Edward J. Briglia scite author profile

Ethanol was determined by gas chromatography in a variety of tissues and body fluids secured at autopsy in 61 cases. The specimens tested included right and left heart blood, femoral blood, pericardial fluid, cerebrospinal fluid, vitreous humor, urine, stomach contents, and brain. Statistical analysis of the cases revealed no significant differences among the various blood sites tested. However, the variations in blood ethanol concentrations among the various sampling sites within each case were as follows: 40 cases showed differences of less than 25%; 16 cases revealed variability between 25% and 50%, 4 cases had differences exceeding 50%. In one case, satisfactory blood analyses could not be accomplished. The larger variances occurred especially in those instances in which stomach alcohol concentration was 0.50% or greater. In one case, the variability amongst the different blood sites exceeded 400% (femoral blood—0.043%, right atrium—0.070%, root of aorta—0.156%); the brain was 0.050%, and the stomach contents was 1.2%. For all 61 cases, variances in blood alcohol content among the different sampling sites in a single cadaver ranged from 1.8 to 428%.

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Percutaneous Absorption and Distribution of Methanol in a Homicide

Avella¹,

Briglia²,

Harleman³

et al. 2005

Journal of Analytical Toxicology

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A woman was alleged to have committed suicide by consuming a gasoline additive shortly before jumping from a second floor balcony within her home. She was found dead by police with a multitude of injuries, lying nude in a partially evaporated unknown residue that was later determined to be methanol. Samples collected at autopsy were found to contain methanol in the following concentrations: femoral blood 31.2 mg/dL, pulmonary artery blood 111.0 mg/dL, aortic blood 77.8 mg/dL, vitreous fluid 196.4 mg/dL, brain 22.0 mg/100 g, liver 21.2 mg/100 g, and kidney 25.9 mg/100 g using a headspace gas chromatographic method. Significantly, no methanol was detected in samples recovered from the esophagus, stomach, duodenum, small intestine, bile, or urine. These findings are inconsistent with either recent or delayed oral ingestion of methanol. We concluded that absorption of methanol occurred dermally and through the oral mucosa as she lay dying and saturated in the fuel additive. Based upon the toxicological data and a comprehensive forensic investigation (including documentation and analysis of evidence recovered at the scene and the autopsy), the cause of death was determined to be blunt impact trauma and methanol poisoning.

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The Production of Amitriptyline from Nortriptyline in Formaldehyde-Containing Solutions

Dettling

Briglia

Cortivo

et al. 1990

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The stability of nortriptyline in aqueous solutions containing various concentrations of formaldehyde was investigated. Amitriptyline, as a reaction product, was determined by gas chromatography/mass spectrometry (GC/MS) in these experiments. Factors that may contribute to this phenomenon, including pH, formaldehyde concentration, and incubation time were evaluated. At 40% (v/v) formaldehyde concentration and pH 4, there was a 68% decrease in nortriptyline concentration along with a concomitant formation of amitriptyline after 24 h. The N-methylated product was responsible for 48% of the total tricyclic drug present. The data also clearly indicate that the formation of amitriptyline is favored at elevated pH.

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Edward J. Briglia

Effect of recent cocaine use on the specificity of cardiac markers for diagnosis of acute myocardial infarction

The Distribution of Ethanol in Postmortem Blood Specimens

Percutaneous Absorption and Distribution of Methanol in a Homicide

The Production of Amitriptyline from Nortriptyline in Formaldehyde-Containing Solutions

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