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Dosage Regimens: Designs and Approaches01:28

Dosage Regimens: Designs and Approaches

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Designing a dosage regimen, which refers to the manner of drug administration, is a complex process involving the selection of drug dose, route, and frequency. This process is underpinned by pharmacokinetic parameters derived from tests and population averages. These parameters are then tailored to patient-specific variables such as diagnosis, demographics, and allergy status. Once therapy commences, therapeutic response monitoring is critical and achieved through clinical and physical...
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Dosage Regimen Designs: Nomograms and Tabulations01:23

Dosage Regimen Designs: Nomograms and Tabulations

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Nomograms and tabulations are vital tools used by clinicians to design accurate and individualized dosage regimens. These instruments provide a straightforward method for adjusting dosages based on individual patient characteristics, including age, weight, and physiological condition. The foundation of a drug's nomogram is population pharmacokinetic data collected and analyzed using specific models. This data simplifies complex equations, presenting them diagrammatically or tabularly for easy...
262
Dosage Regimens: Partial Pharmacokinetic Parameters01:01

Dosage Regimens: Partial Pharmacokinetic Parameters

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It is not uncommon for complete drug pharmacokinetic profiles to remain elusive in pharmacokinetics. This necessitates certain educated assumptions by pharmacokineticists to determine appropriate dosage regimens without comprehensive pharmacokinetic data from animal or human studies. One prevalent assumption is setting the bioavailability factor, denoted as F, to 1 or 100%. This assumption caters to the scenario where a drug doesn't achieve full systemic absorption, resulting in the patient...
226
Dosage Regimen: Individualization01:24

Dosage Regimen: Individualization

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Individualization in dosing regimens is the customization of medication doses for individual patients. Its necessity arises from the goal of maximizing therapeutic benefits while minimizing risks. This approach is pivotal because human responses to drugs can vary widely; what is effective for one person may be inadequate or excessive for another. Interpatient (intersubject) variability refers to differences in drug responses between individuals, while intrapatient (intrasubject) variability...
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Drug Dosing: Infants and Children01:29

Drug Dosing: Infants and Children

400
Pediatric patient dosages diverge from adults due to disparities in body surface area, total body water, and extracellular fluid per kilogram of body weight. The dosing regimen considers the variations in pharmacokinetics and pharmacology across distinct age groups, encompassing preterm newborns, infants, young children, older children, and adolescents. Calculation of pediatric patient doses is predicated on determining body surface area, which exhibits a superior correlation with the child's...
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Drug Dosing: Geriatric Patients01:15

Drug Dosing: Geriatric Patients

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Elderly individuals encompass a diverse population with varying degrees of age-related physiological changes. Defining the elderly presents challenges, as the geriatric population is often arbitrarily categorized as individuals older than 65. However, many individuals in this group lead active and healthy lives, with an increasing number surpassing 85 years and falling into the older elderly category. Physiological changes associated with aging impact performance capacity and homeostatic...
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Related Experiment Video

Updated: Feb 25, 2026

Improving IV Insulin Administration in a Community Hospital
12:08

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Pictograms, Units and Dosing Tools, and Parent Medication Errors: A Randomized Study.

H Shonna Yin1,2, Ruth M Parker3, Lee M Sanders4

  • 1Department of Pediatrics, New York University School of Medicine, NYC Health + Hospitals/Bellevue, New York, New York; yinh02@med.nyu.edu.

Pediatrics
|August 1, 2017
PubMed
Summary
This summary is machine-generated.

Providing dosing tools that match prescribed volumes significantly reduces medication errors in children. Using milliliter-only units and clear pictographic labels further improves accuracy, enhancing pediatric medication safety.

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Area of Science:

  • Pediatric Pharmacology
  • Medication Safety
  • Health Literacy

Background:

  • Medication dosing errors in children are a significant concern.
  • Poorly designed labels and dosing tools contribute to these errors.
  • Improving accuracy requires optimized tools and clear instructions.

Purpose of the Study:

  • To evaluate strategies for reducing pediatric medication dosing errors.
  • To assess the impact of pictographic labels, milliliter-only units, and matched dosing tools.
  • To identify the most effective interventions for improving dosing accuracy.

Main Methods:

  • A randomized controlled trial was conducted in 3 pediatric clinics.
  • Parents of children aged 8 years or younger were assigned to different groups.
  • Interventions involved variations in label format (text/pictogram vs. text only) and units (milliliter-only vs. milliliter/teaspoon), alongside different dosing tools.

Main Results:

  • Over 83% of parents made at least one dosing error, with nearly 30% making large errors (>2x dose).
  • Dosing tools closely matched to prescribed volumes showed the greatest impact in reducing errors.
  • Milliliter-only units and text/pictogram labels were associated with fewer errors compared to milliliter/teaspoon units and text-only labels.

Conclusions:

  • Matching dosing tools to prescribed volumes is a highly effective strategy for reducing pediatric dosing errors.
  • Clearer labels with pictograms and milliliter-only units also contribute to improved medication accuracy.
  • Optimizing both tools and labels is crucial for enhancing pediatric medication safety.