Air contamination of therapeutic drug monitoring assay reagents results in falsely high plasma ammonia levels.

BACKGROUND: Accumulating evidence shows that contamination of blood samples by atmospheric ammonia affects blood ammonia test levels; however, reports on the effect of ammonia contamination of assay reagents are limited. Here, we aimed to clarify the effect of ammonia contamination of assay reagents, particularly the therapeutic drug monitoring (TDM) reagents, on the detection levels of blood ammonia using enzymatic assays. METHODS: Ammonia gas was measured in the refrigerator compartment of the automatic analyser and the reaction tank water, probe wash water and drain outlets connected to the automatic analyser. At different time points following the closure of the cold storage, ammonia levels in quality control plasma samples were measured using three commercial assay reagents to evaluate the effect of air contamination. The distribution of evaporated ammonia in the reagent was measured using the CicaLiquid NH3 assay kit containing the assay reagent most affected by air contamination. RESULTS: It was confirmed that ammonia gas was generated in the cold storage of the automatic analyser. More than half of the reagents detected >0.25 ppm ammonia, and the highest concentration was detected in the TDM reagent. The ammonia levels obtained using all three reagents increased significantly after 3 h of air contamination. The effect was resolved by measuring a 'dummy' sample or mixing the reagents by inversion. CONCLUSIONS: We demonstrated that air contamination by TDM reagents placed in cold storage could result in significantly falsely high ammonia measurements. Preventing this effect would improve the accuracy of ammonia measurements.

Evoked potential studies for predicting functional recovery in a case of acute necrotizing encephalopathy.

Normal-appearing evoked potentials during the acute stage of the disease despite persistent coma may predict subsequent functional recovery of the brain in a pediatric case of acute necrotizing encephalopathy, indicating that evoked potential studies are useful for predicting functional outcome of the brain.

Is there a relation between triglyceride concentrations in very low density lipoprotein and the index of insulin resistance in nondiabetic subjects?

BACKGROUND: Serum very low density lipoprotein (VLDL) levels increase during the early stages of insulin resistance; therefore, determination of VLDL levels would be useful for evaluating the progression of metabolic syndrome and diabetes mellitus. The aim of this study was to clarify the clinical utility of triglyceride in VLDL (VLDL-TG) level, determined using a homogeneous assay kit (Shino-test Corporation, Tokyo, Japan), as an index of insulin resistance. METHODS: We enrolled 74 subjects in this study (diabetic subjects, n = 42; nondiabetic subjects, n = 32). The levels of VLDL-TG, remnant-like lipoprotein particle cholesterol, preheparin lipoprotein lipase mass, and other biochemical markers were determined. RESULTS: VLDL-TG levels were significantly higher in the diabetic group (1.04 ± 0.84 mmol/l vs. 0.64 ± 0.42 mmol/l, P < 0.01) than in the nondiabetic group. In the nondiabetic group, VLDL-TG was significantly correlated with the homeostasis model assessment of insulin resistance (HOMA-IR), the index for insulin resistance (r = 0.513, P = 0.003). VLDL-TG levels, but not TG levels, were higher in the highest quartile (HOMA-IR) of the nondiabetic group. CONCLUSION: VLDL-TG level was a useful early marker for insulin resistance, especially in nondiabetic subjects. The homogeneous VLDL-TG assay is a simple, low-cost method for determining insulin resistance.

Semiquantitative analysis of apolipoprotein A-I modified by advanced glycation end products in diabetes mellitus.

BACKGROUND: Apolipoprotein A-I (Apo A-I), the major component of high-density lipoprotein (HDL), is modified by reactive α-oxoaldehydes, such as methylglyoxal (MG) and glycolaldehyde (GA), and these modifications affect the function of Apo A-I. GA- and MG-modified Apo A-I serum levels were semiquantitatively evaluated in diabetic patients to elucidate the association of each protein with diabetes and to determine its appropriateness as a serum marker of diabetes. METHODS: We enrolled 44 subjects in this study (diabetic subjects, n = 24; nondiabetic subjects, n = 20). GA- and MG-modified Apo A-I levels in serum were determined by sandwich enzyme-linked immunosorbent assay (ELISA) by using anti-GA or anti-MG antibody and anti-Apo A-I antibody. RESULTS: The GA-modified Apo A-I levels did not significantly differ between the diabetic and nondiabetic subjects (1.00 ± 0.38 vs. 0.96 ± 0.22). However, the MG-modified Apo A-I levels in the diabetic subjects were significantly higher than those in the nondiabetic subjects (1.33 ± 0.52 vs. 0.90 ± 0.20). In addition, MG-modified Apo A-I levels correlated with the glycated hemoglobin (HbA1c) levels, HDL-cholesterol levels, and the homeostasis model assessments of insulin resistance, which are indicators of insulin resistance. CONCLUSION: The MG-modified Apo A-I level may be an indicator of diabetic dyslipidemia and insulin resistance.

Clinical usefulness of multiplex PCR lateral flow in MRSA detection: a novel, rapid genetic testing method.

Methicillin-resistant Staphylococcus aureus (MRSA) with exogenous cassette DNA containing the methicillin-resistant gene mecA (SCCmec) poses a problem as a drug-resistant bacterium responsible for hospital- and community-acquired infections. The frequency of MRSA detection has recently been increasing rapidly in Japan, and SCCmec has also been classified more diversely into types I-V. A rapid test is essential for early diagnosis and treatment of MRSA infections, but detection by conventional methods requires at least two days. The newly developed multiplex PCR lateral flow method allows specific amplification of femA to detect S. aureus, mecA to detect SCCmec, and kdpC to detect SCCmec type II; moreover, PCR products can be evaluated visually in about 3 h. In the present study, we developed a PCR lateral flow method for MRSA using this method and investigated its clinical usefulness in the detection of MRSA. The results showed a diagnostic concordance rate of 91.7% for MRSA and methicillin-susceptible S. aureus between bacteriological examination and PCR lateral flow, and a high level of specificity in PCR lateral flow. In addition, a higher detection rate for S. aureus using the same sample was observed for PCR lateral flow (70.2%) than for bacteriological tests (48.6%). The above results show that PCR lateral flow for MRSA detection has high sensitivity, specificity, and speed, and its clinical application as a method for early diagnosis of MRSA infections appears to be feasible.

[Electroencephalographic background activity and blood biochemistry data in patients with chronic renal failure during chronic hemodialysis].

There is no particular electroencephalographic activity known to be associated with consciousness disturbance in uremic patients; however, a slow wave activity is generally observed during consciousness disturbance. Abnormal electroencephalographic activity was observed in 30 (67%) of 45 chronic renal failure patients during chronic hemodialysis without consciousness disturbance, and slow wave activity was observed in 58%. The frequency of the electroencephalographic background activity correlated with blood urea nitrogen (BUN) and serum Ca levels, but not with K, IP, and creatinine levels. Electroencephalographic activity can be estimated with reference to BUN or serum Ca levels in the blood of uremic patients.