Nitrite ion has been identified as the active ingredient of two commercial adulterants that could cause discrepant results between the immunoassay screening and gas chromatographic-mass spectrometric (GC-MS) confirmation of 11-nor-delta9-tetrahydrocannabinol-9-carboxylic acid (THCCOOH) in urine. Procedures to chemically convert the nitrite ion at the beginning of sample preparation for GC-MS analysis may not overcome all nitrite adulteration cases because portions of the THCCOOH might have been lost between the time of sample collection and the time of analysis. This study was conducted to further investigate the influence of both urine sample matrix and the duration of nitrite exposure on nitrite interference of THCCOOH detection. Forty clinical "THC-positive samples" that had been screened and confirmed positive for the presence of THCCOOH were spiked with 0.15M or 0.3M of nitrite. The levels of THCCOOH at various time intervals after nitrite spiking were monitored by instrument-based cannabinoids immunoassays (Syva EMIT d.a.u. and/or Roche Abuscreen ONLINE assays) and by an onsite THC immunoassay (Roche ONTRAK TESTSTIK). Results from this report demonstrate that the two outstanding "urine specimen factors" that dictated the effectiveness of the nitrite adulteration were urinary pH and the original drug concentration before nitrite spiking. Significant decreases in the immunoassay results could be observed within 4 h of nitrite treatment in the majority of samples with acidic urinary pH values. Regardless of their original concentration of THCCOOH (GC-MS ranging from 33 to 488 ng/mL), all of the 20 samples that had acidic pH values gave negative immunoassay results 1 day after nitrite adulteration. In contrast, the immunoassay results of samples with neutral or basic pH values were less affected by nitrite exposure in the same studies. Approximately two-thirds of the samples with pH values greater than 7.0 remained immunoassay-positive 3 days after nitrite spiking. Nevertheless, some of the adulterated urine that showed no change in immunoassay results might exhibit significant decrease in GC-MS recoveries even with bisulfite treatment, collaborating with the observations that a portion of samples screened positive with THC immunoassay in the laboratory could fail to confirm with GC-MS analysis. The decrease or loss of immunoassay detectable cannabinoid cross-reactives in acidic "THC-positive samples" can be attenuated by chemically increasing the pH value of the samples to the basic pH range.