Abstract
Iodine is a trace chemical element fundamental for a healthy human organism. Iodine deficiency affects about 2 billion people worldwide causing from mild to severe neurological impairment, especially in children. Nevertheless, an adequate nutritional intake is considered the best approach to prevent such disorders. Iodine is present in seawater and seafood, and its common forms in the diet are iodide and iodate; most iodide in seawater is caused by the biological reduction of the thermodynamically stable iodate species. On this basis, a multisensor instrument which is able to perform a multidimensional assessment, evaluating iodide content in seawater and seafood (via an electrochemical sensor) and discriminating when the seafood is fresh or defrosted quality (via a Quartz Micro balance (QMB)-based volatile and gas sensor), is strategic for seafood quality assurance. Moreover, an electronic interface has been opportunely designed and simulated for a low-power portable release of the device, which should be able to identify seafood over or under an iodide threshold previously selected. The electrochemical sensor has been successfully calibrated in the range 10–640 μg/L, obtaining a root mean square error in cross validation (RMSECV) of only 1.6 μg/L. Fresh and defrosted samples of cod, sea bream and blue whiting fish have been correctly discriminated. This proof-of-concept work has demonstrated the feasibility of the proposed application which must be replicated in a real scenario.
Highlights
Iodine is a trace chemical element fundamental for a healthy human organism [1]
Iodine is present in seawater and seafood [2], and its common forms in the diet are iodide and iodate [3]; most iodide in seawater is caused by the biological reduction of the thermodynamically stable iodate species [4]
This circuit is powered by a fixed voltage (V1), corresponding to the input voltage sbsrreeueusplpteuopcwlrttltesyhedidocobvhnitinliofaacatyrnafietinvhnastsdheohlemyubdelTtarseraahreiniwnsaenmseddsluiigsrntumadlehotlttsetsteoherustftreherrs.rlyomaeteiTsmcsclfishtsotozecieierofoedamafttdnslshhifueiubioewe(cslrSrdahorsaiietei:nnettidchaniwodgtoelsiniainozospitsuahp,nrphtobaniieia3enonu-res.zsfnc2dteieoooe).tcore.shdwtmAflsTeiieaodthhchesrnedityedyecrecshristbtaeatchiaeulptcmrdimiabteolteeunhsrnr’vdsahtleosabtioatcivdteoltbeisdhoeoni,ugleslnsirftratcyefarayrriwqesgecnitispuieanetpeuetemsnrvilfdsoetitpa,tsssnitbplheenoourynrogbfefeatroftsaseectaerodhstdimbnhhnipheueteneeefrvetediddotrcensoeivsaoewrtnaihscdnddsiueccitetasethoihghtcblanoelretoacihvabmdlvnfuleoiaeidriolsstssn,tticftoaveatarthgsfretirhttimyeeeo-esepuniwn,b, abs-osetereiackocfa.ntouiooosdnef ware Mult3is.1im
Summary
Iodine is a trace chemical element fundamental for a healthy human organism [1]. Iodine is present in seawater and seafood [2], and its common forms in the diet are iodide and iodate [3]; most iodide in seawater is caused by the biological reduction of the thermodynamically stable iodate species [4]. In this work, a multi-focus and multidimensional approach is proposed: the first focus is on seafood, which represents an optimal dietary option for iodide consumption [14]; the second focus is on sea environment (seafood supplying source) which is naturally rich in iodide concentration On this basis, a multisensor instrument [15], which is able to evaluate iodide content in seawater and seafood (via an electrochemical sensor) and to discriminate when the seafood is fresh or defrosted (via a Quartz Micro balance (QMB)based volatile and gas sensor), is strategical for seafood quality assurance. This experiment was focused on fish quality but not addressed to health-state objectives such as that regarding iodide consumption
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
