Is Permissive Hypotension Truly Harmless? Early Biomarker Evidence of Subclinical Kidney Injury in Rhinologic Surgery

Overview

This study aims to investigate the effects of permissive hypotension, which is routinely used in rhinologic surgeries such as rhinoplasty, septoplasty, and functional endoscopic sinus surgery (FESS), on renal function. Although permissive hypotension has been widely practiced to improve surgical field visibility and reduce intraoperative blood loss, its specific definition is not standardized in the literature. In most studies, maintaining mean arterial pressure (MAP) within the range of 50-65 mmHg is considered permissive hypotension. MAP values below 60 mmHg have been associated with increased risk of cardiac and renal complications. However, in otherwise healthy patients, such episodes are frequently tolerated without clinically apparent renal dysfunction. The kidneys have a strong compensatory reserve capacity, and early tubular injury may not be detected by conventional renal function tests such as serum creatinine. Therefore, the use of more sensitive biomarkers is necessary to detect potential subclinical injury. In this prospective observational study, plasma NGAL and cystatin C levels will be measured from routine preoperative and postoperative (12-24 hours) blood samples obtained from adult patients undergoing rhinologic procedures. A ≥25% increase in these biomarkers from baseline will be considered indicative of subclinical acute kidney injury. Additionally, intraoperative hemodynamic data will be monitored, and the duration of MAP \<60 mmHg and MAP \<65 mmHg will be recorded. At the end of the procedure, surgical field conditions will be evaluated using the Boezaart Surgical Field Score. The relationship between these parameters and biomarker changes will be analyzed. The goal of this study is to determine whether early, clinically silent renal injury may occur during permissive hypotension and to provide insight into its potential implications for future renal function. All interventions and blood samplings are part of routine care, and no additional procedures will be performed for research purposes.

Permissive hypotension is a commonly used anesthetic technique in rhinologic surgeries to optimize surgical conditions by reducing bleeding and improving visualization. Although widely applied, a standardized definition is lacking in the literature. Many studies define permissive hypotension as maintaining mean arterial pressure (MAP) between 50-65 mmHg. MAP values lower than 60 mmHg may compromise tissue perfusion and oxygenation, particularly in the renal medulla, possibly predisposing patients to ischemic stress. Despite this, in patients without significant comorbidities, these controlled reductions typically do not result in clinically evident kidney dysfunction, which supports the continued use of this technique in suitable cases. However, due to the high renal reserve, subclinical kidney injury may still occur without notable changes in serum creatinine or urine output. The early detection of renal injury may be possible through biomarkers such as neutrophil gelatinase-associated lipocalin (NGAL) and cystatin C, which are more sensitive to structural renal injury. This study is designed to evaluate such potential biomarker changes during permissive hypotension applied for rhinologic surgery. Study Design and Methods: This is a prospective observational, single-center study including 35 adult patients aged 18-65 years who are scheduled to undergo elective rhinoplasty, septoplasty, or FESS. Patients with a history of chronic kidney disease, uncontrolled hypertension or diabetes mellitus, or contraindications to hypotensive anesthesia will be excluded. Informed consent will be obtained preoperatively. All blood sampling and hemodynamic monitoring will be performed as part of routine clinical care, and no additional intervention will be introduced. Data Collection and Measurements: Preoperative routine blood samples will be analyzed for renal biomarkers including plasma NGAL and cystatin C, in addition to standard biochemistry profiles. Plasma NGAL levels will be measured using a validated ELISA method (Elabscience, USA), and plasma cystatin C levels will be analyzed using a particle-enhanced turbidimetric assay (Siemens Atellica Neph 630). Intraoperative hemodynamic variables will be recorded every 5 minutes throughout anesthesia, and total durations of MAP \<60 mmHg and MAP \<65 mmHg will be calculated. Postoperatively, between 12 and 24 hours, routine blood sampling will again be performed, and NGAL and cystatin C levels will be re-evaluated. At the end of surgery, surgical field visibility will be assessed by the otorhinolaryngology surgical team using the Boezaart Surgical Field Score. Outcome Measures: The primary outcome of this study is the presence of subclinical renal injury, defined as a ≥25% increase in plasma NGAL and/or cystatin C from preoperative baseline to the postoperative 12-24-hour measurement. Secondary outcomes include the association between biomarker changes and intraoperative hypotension exposure (duration of MAP \<60 mmHg and MAP \<65 mmHg), as well as the relationship between hypotension and surgical field quality assessed with the Boezaart Score. Safety and Adverse Event Monitoring: All procedures are routine clinical practices and carry no additional risk to participants. In the event of postoperative impairment of renal function, standard clinical management will be followed, including fluid optimization and nephrology consultation when appropriate. Data Confidentiality: All collected data will be de-identified and stored securely with restricted access limited to the research team.