Medical Diagnostics and Food Analysis
1. K. Cammann: “Implantable Electrochemical Glucose Sensors – State of the Art”, Horm Metab Res, Suppl Ser (Implantable Glucose Sens) 20, 4-8 (1988)
2. B. Kallabis, K. Cammann, F. Spener: “First Studies on the Development of a Biosensor for Triglycerides”, in: F. Scheller, R.D. Schmid (eds.) Biosensors: Fundamentals, Technologies and Applications GBF Monographs 17, pp. 71-74, VCH Verlagsgesellschaft Weinheim (1992)
3. D. Meiwes, B. Roß, K. Cammann, M. Knoll, H. Witzel: „Development of a Biosensor for the Detection of Catecholamines in Urine”, in: F. Scheller, R.D. Schmid (eds.) Biosensors: Fundamentals, Technologies and Applications GBF Monographs 17, pp. 87-90, VCH Verlagsgesellschaft Weinheim (1992)
4. A. Rohen, J. Krause, K. Cammann: „Fiberoptic Biosensor for Lactate with Redox-Dyes as Coenzyme”, in: F. Scheller, R.D. Schmid (eds.) Biosensors: Fundamentals, Technologies and Applications GBF Monographs 17, pp. 91-94, VCH Verlagsgesellschaft Weinheim (1992)
5. S.B. Butt, K. Cammann: “Enzyme urea biosensor on a modified potentiometric-PVC-nonactin membrane electrode for assay of urea in blood”, Anal Lett 25(9) 1597-615 (1992)
6. D. Meiwes, B. Ross, M. Kiesshauer, K. Cammann, H. Witzel, M. Knoll, C. Sundermeier, M. Borchardt: „Biosensor zur Bestimmung von Catecholaminen im Urin“, Labor-Medizin 15, 24-25 (1992)
7. U. Kunz, A. Katerkamp, R. Renneberg, F. Spener, K. Cammann: „Sensing a heart infarction marker with surface plasmon resonance spectroscopy”, SPIE, Biomedical Optics Europe 94 Proc. of Medical Sensor and Fibre Optical Sensors Lille Force, 9. Sept. 1994, SPIE Vol. 2331 p 40-49 (1994)
8. B. Ross, G. Steiner, M. Kieshauer, M. Bradter, K. Cammann: „Instrument with integrated sensors for a rapid determination of inorganic Ions”, Sensors and Actuators B 26-27, 380-383 (1995)
9. F. Spener, R. Steinkuhl, C. Dumschat, H. Hinkers, K. Cammann, M. Knoll: „Development of a novel enzyme based glucose sensor”, In: Carbohydrate Bioengineering, S. B.Peterson, B. Svensson, S. Petersen (Eds.) Elsevier Science B.V. 49-58 (1995)
10. M. Wortberg, M. Orban, R. Renneberg, K. Cammann: “Fluorimetric Immunosensors”, pp 369-405 in Handbook of Biosensors and Electronic Noses: Medicine, Food, and the Environment Chapter 17: Edited by Erika Kress-Rorgs, CRC Press, Boca Raton New York, London, Tokyo (1996)
11. S. Meier, K. Cammann, G.-C. Chemnitius: „Enzymsensoren zur Vor-Ort-Bestimmung von Zuckern in Mosten und Weinen“, GIT Labor-Fachz. 43, 9 (1999), 922-925
12. H. Frebel, G. Chemnitius, K. Cammann, R. Kakerow, M. Rospert, W. Mokwa: “Multi-analyte-sensor for the simultaneous determination of glucose, L-lactate and uric acid based on a micro-electrode array”, Sensors and Actuators B, 43, 87-93, 1997;
13. C. Loechel, C. Chemnitius, M. Borchardt, K. Cammann: “Amperometric bi-enzyme based biosensor for the determination of lactose with an extended linear range”, Z Lebensm Unters Forsch A 207, 381-385, 1998;
14. John, H., K. Cammann, W. Schlegel: “Development and Review of Radioimmunoassay of 12-S-Hydroxyheptadecatrienoic Acid”, Postaglandins & other Lipid Mediators” 56, 53-76, 1998;
15. C. Eggenstein, M. Borchardt, C. Diekmann, B. Gründig, C. Dumschat, K. Cammann, M. Knoll, F. Spener: “A disposable biosensor for urea determination in blood based on an ammonium sensitive transducer”, Biosensors & Bioelectronics 14, 33-41, 1999;
16. C. Peter, C. Brunen-Nieweler, K. Cammann, et.al.: “Differentiation of animal species in food by oligonucleotide microarray hybridization”, European Food Research and Technology 219 (3): 286-293, Aug. 2004;
17. T. Boerchers, C. Peter, A. Katerkamp, M. Meusel, K. Cammann: „DNA-optischer Sensorchip zur Detektion von Hybridisierungsereignissen in Realzeit“, Biosensor Symposium Tuebingen 2001, http://tobias-lib.ub.uni-tuebingen.de/volltexte/2001/365/