The monitoring of increased intracranial pressure(ICP) is necessary in the diagnosis and treatment of patients with neurological disease because it can provide an insight into the mechanism of the head injury. In this letter, we develop a novel miniature Fabry–Perot(F-P) sensor for ICP measurement. The proposed sensor is fabricated by using a commercially available fusion splicer and a fiber cleaver, by which many difficult art problems involved in fabrication are solved and the online monitoring of the F-P cavity is actualized. The sensor exhibits a linear response to the applied pressure over the range of 0–25 k Pa(ample for ICP measurement), with a sensitivity of 10.18 nm/k Pa, a resolution of 0.1 k Pa, and a reduced thermal sensitivity of 0.068 nm/°C, which shows it can meet the requirements of ICP measurement. The monitoring of increased intracranial pressure (ICP) is necessary in the diagnosis and treatment of patients with neurological disease because it can provide insight into the mechanism of the head injury. In this letter, we develop a novel miniature Fabry-Perot (FP) The proposed sensor is fabricated by using a commercially available fusion splicer and a fiber cleaver, by which many difficult art problems involved in fabrication are solved and the online monitoring of the FP cavity is actualized. The sensor exhibits a linear response to the applied pressure over the range of 0-25 k Pa (ample for ICP measurement), with a sensitivity of 10.18 nm / k Pa, a resolution of 0.1 kPa, and reduced thermal sensitivity of 0.068 nm / ° C, which shows it can meet the requirements of ICP measurement.