RCSI Medicines 1: Tools in Analysis of Drugs and Medicines PDF

Summary

This RCSI document covers tools used in the analysis of drugs and medicines, including techniques like spectroscopy and chromatography. The material is suitable for Masters in Pharmacy (MPharm), BSc Advanced Therapeutic Technologies students.

Full Transcript

RCSI Royal College of Surgeons in Ireland Coláiste Ríoga na Máinleá in Éirinn

Tools in Analysis of Drugs and Medicines (I, II)

Course: Masters in Pharmacy (MPharm), BSc Advanced Therapeutic Technologies

Module: Medicines 1

Lecturer: Dr Sam Maher
LEARNING OUTCOMES
1. Summarise the tools used in the analysis of drugs and pharmaceutical dosage
forms
2. Define accuracy and precision

3. Outline the role of spectroscopy in pharmaceutical science

4. Outline the role of chromatography in pharmaceutical science

5.
MEDICINES QUALITY

Quality control is integral to all modern industrial processes

Types of analysis
– Chemical
– Physical
– Microbiological

The quality of a medicine may deviate from the standard
required, but one must be certain that the quality of the
analysis itself is of a suitable standard.
 DOSAGE FORM
STABILITY TESTING ATTRIBUTE TESTING

BIOANALYSIS

COMPATABILITY
APPLICATIONS QUALITY
TESTING
TESTING OF ANALYSIS

DRUG ISOLATION DRUG
CHARACTERISATION

DRUG
IDENTIFICATION
EXAMPLE OF SCIENTIFIC TOOLS IN R&D

MICROSCOPY
ELISA
FLOW CYTOMETRY
ELECTROPHYSIOLOGY
BIOASSAY
MOLECULAR DIAGNOSTICS
BIOSPECIFIC INTERACTIONS
PROTEOMICS
BACTERIAL & MAMMALIAN CELL CULTURE
PRE-CLINICAL ANIMAL MODELS
 ANALYSIS

DRUG TESTING IN BLOOD
PREFORMULATION
Preformulation is the stage in drug and dosage form development before
formal formulation.
QUALITY TESTING

Quality assurance (QA) and quality control (QC) departments develop and
follow standard internal operating procedures directed toward assuring
the quality, safety, purity, and effectiveness of drug products.

Specifications: A specification is defined as a list of tests, references to
analytical procedures, and appropriate acceptance criteria, which are
numerical limits, ranges, or other criteria for the tests described.
Specifications are one part of a total control strategy for the drug substance
and drug product designed to ensure product quality and consistency.

Example tests in quality management
– Stability
– Impurities
– Residual solvent
DOSAGE FORM TESTING (EXAMPLES)

TABLETS
DISINTEGRATION TESTING (APPARATUS)
FRIABILITY (APPARATUS)
HARDNESS (APPARATUS)
DISSOLUTION TESTING (APPARATUS)

CREAM
RHEOLOGY TESTING
SUMMARY OF ANALYSIS IN PHARMACEUTICAL SCIENCE
TYPES OF ANALYSIS

QUALITATIVE ANALYSIS: Analysis of a substance in order to ascertain the
nature of its chemical constituents

QUANTITATIVE ANALYSIS: Analysis of a substance to determine the
amounts and proportions of its chemical constituents
VALIDATION OF ANALYTICAL PROCEDURES

ACCURACY: Closeness of a measurement to the true value

PRECISION: Closeness of two or more measurements to each other. The
precision of an analytical procedures expresses the closeness of agreement
(degree of scatter) between a series of measurements obtained from
multiple sampling of the same homogenous sample under the prescribed
conditions
LEVELS OF PRECISION
REPEATABILITY
INTERMEDIATE PRECISION
REPRODUCIBILITY
 FACTORS THAT GIVE RISE TO
INACCURACY AND IMPRECISION
ANALYSIS OF PARACETAMOL TABLETS: A CASE
OF RANDOM VERSUS SYSTEMATIC ERROR

Paracetamol tablets (500mg)
COMMON TERMINOLOGIES

ANALYTICAL BLANK
CALIBRATION
LIMIT OF DETECTION
LIMIT OF QUANTIFICATION
LINEARITY
RANGE
ROBUSTNESS
SELECTIVITY
SENSITIVITY
WEIGHT BY DIFFERENCE
TITRIMETRIC AND CHEMICAL ANALYSIS METHODS

PRINCIPLE: An analyte is chemically reacted with a standard soluton of
reagent of precisely known concentration, the amount of which is used to
estimate the purity of a sample.
Applications
Assay of drug, excipient and some formulations
Specialist applications (e.g. Karl Fischer)
Adv
High precision, accuracy, robust, cheap, automatable, no calibration
Limitations
Non-selective, skilled operator
Large amounts of sample and reagent
SPECTROSCOPY

Spectroscopy is the study of the interaction between EMR and molecules
EMR travels through space at defined frequency (hz) and wavelengths (m)
ULTRAVIOLET AND VISIBLE

PRINCIPLE: Radiation in the wavelength of 200-700nm is passed through a
solution of a compound. The electrons in the bonds become excited so that
they occupy a higher quantum state and in the process absorb some of the
energy passing through the solution. The more loosely held the electrons
the longer the wavelength (lower the energy)
Application
Widely used method of quantification
pKa, dissolution, solubility, release kinetics, reaction kinetics
Strengths
Easy to use, cheap, robust, precision
Limitations
Moderate selectivity
Not applicable to all solutes
INSTRUMENTATION

Absorption ∞ Concentration
CASE DRUG EXAMPLE: ASPIRIN
MONITORING THE HYDROLYSIS OF ASPIRIN TO SALICYLIC ACID
IR SPECTROMETRY
DETAILED IN PCP1A: IR SPECTROSCOPY

PRINCIPLE: EMR ranging between 400 cm-1 and 4000 cm-1 (2500 nm to
20000 nm) is passed through a sample and is absorbed by the bonds of the
molecules in the sample causing them to stretch or bend. The wavelength
of the radiation absorbed by the characteristics of the bond absorbing it
Application
Qualitative fingerprint check for excipients and drugs in manufacturing
Preliminary compound identification
Analysis in complex environments (creams, tablets etc)
Detection of polymorphisms
Strengths
Complex fingerprint which is unique to the compound being examined
Limitations
Rarely used quantitatively due to sample preparation constraints
Only useful for detection of gross impurities
Technical knowledge required in sample preparation
OTHER SPECTROSCOPIC ANALYSIS

ATOMIC ABSORPTION SPECTROSCOPY
FLORESCENCE SPECTROSCOPY
RAMAN SPECTROSCOPY
NUCLEAR MAGNETIC RESONANCE
MASS SPECTROMETRY

PRINCIPLE: Analyte is subjected to chemical ionisation or electron ionisation and resulting
charged species are then accelerated into a vacuum chamber and separated on the basis
of their mass to charge ratio (m/z ratio). The charged species produced in the spectrometer
will generally include a range of different fragment ions, and under the right conditions, will
also include the molecular ion, which is simply the intact test molecule minus 1 electron.
Applications
Drug identification and characterisation (molecular weight determination)
Characterisation of impurities (in conjunction with GC and HPLC)
Bioanalysis (in conjunction with GC and HPLC)
Proteomics
Limitations
Expensive instruments, complexity that requires highly skilled operators,
Less widely used in QC
CHROMATOGRAPHY

Chromatography is the most frequently use analytical technique in pharmaceutical
analysis. Chromatography is the separation of the individual components of a mixture
by exploitation of the difference in how analytes partition between a mobile phase and
a stationary phase

TYPES
Column chromatography
Thin layer chromatography
Gas chromatography
High pressure liquid chromatography
RELATED TECHNIQUES: Capillary electrophoresis (not a type of chromatography)

MODES
Analytical: lower scale, analysis
Preparative: higher scale, purification
SEPARATION THEORY
SEPARATION THEORY
HIGH PERFORMANCE LIQUID CHROMATOGRAPHY

PRINCIPLE: A liquid mobile phase is pumped under pressure through a stainless steel
column containing particles of stationary phase. The analyte is loaded onto the top of the
column and separation occurs via the relative lengths of time spent by its components in
the stationary phase. Monitoring exit from the column is recorder by a variety of detectors
(e.g. an integrated UV VIS spectrophotometer)
Applications
Excellent tool for the quantification of drugs and excipients
Monitoring stability
Measurement of drug or their metabolites in blood
Strengths
Strong performance in analytical metrics (accuracy, precision, robustness)
Large variety of separation and detection modalities
Automatable
Limitations
Sample preparation remains a key requirement
Large quantities of organic solvent waste (disposal costs)
CASE DRUG EXAMPLE: ASPIRIN
RP-HPLC (UV detector) separation of aspirin from salicylic acid
 Quality
CHROMATOGRAPHY IN PURIFICATION Safety
Efficacy

Protein purification is a tandem
series of processes used to
isolate a protein of interest
from a complex mixture
OTHER TOOLS IN DRUG ANALYSIS

GRAVIMETRIC ANALYSIS: Is a quantitative analytical technique that is
based on the isolation of a substance by precipitation and weighing of the
precipitate

ELECTROANALYTICAL TECHNIQUES: Quantitative analysis by
measurement of potential (Volts) and/or current (Amperes) in an
electrochemical cells containing the analyte
BIOANALYTICAL TECHNIQUES

Bioanalytical science is the application of biological sciences to the study
and analysis of biological samples and encompasses a multi billion pound
global industry.

FORENSICS
PHARMACEUTICAL R&D
DRUG MONITORING
FOOD SCIENCE
MEDICAL DIAGNOSTICS
CLINICAL LABORATORY TESTING
 IMMUNOASSAYS

An immunoassay is a bioanalytical
technique that uses the sensitivity and
selectivity of the antibody-antigen
reaction for the qualitative and
quantitative analysis of analytes
(drugs, endogenous biomolecules,
metabolites)
MOLECULAR
DIAGNOSTICS

E.G. TECHNOLOGY
PLATFORMS FOR
PHARMACOGENOMIC
DIAGNOSTIC ASSAYS
BIOANALYSIS

Bioanalysis is the quantitative measurement of drugs,
their metabolites, biological molecules, and biotics in
biological systems

BIOLOGICAL SPECIMENS
BLOOD
URINE
SPUTUM
FAECES
SWEAT
HAIR AND NAILS
TISSUES
EXHALED GASES
 PRETREATMENT IN ANALYSIS
Extraction is the removal of analyte from materials in the formulation matrix
(tablets, creams) or from complex biological matrices (e.g. blood, sputum) which
could (i) interfere in the analysis or (ii) potentially impede instrument function by
non-adherence to operating specifications.

The majority of samples must be pre-treated prior to analysis, and the methods
used in extraction have significant bearing on the precision and accuracy of
analysis.

Common examples
Solvent extraction
Solid phase extraction
CONTACT INFORMATION

Sam Maher
Lecturer in Pharmaceutics
RCSI School of Pharmacy
Royal College of Surgeons in Ireland
1st Floor Ardilaun House Block B
111 St Stephen’s Green, Dublin 2, Ireland
T: 01-402-2362
E: [email protected]