Biopharmaceutics. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Медицина
Год издания: 0
isbn: 9781119678373
Скачать книгу
Pharmacy and Biomedical Sciences, University of Strathclyde, Glasgow, United Kingdom

      The aim of this chapter is to introduce biopharmaceutics and to define some key terms used within biopharmaceutics. It will also briefly introduce where biopharmaceutics sits in the drug development process.

      The term biopharmaceutics was introduced in the 1960s by Levy [1]. The word originates from the combination of bio‐ from the Greek meaning relating to living organisms or tissue and pharmaceutics defined as the science of pharmaceutical formulations; in this case the living organism is the person (or animal being treated). In modern parlance, the term biopharmaceutics encompasses the science associated with the physical/chemical properties of the drug product (including all components therein) and the interactions of this product with parameters linked to the route of administration that affect the rate and extent of drug uptake or presence at the site for local action. It combines knowledge of materials science; physiology; anatomy and physical sciences.

      The term biopharmaceutics can cause confusion; particularly with the advent of biopharmaceutical drug products. There is evidence in confusion in terminology back in the 1970s where efforts were made to standardise the terminology used [2]; these efforts defined biopharmaceutics in several ways according to the experts at the time of publication. The most widely used definition is, ‘The study of the influence of formulation on the therapeutic activity of a drug product. Alternatively, it may be defined as a study of the relationship of the physical and chemical properties of the drug and its dosage form to the biological effects observed following the administration of the drug in its various dosage forms’ [3].

      An analysis of new drug approvals in 2019 (US, EU and Japan) showed that oral products represented the majority of approvals (50%) with tablets and capsules as the dominant oral dosage forms [4]. Thus biopharmaceutics has tended to focus on oral more than alternative routes of administration.

       Source: Data from Pubmed.gov, November 2020.

       Chemistry, Pharmaceutical (1966–1969)

       Drug Compounding (1966–1969)

       Drugs (1966–1969)

       Pharmacology (1966–1969)

      There is a strong link between biopharmaceutics and pharmacokinetics. Pharmacokinetics measures the concentration of drug at a site in the body versus time. Understanding the biopharmaceutics will influence the pharmacokinetic profile observed. In particular, biopharmaceutics has a focus on the absorption phase of a drug as this is the phase where the dosage form design has influence over the pharmacokinetic profile. The metabolism and subsequent elimination and excretion are driven by the drug properties rather than those of the formulation used to administer the drug.

Schematic illustration of an overview of the biopharmaceutics timeline of key events.

      Pharmacokinetic data can be analysed to demonstrate what fraction of the drug administered orally was measured within the system; this fraction is termed the bioavailable dose. It is recognised that not all drug administered will reach the site of measurement as some will be lost due to: localised degradation; failure to permeate membranes to reach the site of measurement; metabolism between site of absorption and site of measurement. Calculation of the bioavailability of a drug is important in dosage form design as it will influence the dose to be administered as well as the likelihood of reaching the target concentration at the site of measurement (and site of action). This can also be termed the bioperformance of a product.

      The processes that influence the bioavailable dose are key to the science of biopharmaceutics. There is emphasis on the fraction of drug absorbed as this relates to the inherent drug properties and how they link