Background: Phenytoin has been widely used in epilepsy treatment since 1937. Due to the fact that the phenytoin serum concentration could not be extrapolated by the given doses and its characteristic of narrow therapeutic range, monitoring phenytoin serum concentration is necessary following treatment. In patients under clinically stable conditions, the serum phenytoin ratio of free form to total form (as a sum of bound plus free form) is about 0.1. Furthermore, monitoring total phenytoin concentration is practically simple. It is usually to monitor the total phenytoin concentration in clinical practice. Whilst the serum phenytoin ratio of free form to total form is altered in critically ill patients, the free phenytoin concentration can not be estimated from the total phenytoin concentration. Therefore, direct measurement of free phenytoin concentration has the clinical value. Methods: This prospective study was carried out in a neurological intensive care unit of one medical center and the free phenytoin monitor was available since August 2009. In addition to monitor the total phenytoin concentration, free phenytoin concentration was performed if patients met any of the following criteria, renal insufficiency with creatinine clearance (CCr) less than 25 ml per minute, moderate to severe (Child-Turcotte-Pugh B-C) cirrhosis and concurrent use of valproic acid. Data were collected from August 2009 to July 31, 2010. Results: 40 data were collected and revealed that more than half of the free form to total form ratio were significantly altered in clinically unstable patients with at least one of the aforementioned criteria. The free phenytoin concentration can not be estimated from the total phenytoin concentration in this population. Conclusions: Phenytoin is nonlinear metabolized and highly protein binding. Critically ill patients were often associated with organ failure (e.g. liver or kidney dysfunction), multiple drug interactions and low serum albumin. All these factors can easily result in over-treatment due to the free form to total form ratio change and the clinical application of Sheiner-Tozer equation to estimate free phenytoin concentration is limitated. Direct monitoring of the free phenytoin is of clinically value in dose adjustments or appropriateness of adding other anticonvulsant to avoid phenytoin intoxication. This study provides practical considerations for the selection of patients to monitor the free phenytoin.