PD modeling will be performed using nonlinear mixed-effects modeling (NONMEM). Model evaluation will include goodness-of-fit plots, visual predictive checks, and bootstrap validation. Simulations will be conducted to compare TCI dosing regimens derived from the new model with standard recommendations. Expected Significance This study will fill an important gap in anesthetic pharmacology by providing a validated PK/PD model of ciprofol for elderly orthopedic patients. The findings are expected to improve perioperative anesthesia management, enhance patient safety, and support individualized dosing strategies in clinical practice.