Trace metal imaging in diagnostic of hepatic metal disease

Abstract: The liver is the most central organ and the largest gland of the body that influences and controls a variety of metabolic and catabolic processes. It produces inconceivable many essential proteins, is responsible for the recovery of various food components, degrades toxins, mediates the bile production, and is involved in the excretion of unwanted metabolites. Several of these anabolic or catabolic functions of the liver depend on trace elements. These are either integral part of enzymes, cofactors, or act as … Show more

“…225 Unfortunately, only select ionization sources are capable of imaging metals, and each method is limited in which metals they can image. 226 Currently, laser ablation-inductively coupled plasma (LA-ICP) MS 32,225,227–230 and SIMS 24,231 have been the only methods available to analyze elemental metals. With the use of nanoSIMS, mapping at a subcellular resolution (300 nm) has been achieved for copper, phosphorus, iron, and calcium, allowing the discrimination between the cell wall and different vacuoles in a C. reinhardtii cell.…”

“…Briefly, MSI has shown applicability to determining metal accumulation, 226 discriminating tumor regions, 41,49,51,212,213 disease diagnosis, 218,248 and even intraoperative usage. 5,6 MS has already found its way into real-time surgeries with the invention of the iKnife, 70 and it is only a matter of time before MSI is utilized in a similar fashion.…”

Mass Spectrometry Imaging: A Review of Emerging Advancements and Future Insights

“…225 Unfortunately, only select ionization sources are capable of imaging metals, and each method is limited in which metals they can image. 226 Currently, laser ablation-inductively coupled plasma (LA-ICP) MS 32,225,227–230 and SIMS 24,231 have been the only methods available to analyze elemental metals. With the use of nanoSIMS, mapping at a subcellular resolution (300 nm) has been achieved for copper, phosphorus, iron, and calcium, allowing the discrimination between the cell wall and different vacuoles in a C. reinhardtii cell.…”

“…Briefly, MSI has shown applicability to determining metal accumulation, 226 discriminating tumor regions, 41,49,51,212,213 disease diagnosis, 218,248 and even intraoperative usage. 5,6 MS has already found its way into real-time surgeries with the invention of the iKnife, 70 and it is only a matter of time before MSI is utilized in a similar fashion.…”

Mass Spectrometry Imaging: A Review of Emerging Advancements and Future Insights

“…Similar to XFM, energy dispersive X-ray spectroscopy (abbreviated EDX, EDS, EDXS, or XEDS) measures the X-rays emitted from the sample due to its interaction with the electron beam. 103 Compared to XFM, the background signal for EDX is quite high. Inelastic electron interactions within the SEM generate a background signal (called Bremsstrahlung , which is German for “braking radiation”) that greatly diminishes sensitivity for heavy elements.…”

Analytical Methods for Imaging Metals in Biology: From Transition Metal Metabolism to Transition Metal Signaling

“…Similar to MALDI-MSI, LA-ICP-MSI has been used to study the distribution of elements in various animal models and human tissue samples (Becker et al 2014; Susnea and Weiskirchen 2016) and to characterize changes in cerebral metal accumulation associated with disease, as, for example, in Wilson’s disease (Boaru et al 2014). …”

Molecular composition of the human primary visual cortex profiled by multimodal mass spectrometry imaging