Irving Steinberg scite author profile

The pharmacokinetics of various drugs may be profoundly altered during different stages of pregnancy, parturition, and lactation. Gastrointestinal absorption or bioavailability of drugs may vary due to changes in gastric secretion and motility. Various haemodynamic changes such as an increase in cardiac output, blood volume, and renal plasma flow may affect drug disposition and elimination. The increase in blood volume and total body water which occurs during pregnancy can alter the volume of distribution for various drugs. Although exact quantifications are not easy, these changes in pharmacokinetic parameters should be considered when dosing antiarrhythmic agents in pregnant women. Plasma protein concentrations and drug binding capacity are altered in the mother and fetus as pregnancy advances. With highly protein bound drugs, these changes may be clinically significant, as the pharmacological efficacy and toxicity are presumed to be related to the concentration of free drug in both the mother and fetus. In some instances, the fetus may be susceptible to greater drug toxicity as free drug concentrations may be underestimated by measurement of total drug concentrations. Changes in maternal drug metabolism and metabolism by the fetoplacental unit also contribute to alterations in the pharmacokinetics of drugs. As the placenta contains many metabolising enzymes, biotransformation of drugs at this site could potentially convert a drug into an active metabolite, or prevent fetal exposure to a toxic drug. Placental transfer of drugs, leading to toxicity in the fetus, is a major concern in the pharmacological management of the pregnant patient. The passage of individual drugs will vary depending on their apparent volumes of distribution, degree of protein binding the rates of metabolic conversion and excretion within the placenta and fetus, the pH difference between the maternal and fetal fluids, and maternal haemodynamic changes. Drug properties such as lipid solubility, protein binding characteristics, and ionisation constant (pKa) also influence the placental passage of drugs. For weakly basic antiarrhythmic agents, the fetal drug concentration may potentially exceed the maternal plasma concentration when the fetal pH is lowered as in the case of fetal acidosis; this is due to 'ion trapping'. Additionally, higher free drug concentrations of these basic drugs may exist, due to decreased alpha 1-acid glycoprotein concentration and binding affinity in the fetus. Lignocaine (lidocaine) has been shown to enter fetal plasma rapidly with fetal-maternal concentration ratios in the range of 0.52 to 0.66.(ABSTRACT TRUNCATED AT 400 WORDS)

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Vancomycin-Induced Neutropenia during Treatment of Osteomyelitis in an Outpatient

Henry¹,

Steinberg²,

Crossley³

1986

Drug Intelligence & Clinical Pharmacy

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A case of vancomycin-associated neutropenia occurring during long-term outpatient therapy with vancomycin is described. Pharmacokinetic studies demonstrated that the patient's vancomycin serum levels were within an acceptable range during treatment. Eighteen other reported cases of vancomycin-associated leukopenia are discussed in brief. An immunologic mechanism has been proposed but a clear understanding is lacking. Patients receiving long-term vancomycin therapy should have their white blood cell counts periodically monitored.

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Acyclovir Dosing and Acute Kidney Injury: Deviations and Direction

Steinberg

Kimberlin

2015

The Journal of Pediatrics

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Protein binding of disopyramide–-displacement by mono -N-dealkyldisopyramide and variation with source of α-1-acid glycoprotein

Haughey

Steinberg

Lee

1985

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The binding of disopyramide to human serum proteins and human alpha-1-acid glycoprotein (AAG) was determined over a wide drug concentration range. Addition of 3.7 X 10(-6) mol litre-1 mono-N-dealkyldisopyramide caused a 20-100% increase in disopyramide free fraction. The disopyramide free fraction in AAG solutions prepared from various commercially available sources of alpha-1-acid glycoprotein varied up to 2.5 fold at corresponding disopyramide concentrations. Pronounced differences in the calculated binding constants (affinity and capacity) were observed among the commercially available AAG preparations. These findings suggest that binding studies should be performed in appropriately harvested human serum or plasma to avoid possible artifacts associated with the use of commercial preparations of alpha-1-acid glycoprotein for binding studies.

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