Risk Factors Analysis of Linezolid-induced Hyperlactatemia in Pediatric Patients

OBJECTIVE Linezolid(LZD) is a synthetic oxazolidone antibacterial drug that has activity against most Gram positive bacteria. LZD is widely used in pediatric patients, and its common adverse reactions include gastrointestinal reactions and bone marrow suppression, etc. In recent years, LZD-induced hyperlactatemia has gradually attracted attention. LZD-induced hyperlactatemia can exacerbate the condition of pediatric patients and is associated with high mortality rates in children. However, there is currently a lack of data on the risk factors for LZD-induced hyperlactatemia in pediatric patients. METHODS Therefore, this paper collected and retrospectively analyzed the information of hospitalized pediatric patients who received LZD treatment at the Children's Hospital of Chongqing Medical University from October 2012 to February 2023, including demographic characteristics of pediatric patients and clinical treatment related records, etc. According to the inclusion and exclusion criteria, this paper identified whether the included pediatric patients had developed hyperlactatemia and evaluated the causal relationship between LZD and hyperlactatemia using the Naranjo's Scale. The risk factors were analyzed using univariate and multivariate logistic regression, and the dose-response relationship between risk factors and LZD-induced hyperlactatemia was further analyzed using a restricted cubic spline(RCS) model. RESULTS A total of 331 pediatric patients were included, of which 145 pediatric patients(43.8%) developed LZD-induced hyperlactatemia, including 122 cases of mild hyperlactatemia and 23 cases of severe hyperlactatemia; the causal relationship score of LZD-induced hyperlactatemia was “possibly related” in 87 cases(60.0%) and “highly likely related” in 58 cases(40.0%). The median age of pediatric patients was 3(0.92, 9) years old, with 55.29% males, 25.38% patients with liver disease, 8.76% pediatric patients with kidney disease, and 36.56% pediatric patients with cardiovascular disease; the median number of treatment days for pediatric patients receiving LZD was 13(8, 22) d, with pediatric patients with hyperlactatemia having a longer median number of LZD treatment days than those without hyperlactatemia16(10, 28) vs 11(7, 18); 41.09% of pediatric patients used P-glycoprotein inducers in combination, with more pediatric patients(57.4%) experiencing hyperlactatemia; 53.47% of pediatric patients used P-glycoprotein inhibitors in combination; the median values of lactic acid baseline, creatinine baseline, and baseline estimated glomerular filtration rate(eGFR) were 0.92(0.80, 0.92)mmol·L^-1, 26(18.25, 34.90) μmol·L^-1, 179.97(137.23, 222.70)mL·min^-1·(1.73 m)^-2, respectively. Multivariate logistic regression analysis showed that pediatric patients received longer LZD treatment duration(OR=1.026, P=0.004), and the combination of P-glycoprotein inducers(OR=2.023, P=0.004), higher lactic acid baseline levels(OR=2.408, P=0.022), and lower eGFR(OR=0.997, P=0.047) were independent risk factors for LZD-induced hyperlactatemia. The RCS model showed that as the number of days of LZD treatment increases, the risk of LZD-induced hyperlactatemia increased nonlinearly(P-non-linear=0.041); when the lactic acid baseline value was -1, the risk of LZD-induced hyperlactatemia dramatically increased as the lactic acid baseline value increased, when it was >0.92 mmol·L^-1, the risk of LZD-induced hyperlactatemia slowly increased as the lactic acid baseline value increased(P-non-linear=0.013). CONCLUSION This study explores for the first time the risk factors of LZD-induced hyperlactatemia in pediatric patients, including the impact of the interaction between LZD and drugs that affect mitochondrial function, P-glycoprotein inducers, and P-glycoprotein inhibitors on hyperlactatemia. RCS models are used to analyze the dose-response relationships between LZD treatment days, lactic acid baseline values, and the occurrence of LZD-induced hyperlactatemia. When LZD is combined with P-glycoprotein inducers(mainly isoniazid, rifampicin, and ethambutol), the risk of LZD-induced hyperlactatemia increases, and its related mechanisms still need further research. In addition, pediatric patients with renal insufficiency may need to adjust the LZD dosage appropriately to avoid the occurrence of hyperlactatemia. In conclusion, when pediatric patients receive LZD treatment, attention should be paid to risk factors such as lactic acid baseline value, duration of LZD use, combined use of P-glycoprotein inducers, and renal dysfunction, in order to prevent the occurrence of LZD-induced hyperlactatemia based on the pediatric patient's treatment needs.