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- Multi-step subcritical water extracts of fucus vesiculosus L. and Codium tomentosum stackhouse: composition, health-benefits and safetyPublication . Soares, Cristina; Paiga, Paula; Marques, Marta; Neto, Tânia; Carvalho, Ana Paula; Paiva, Alexandre; Simões, Pedro; Costa, Leonor; Bernardo, Ana; Fernández, Naiara; Pinto, Edgar; Almeida, Agostinho; Bronze, Maria Rosário; Delerue-Matos, Cristina; Grosso, ClaraMental health and active aging are two of the main concerns in the 21st century. To search for new neuroprotective compounds, extracts of Codium tomentosum Stackhouse and Fucus vesiculosus L. were obtained through multi-step (four step) subcritical water extraction using a temperature gradient. The safety assessment of the extracts was performed by screening pharmaceutical compounds and pesticides by UHPLC-MS/MS, and iodine and arsenic levels by ICP-MS. Although the extracts were free of pharmaceutical compounds and pesticides, the presence of arsenic and high iodine contents were found in the first two extraction steps. Thus, the health-benefits were only evaluated for the fractions obtained in steps 3 and 4 from the extraction process. These fractions were tested against five brain enzymes implicated in Alzheimer’s, Parkinson’s, and major depression etiology as well as against reactive oxygen and nitrogen species, having been observed a strong enzyme inhibition and radical scavenging activities for the step 4 fractions from both seaweed species. Regarding the variation of the chemical composition during the extraction, step 1 fractions were the richest in phenolic compounds. With the increase in temperature, Maillard reaction, caramelization and thermo-oxidation occurred, and the resulting products positively affected the antioxidant capacity and the neuroprotective effects.
- Editorial: Iodine in health and diseasePublication . Keating, Elisa; Pinto, Edgar; Almeida, AgostinhoIodine is an essential micronutrient, used by the thyroid gland to synthesize thyroid hormones that perform pleiotropic functions in the human organism. These roles include stimulating somatic growth and regulating metabolism, cardiac function, and neurodevelopment, the latter through the control of synapse formation, neuronal migration, and myelination.
- Iodine levels in different regions of the human brainPublication . Pinto, Edgar; Ramos, Patrícia; Vital, Cristiana; Santos, Agostinho; Almeida, AgostinhoIodine is a key component of the thyroid hormones thyroxine (T4) and triiodothyronine (T3), which are crucial for proper growth and development of the human body. In particular, a great body of literature has been published on the link between thyroid hormones and brain development and functioning. However, there is a lack of knowledge on the iodine levels in the human brain. The aim of this work was to determine the brain iodine levels and to contribute to the establishment of “reference” levels for iodine in the different anatomical and functional regions of normal (i.e., subjects without neurological or psychiatric diseases) human brain.
- Serum iodine and bromine in chronic hemodialysis patients—an observational study in a cohort of portuguese patientsPublication . Novakova, Gergana; Bonev, Presian; Duro, Mary; Azevedo, Rui; Couto, Cristina; Pinto, Edgar; Almeida, AgostinhoPatients on chronic hemodialysis therapy are at high risk of disturbances in trace element status due to both the underlying disease and the hemodialysis process itself. Data on iodine and bromine levels in these patients are scarce. Using an ICP-MS analytical procedure, serum iodine and bromine levels were determined in a cohort (n = 57) of end-stage renal disease patients on chronic hemodialysis. The results were compared with those of a control group (n = 59). Results: Hemodialysis patients presented serum iodine levels within the normal range, slightly lower than in controls, but without reaching a statistically significant difference (67.6 ± 17.1 µg/L vs. 72.2 ± 14.8 µg/L; p = 0.1252). In contrast, serum bromine levels were much lower in patients (1086 ± 244 µg/L vs. 4137 ± 770 µg/L; p < 0.0001), at values only about 26% of the values observed in controls. Hemodialysis patients had normal serum iodine levels, but highly decreased serum bromine levels. The clinical significance of this finding requires further investigation, but it may be associated with sleep disturbances and fatigue that affect hemodialysis patients.