Automated assays for trace elements and ferritin measurement in saliva of pigs: Analytical validation and a pilot application to evaluate different iron status.

The aim of this study was to validate automated methods to measure iron (Fe), zinc (Zn), copper (Cu) and ferritin in pig saliva samples. A complete analytical validation was performed of all assays. In addition, these methods were applied to saliva of Fe supplemented (n = 22) and non-supplemented (n = 20) piglets. All assays were able to measure these biomarkers in pig saliva with adequate precision, accuracy and high sensitivity and, in case of trace elements without needing a deproteinization pre-process. The group of piglets supplemented with Fe presented significantly higher levels of ferritin and Zn in saliva. In conclusion, the automated assays evaluated were able to measure Fe, Zn, Cu and ferritin in saliva of pigs, and in case of trace elements, they have the advantage of not needing a deproteinization pre-treatment and thus these analytes can be measured in a simple and fast manner.

Biomarkers of sepsis in pigs, horses and cattle: from acute phase proteins to procalcitonin.

Sepsis is a complex clinical syndrome triggered by an inflammatory host response to an infection. It is usually complicated to detect and diagnose, and has severe consequences in human and veterinary health, especially when treatment is not started early. Therefore, efforts to detect sepsis accurately are needed. In addition, its proper diagnosis could reduce the misuse of antibiotics, which is essential fighting against antimicrobial resistance. This case is a particular issue in farm animals, as antibiotics have been traditionally given massively, but now they are becoming increasingly restricted. When sepsis is suspected in animals, the most frequently used biomarkers are acute phase proteins such as C-reactive protein, serum amyloid A and haptoglobin, but their concentrations can increase in other inflammatory conditions. In human patients, the most promising biomarkers to detect sepsis are currently procalcitonin and presepsin, and there is a wide range of other biomarkers under study. However, there is little information on the application of these biomarkers in veterinary species. This review aims to describe the general concepts of sepsis and the current knowledge about the biomarkers of sepsis in pigs, horses, and cattle and to discuss possible advances in the field.

Basics for the potential use of saliva to evaluate stress, inflammation, immune system, and redox homeostasis in pigs.

The use of saliva as a biological sample has many advantages, being especially relevant in pigs where the blood collection is highly stressful and painful, both for the animal and the staff in charge of the sampling. Currently one of the main uses of saliva is for diagnosis and detection of infectious diseases, but the saliva can also be used to measure biomarkers that can provide information of stress, inflammation, immune response and redox homeostasis. This review will be focused on the analytes that can be used for such evaluations. Emphasis will be given in providing data of practical use about their physiological basis, how they can be measured, and their interpretation. In addition, some general rules regarding sampling and saliva storage are provided and the concept of sialochemistry will be addressed. There is still a need for more data and knowledge for most of these biomarkers to optimize their use, application, and interpretation. However, this review provides updated data to illustrate that besides the detection of pathogens in saliva, additional interesting applicative information regarding pigs´ welfare and health can be obtained from this fluid. Information that can potentially be applied to other animal species as well as to humans.

Forty years of Tuberculous meningitis: The new face of an old enemy.

BACKGROUND: Tuberculous meningitis (TBM) occurs in 1-5% of cases of tuberculosis. Without early treatment, mortality and permanent disability rates are high. METHODS: A retrospective study performed at a tertiary hospital in Madrid (Spain) to describe clinical, diagnostic, and therapeutic aspects of TBM and analyze epidemiological trends over forty years, divided into two intervals (1979-1998 and 1999-2018). RESULTS: Overall, TBM was diagnosed in 65 patients (1.8% of new tuberculosis diagnoses), 48 in the first period and 17 in the second one. Median age at diagnosis increased from 38.5 to 77 years (p = 0.003). The proportion of non-HIV immunosuppressed patients increased (from 2.1% to 29.4%, p < 0.001), while the percentage of patients with a history of drug-abuse decreased (from 33.3% to 5.9%, p = 0.027). The median time between the onset of neurological symptoms and lumbar puncture increased from seven to 15 days (p = 0.040). The time between the onset of symptoms and the initiation of tuberculostatic treatment also increased from eleven to 18 days (p = 0.555). Results from image, biochemical, and microbiological tests showed no differences between both periods. A decreasing trend was observed in survival rates at 1-week (from 97.9% to 64.7%, p < 0.001), 1-month (from 91.7% to 58.8%, p = 0.002) and 1-year (from 85.4% to 47.1%, p = 0.002) after TBM diagnosis. CONCLUSIONS: The profile of patients diagnosed with TBM has changed from a young HIV-infected patient with a history of drug addiction to an elderly patient with non-HIV immunosuppression. Diagnosis and start of treatment both experienced a noticeable delay in the second period, which could help explain the increase in mortality observed across the two periods.

Salivary D-dimer in pigs: Validation of an automated assay and changes after acute stress.

D-dimer is a peptide found in serum and is derived from the degradation of blood clots. Even though it has been analysed in human saliva, D-dimer has not been previously evaluated in the saliva of any veterinary species, and its source and role remain unknown. The objectives of this research were firstly, to validate the use of an automated method for the measurement of D-dimer in porcine saliva, and secondly, to evaluate whether D-dimer concentration changes in pig saliva after an acute stress stimulus. For this purpose, a complete analytical validation of a commercially-available immunoturbidimetric assay was carried out. In addition, an experimental acute stress model was induced in 11 pigs based on a technique involving restraint by nose-snare immobilisation for 1 min. Saliva samples were subsequently collected at different times and D-dimer, salivary alpha-amylase (sAA) and cortisol were assessed in order to evaluate changes in its concentrations after the stress induction. The D-dimer automated assay showed adequate reproducibility and sensitivity, with coefficients of variation below 10% and a limit of quantification of 0.167 µg/mL fibrinogen equivalent units (FEU). It also showed a high accuracy, determined by linearity under dilution and recovery tests. In the stress model, a significant increase (P < 0.05) in salivary D-dimer 15 min after the stress stimulus and a positive correlation between D-dimer and sAA (r = 0.51; P < 0.001) were observed. These results indicate that D-dimer can be measured in porcine saliva with an automated method and suggest that its concentration can be influenced by stressful conditions.