Abstract Background Natalizumab (NTZ) is a monoclonal antibody directed against the α4-integrin subunit of α4β1 and α4β7 integrins. NTZ is used to treat relapsing and remitting forms of multiple sclerosis. Although a majority of patients on standard dosing (intravenous 300 mg, every 4 weeks) reach therapeutic drug concentrations, about 10% of patients will eventually fail NTZ therapy due to the development of anti-NTZ antibodies. NTZ and anti-NTZ antibody concentrations in serum are used together to provide patient-specific pharmacokinetic and immunogenic assessment to aid in patient management. Methods Serum measurements of NTZ and anti-NTZ antibody levels are performed by lab developed electro-chemiluminescent immunoassays where assay design and principle are equivalent to biologic therapeutic drug monitoring described in our previous publication. The natalizumab drug assay is an immunoassay validated to measure free drug (pharmacodynamically active, ADA-unbound) in serum. The anti-natalizumab antibody assay utilizes a solution phase bridging method designed to measure total binding antibodies (including IgM & IgG subtypes). All anti-natalizumab antibody positive samples are confirmed for drug-specificity by an additional signal suppression step. The anti-natalizumab antibody assay is quantitative and drug-tolerant, meaning that circulating drug in patient serum does not interfere with anti-NTZ detection and quantitation. Results Here, we report concomitant measurement of NTZ and anti-NTZ antibody in 160 patient serum samples. Positive anti-NTZ levels from 24 to 235 ng/mL were found in 7.5% (12/160) patients. Anti-NTZ-free samples (148/160) had NTZ drug levels ranging from undetectable (<1.0) to 85 ug/mL. The mean and median drug level in 90 samples (results >1.0) was 10.8 and 2.7, respectively. 61/90 samples had therapeutic drug concentrations (at least 2.0 ug/mL). In the presence of anti-NTZ, 67% (8/12) had undetectable drug level and (4/12) had mean and median drug levels of 1.2 and 1.3, respectively, which is 9- or 2-fold lower than the mean and median drug levels of the anti-NTZ Ab -free group. Conclusions Low serum NTZ and high anti-NTZ are associated with loss of clinical efficacy, while elevated NTZ may increase progressive multifocal leukoencephalopathy risk. Assays to measure biologic drugs and their anti-drug antibodies in patient serum may be useful tools in dose optimization and patient management.