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Andrew J. Jajack
Researcher at University of Cincinnati
Publications - 30
Citations - 1296
Andrew J. Jajack is an academic researcher from University of Cincinnati. The author has contributed to research in topics: Analyte & Amblyomma americanum. The author has an hindex of 9, co-authored 30 publications receiving 785 citations. Previous affiliations of Andrew J. Jajack include Wittenberg University.
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Journal ArticleDOI
Wearable sensors: modalities, challenges, and prospects
Jason Heikenfeld,Andrew J. Jajack,John A. Rogers,Philipp Gutruf,Limei Tian,Tingrui Pan,Ronald A. Li,Michelle Khine,Jitae Kim,Joseph Wang +9 more
TL;DR: A deeper understanding of the fundamental challenges faced for wearable sensors and of the state-of-the-art for wearable sensor technology, the roadmap becomes clearer for creating the next generation of innovations and breakthroughs.
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Accessing analytes in biofluids for peripheral biochemical monitoring
Jason Heikenfeld,Andrew J. Jajack,Benjamin Feldman,Steve W. Granger,Supriya Gaitonde,Gavi Begtrup,Benjamin Katchman +6 more
TL;DR: The range of biochemical analytes that can be sensed in dermal interstitial fluid, saliva and sweat are surveyed, and criteria for tailoring sensor design to address the right analyte in the right body site for the right disease or wellness application are outlined.
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Fungicide contamination reduces beneficial fungi in bee bread based on an area-wide field study in honey bee, Apis mellifera, colonies.
Jay A. Yoder,Andrew J. Jajack,Andrew E. Rosselot,Terrance J. Smith,Mary Clare Yerke,Diana Sammataro +5 more
TL;DR: Bee bread showing fungicide contamination originated from colonies, many of which showed chalkbrood symptoms, and Aspergillus abundance was particularly affected by increased fungicide levels, as indicated by Simpson's diversity index.
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Modeling Glucose Transport From Systemic Circulation to Sweat.
TL;DR: The developed model satisfactorily described the sweat-to-blood relationship for glucose concentrations measured under different conditions in 4 human studies including the present pilot study, and may be used to facilitate sweat biosensor development.
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Multiple traumatic insemination events reduce the ability of bed bug females to maintain water balance.
TL;DR: F females experience elevated water stress due to traumatic insemination, especially at high levels and when males fail to pierce the ectospermalege, and water loss prevention, likely by more rapid sealing of the wound, is a novel function of the ectopsermalege.