Point-of-care therapeutic drug monitoring of adalimumab by integrating a FO-SPR biosensor in a self-powered microfluidic cartridge

Qu, Jiahuan; Ordutowski, Henry; Van Tricht, Charlotte; Verbruggen, Ruben; Barcenas Gallardo, Alicia; Bulcaen, Mattijs; Ciwinska, Marta; Gutierrez Cisneros, Carolina; Devriese, Christophe; Guluzade, Sona; Janssens, Xander; Kornblum, Sophie; Lu, Yuansheng; Marolt, Nika; Nanjappan, Chezhiyan; Rutten, Eline; Vanhauwaert, Eline; Geukens, Nick; Thomas, Debby; Dal Dosso, Francesco; Safdar, Saba; Spasic, Dragana; Lammertyn, Jeroen

doi:10.1016/j.bios.2022.114125

Point-of-care therapeutic drug monitoring of adalimumab by integrating a FO-SPR biosensor in a self-powered microfluidic cartridge

Author:

Qu, Jiahuan

Ordutowski, Henry ; Van Tricht, Charlotte ; Verbruggen, Ruben ; Barcenas Gallardo, Alicia ; Bulcaen, Mattijs ; Ciwinska, Marta ; Gutierrez Cisneros, Carolina ; Devriese, Christophe ; Guluzade, Sona ; Janssens, Xander ; Kornblum, Sophie ; Lu, Yuansheng ; Marolt, Nika ; Nanjappan, Chezhiyan ; Rutten, Eline ; Vanhauwaert, Eline ; Geukens, Nick ; Thomas, Debby ; Dal Dosso, Francesco ; Safdar, Saba ; Spasic, Dragana ; Lammertyn, Jeroen

Keywords:

adalimumab, fiber-optic surface plasmon resonance, self-powered microfluidics, point of care, therapeutic drug monitoring, patient blood plasma, Science & Technology, Life Sciences & Biomedicine, Physical Sciences, Biophysics, Biotechnology & Applied Microbiology, Chemistry, Analytical, Electrochemistry, Nanoscience & Nanotechnology, Chemistry, Science & Technology - Other Topics, Adalimumab, Fiber-optic surface plasmon resonance, Self-powered microfluidics, Point of care, Therapeutic drug monitoring, Patient blood plasma, ANTIBODIES, INFLIXIMAB, PSORIASIS, ASSAY, Biosensing Techniques, Drug Monitoring, Fiber Optic Technology, Humans, Microfluidics, Point-of-Care Systems, Surface Plasmon Resonance, ND4ID - 675412;info:eu-repo/grantAgreement/EC/H2020/675412, 1S35118N|1S35120N#53919264, G084818N#54516805, 0301 Analytical Chemistry, 0903 Biomedical Engineering, 1007 Nanotechnology, Bioinformatics, 3401 Analytical chemistry, 4003 Biomedical engineering, 4018 Nanotechnology

Abstract:

Disease treatment with advanced biological therapies such as adalimumab (ADM), although largely 16beneficial,is still costly and suffersfrom loss of response. To tackle these aspects, therapeutic drug 17monitoring (TDM) isproposed toimprove treatment dosing and efficacy, but is often associated 18with long sampling-to-result workflows. Here, we presentan in-house constructed ADM-sensor, 19allowing TDM of ADMat the doctor’s office. This biosensor brings fiber optic surface plasmon 20resonance (FO-SPR),combined with self-powered microfluidics,to a point of care (POC)settingfor 21the first time. AfterdevelopingarapidFO-SPR sandwich bioassayfor ADMdetection on a 22commercial FO-SPR device, this bioassay wasimplemented onthefully-integratedADM-sensor. For 23thelatter, wecombined (I) agold coated fiber optic (FO) probe for bioassay implementationand (II) 24an FO-SPR readout system with(III) the self-powered iSIMPLE microfluidic technologyempowering25plasma sample and reagent mixingon the-cartridge as well asconnectiontothe FO-SPR readout 26system. With a calculated limit of detection (LOD)of 0.35 μg/mL in undiluted plasma, and a total 27time-to-result (TTR)within12 min, this innovative biosensor demonstrated acomparable 28performance to existing POC biosensorsfor ADM quantification in patient plasma samples, while29requiringonly 1 μL of plasma. Whereas this study demonstratesgreat potential for FO-SPR 30biosensing at the POCusing ADM as a model case,italso showshugepotential for bedside TDM of 31other drugs(e.g.other immunosuppressants, anti-epileptics and antibiotics), as the bioassay is 32highly amenable to adaptation.