JUAN PABLO HERVÁS-PÉREZ Y COLS.  AN. R. ACAD. NAC. FARM.

      BIBLIOGRAFÍA

 (1)  KULAGINA, N. V.; SHANKAR, L., MICHAEL, A. C. (1999): Monitoring glutamate and
 (2)  ascorbate in the extracellular space of brain tissue with electrochemical
      microsensors. Anal. Chem. 15: 5093-5100.
 (3)  GUERRIERI, A., PALMISANO, F. (2001): An Acetylcholinesterase/Choline Oxidase-
 (4)  Based Amperometric Biosensor as a Liquid Chromatography Detector for
 (5)  Acetylcholine and Choline Determination in Brain Tissue Homogenates. Anal
 (6)  Chem. 73: 2875-2882.
 (7)  CRESPI, F. (2002): In vivo voltammetry and concomitant electrophysiology at
 (8)  a single micro-biosensor to analyse ischaemia, depression and drug depen-
 (9)  dence. J. Neur. Met., 119: 173-184.
(10)  MOSER, I.; JOBST, G., URBAN, G. A. (2002): Biosensor arrays for simultaneous
(11)  measurement of glucose, lactate, glutamate, and glutamine. Biosens. Bioelec-
      tron. 17: 297-302.
(12)  BENAS, B.; BENOIT, M. A., POULINE, O. (2000): Vaccine properties of antigens
(13)  entrapped in microparticles produced by spray-drying technique and using
      various polyester polymers. Vaccine. 18: 1495-1505.
(14)  HILDEBRAND, G. E., TACK, J. W. (2000): Microencapsulation of peptides and
(15)  proteins. I. J. Pharm. 196: 173-176.
      COSNIER, S. (1999): Biomolecule immobilization on electrode surfaces by en-
      trapment or attachment to electrochemically polymerized films. Biosens. Bio-
      electron. 14: 443-456.
      ADELOJU, S. B., MOLINE, A. N. (2001): Fabrication of ultra-thin polypyrrole–
      glucose oxidase film from supporting electrolyte-free monomer solution for
      potentiometric biosensing of glucose. Biosens. Bioelectron. 16: 133-139.
      BLANDINO, A.; MACIAS, M., CANTERO, D. (2001): Immobilization of glucose oxi-
      dase within calcium alginate gel capsules Proc. Biochem. 36: 601-606.
      CALVO, E. J.; ETCHENIQUE, R.; PIETRASANTA, L.; WOLOSIUK, A.. DANILOWICZ, C.
      (2001): Layer-by-layer self-assembly of glucose oxidase and Os(Bpy)(2)CIP y
      CH2NH-poly(allylamine) bioelectrode. Anal Chem. 73: 1161-1168.
      COSNIER, S.; SZUNERITS, S.; MARKS, R. S.; NOVOA, A.; PUECH, L.; PEREZ, E., RICO-
      LATTES, I. (2001): A comparative physical study of two different hydrophilic
      synthetic latex matrices for the construction of a glucose biosensor. Talanta.
      55: 889-897.
      MANOWITZ, P.; STOECKER, P. W., YACYNYCH, A. M. (1995): Galactose biosensors
      using composite polymers to prevent interferences. Biosens. Bioelectron. 10:
      359-370
      COCHE-GUERENTE, L.; COSNIER, S.; INNOCENT, C., MAILLEY, P. (1995): Develop-
      ment of amperometric biosensors based on the immobilization of enzymes in
      polymer films electrogenerated from a series of amphiphilic pyrrole deriva-
      tives. Anal. Chim. Acta. 311: 23-30.
      GÜLCE, H.; ATAMAN, I.; GÜLCE, A., YILDIZ, A. (2002): A new amperometric en-
      zyme electrode for galactose determination. Enz. and Microb. Tech. 30: 41-44.
      SHARMA, S. K.; SINGHAL, R.; MALHOTRA, B. D.; SEHGAL, N., KUMAR, A. (2004):
      Lactose biosensor based on Langmuir–Blodgett films of poly(3-hexyl thio-
      phene). Biosens. Bioelectron. 20: 651-657.

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