Serum/Saliva Correlations for Theophylline in Asthmatics

Blanchard, James; Harvey, Suzanne; Morgan, Wayne J.

doi:10.1002/j.1552-4604.1991.tb03739.x

Cited by 13 publications

(3 citation statements)

References 30 publications

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“…Saliva pH and saliva protein binding were not considered to be significant influences on observed variability 74 and the saliva to free plasma drug approached unity 75 . Several studies attempting to develop correlation equations to predict plasma levels from oral fluid measurement of drug concentrations have been able to predict plasma levels within 2 μg/mL 76–78 . Precision was better for the saliva to free plasma theophylline.…”

Section: Saliva Therapeutic Drug Management Applied To Drug Classesmentioning

confidence: 99%

“…75 Several studies attempting to develop correlation equations to predict plasma levels from oral fluid measurement of drug concentrations have been able to predict plasma levels within 2 g/mL. [76][77][78] Precision was better for the saliva to free plasma theophylline. Others found that stimulated saliva samples improved the correlation sufficiently between saliva and free fraction in serum so that saliva-based predictions of theophylline levels could be made in adults with asthma 74 or with chronic airflow obstruction.…”

Section: Bronchodilators-theophyllinementioning

confidence: 99%

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The Use of Oral Fluid for Therapeutic Drug Management

Langman

2007

Annals of the New York Academy of Sciences

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One of the underlying tenets of clinical pharmacology is that only free drugs are pharmacologically active. It is thought that only free drugs can cross biological membranes to interact with a given receptor to alter its function, and that drug responses, both efficacious and toxic, are a function of unbound concentrations. The rationale for measuring drugs in oral fluid is that the free fraction of a drug in plasma reaches equilibrium with the drug in saliva. Although reports concerning the appearance of organic solutes in saliva have been in the literature for over 70 years, it has only been in the past 30 years that there has been emphasis on the appearance of drugs. Although many assumptions for drug level monitoring in saliva are made, the primary requisite for salivary monitoring to be useful is a constant or predictable relationship between the drug concentration in saliva and the drug concentration in plasma. Measurement of oral fluid drug levels for the purpose of managing patients and making dosage adjustments may be useful for select drugs or drug classes. However, it does not appear to be useful for the majority of drugs therapeutically monitored. Some work with antipsychotic medications has indicated that although the measurement of drug concentrations themselves may not be useful for dosage adjustment, the ratio of parent drug to metabolite may reflect altered metabolic status due to either pharmacogenetic variation or other clinical conditions. Furthermore, analysis of saliva may provide a cost-effective approach for the screening of large populations.

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Section: Saliva Therapeutic Drug Management Applied To Drug Classesmentioning

confidence: 99%

Section: Bronchodilators-theophyllinementioning

confidence: 99%

The Use of Oral Fluid for Therapeutic Drug Management

Langman

2007

Annals of the New York Academy of Sciences

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“…Many later studies support the conclusions that the CsaJ/Cup exhibits acceptable variability, pH and concentration independence and a high degree of utility for predicting Cup (Blanchard et al 1991;Ebden et al 1985;Siegel et al 1990;Stoehr et al 1986). The data from these studies are summarised in table II.…”

Section: Theophyllinementioning

confidence: 67%

Therapeutic Drug Monitoring in Saliva

Drobitch

Svensson

1992

Clinical Pharmacokinetics

179

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This article re-examines the issue of salivary therapeutic drug monitoring (STDM). The anatomy and physiology of saliva and the salivary glands, as well as the effects of disease and drugs on salivary secretion and composition, are discussed briefly. Drugs for which therapeutic drug monitoring (TDM) has been shown useful are individually considered to determine if salivary drug concentrations (Csal) are reflective of plasma free drug concentrations (C(up)). That is, is the Csal/C(up) ratio time- and concentration-independent, as supported by a review of literature data? The primary determinant which appears to govern the potential utility of STDM for many of the drugs is the pKa of the drug. Drugs which are not ionisable or are un-ionised within the salivary pH range (phenytoin, carbamazepine, theophylline) are candidates for STDM based on current literature data. Digoxin and cyclosporin are potential candidates for STDM; however, further studies are necessary to confirm these preliminary findings. On the basis of current literature data, STDM does not appear to be useful for other drugs therapeutically monitored in serum/plasma.

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Oral Fluids and Teeth in Toxicology

El-Bakary

2012

Evidence-Based Forensic Dentistry

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Serum/Saliva Correlations for Theophylline in Asthmatics

Cited by 13 publications

References 30 publications

The Use of Oral Fluid for Therapeutic Drug Management

The Use of Oral Fluid for Therapeutic Drug Management

Therapeutic Drug Monitoring in Saliva

Oral Fluids and Teeth in Toxicology

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