Description

A total of 120 patients aged 18-70 years, classified as ASA I and scheduled for inhalational anesthesia lasting ≥2 hours, will be included. Patients with cardiovascular disease, respiratory system disease, hepatic or renal disease; pregnant or breastfeeding women; trauma patients; those undergoing emergency surgery; procedures lasting \<2 hours; those receiving intraoperative blood transfusion; smokers; and individuals who decline participation will be excluded.

All participants who agree to join the study will read and sign an informed consent form describing the study. Preoperative evaluations will be performed 1 day before surgery. Thirty minutes before surgery, a 22G intravenous cannula will be inserted, and 8 mL of blood will be drawn into a yellow-cap gel biochemistry tube and 1.5 mL into a blood gas syringe containing 60 IU of dry heparin. Biochemistry samples will be centrifuged at 4000 rpm for 10 minutes in the medical biochemistry laboratory. The separated sera will be transferred to Eppendorf tubes and stored at -80 °C until the day of analysis. Blood gas samples will be analyzed on a blood gas analyzer (Radiometer ABL 520, Copenhagen, Denmark). After blood sampling, an infusion of 0.9% sodium chloride (NaCl) at 10 mL/kg/h will be initiated. Patients will receive IV premedication with 1.5 mg midazolam; on the operating table, ECG, noninvasive blood pressure, and peripheral oxygen saturation (SpO₂) will be monitored. Before induction, all patients will undergo preoxygenation with O₂ at 6 L/min via face mask for 3 minutes.

For induction of anesthesia, fentanyl 1 µg/kg (Fentanyl Citrate, Abbott Laboratories, North Chicago, USA) and propofol 2 mg/kg IV (Propofol, Fresenius Kabi, Sweden) will be administered over 20-30 seconds. After loss of the eyelash reflex, rocuronium bromide 0.6 mg/kg (Esmeron, Organon, Netherlands) will be given IV for neuromuscular blockade, and endotracheal intubation will be performed with a cuffed tube of appropriate size for the patient's age and body habitus. Following propofol administration and until intubation, all patients will be manually ventilated with 100% O₂. After intubation, mechanical ventilation will be provided with an anesthesia machine (Datex-Ohmeda Aisys CS2, Madison, USA) in volume-controlled mode with a tidal volume of 6-8 mL/kg, respiratory rate of 12-14/min, and PEEP of 5 cmH₂O. Soda lime will be used as the CO₂ absorbent (Sorbolime, Berkim, Türkiye), and replacement of the absorbent will be verified before induction for each patient.

Patients will be randomly assigned to one of two groups: Group LF (low-flow, n=60) and Group NF (normal-flow, n=60). In both groups, fresh gas flow (FGF) will be set at 4 L/min (O₂ 50%, air 50%) until the minimum alveolar concentration (MAC) reaches 1. In Group LF, FGF will then be maintained at 0.6 L/min (O₂ 50%, air 50%), with desflurane adjusted to maintain MAC = 1. In Group NF, FGF will be maintained at 2 L/min (O₂ 50%, air 50%), with desflurane adjusted to maintain MAC = 1. In both groups, blood sampling will be repeated at the 2nd hour of surgery.

During the final 30 minutes of surgery, patients will receive postoperative analgesia consisting of tramadol HCl (Contramal, Türkiye) 100 mg IV, paracetamol (Partemol, Türkiye) 1 g IV, and dexketoprofen (Ketavel, Türkiye) 50 mg IV. In the normal-flow group, after placement of the final skin suture, the inhalational agent will be discontinued and the carrier gas switched to 100% O₂; FGF will be increased to 8 L/min. In the low-flow group, the inhalational agent will be discontinued 20 minutes before the anticipated end of surgery; FGF will be maintained at 0.6 L/min until the final skin suture and then increased to 8 L/min. After the return of spontaneous breathing, neostigmine 0.03 mg/kg (Plantigmin, Türkiye) and atropine 0.01 mg/kg (Turktıpsan, Türkiye) will be administered in both groups to achieve extubation.

Postoperatively, patients will be transferred to the post-anesthesia care unit, where respiratory and hemodynamic parameters will be monitored for 30 minutes before transfer to the ward. In both groups, blood sampling will be repeated at postoperative hour 24 using the same method. The following variables will be recorded: duration of anesthesia, SpO₂, venous blood gas results, hemodynamic parameters, postoperative recovery time and quality, and postoperative complications (e.g., nausea and vomiting). Blood samples obtained in the preoperative, intraoperative, and postoperative periods will be centrifuged and stored at -80 °C. Following biochemical analysis, COHb, NF-κB, NRF2, and PGC-1α levels will be subjected to statistical analysis.