Pharmaceuticals

Rising to the challenge to ensure the quality and compliance of pharmaceutical products

In the highly regulated pharmaceutical sector, quality and safety are the guiding principles. Innovation, high efficiency, and the highest quality products are on the agenda, always within the framework of the requirements of 21 CFR Part 11, driven by the FDA as well as by diverse Pharmacopoeia. A wide range of parameters need to be monitored, checked, and counter-checked; the resulting data has to be relevant, reliable, and in accordance with ALCOA+ principles. Anton Paar has numerous solutions for use in quality and production control, in research and development – and even better: Anton Paar qualifies your newly purchased instrument on-site and brings it into your workflow within a short period of time.

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Anton Paar Products

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Automated Flow Chemisorption Analyzer:
ChemBET Pulsar
Automated Multipurpose Powder X-Ray Diffractometer:
XRDynamic 500
Automated Tapped Density Analyzers:
Autotap
Automated Tapped Density Analyzers:
Autotap Dual Station 220V / 60HZ
Automated Tapped Density Analyzers:
Autotap Single Station 220V / 60HZ
Automatic Kinematic Viscometer:
SVM
Benchtop Density Meter:
DMA
Compact Digital Density Meter:
DMA 1001
Compact Digital Density Meter:
DMA 501
Compact Raman Spectrometers:
Cora 5001
Compact Raman Spectrometers:
Cora 5001 Direct for Pharma
Compact Raman Spectrometers:
Cora 5001 Fiber for Pharma
The Type U L-Cor 8000 Coriolis mass flow meter from the front
Coriolis Flow Meter:
L-Cor 8000
The Type B L-Cor 4000 Coriolis mass flow meter from the front
Coriolis Mass Flow Meter:
L-Cor
The Type B L-Cor 4000 Coriolis mass flow meter from the front
Coriolis Mass Flow Meter:
L-Cor 4000
Density and Sound Velocity Concentration Sensor:
L-Com 5500
Density and Sound Velocity Meter:
DSA 5000 M
Abbemat Heavy Duty
Digital Heavy Duty Refractometer:
Abbemat
Digital Performance Refractometer:
Abbemat
Dynamic Image Analyzer:
Litesizer DIA 500
Dynamic Light Scattering Instrument:
Litesizer DLS
Dynamic Shear Rheometer Measuring Head:
DSR 502
Five-station gas pycnometers for true density:
PentaPyc and PentaFoam 5200e
Five-station gas pycnometers for true density:
PentaPyc and PentaFoam 5200e Foam
FTIR Spectrometer:
Lyza 7000
Fully Automated Benchtop Rheometer:
HTR 3000
Fully Customizable Laboratory Automation Solution:
HTX
Gas Pycnometer for Semi-Solid and Solid Density:
Ultrapyc
Gas Sorption Analyzer:
QUADRASORB evo
Handheld Alcohol Meter:
Snap 51
Handheld Raman Spectrometer:
Cora 100
High Vacuum Physisorption Analyzer:
Autosorb
High Vacuum Physisorption Analyzer:
Autosorb 6100
High Vacuum Physisorption Analyzer:
Autosorb 6200
High Vacuum Physisorption Analyzer:
Autosorb 6300
High Vacuum Physisorption/Chemisorption Analyzers:
autosorb iQ C-AG
High Vacuum Physisorption/Chemisorption Analyzers:
autosorb iQ C-MP
High Vacuum Physisorption/Chemisorption Analyzers:
autosorb iQ C-XR
The Type S L-Cor 6000 Coriolis mass flow meter from the front
Hygienic Flow Meter:
L-Cor
The Type S L-Cor 6000 Coriolis mass flow meter from the front
Hygienic Flow Meter:
L-Cor 6000
Inline Density Meter:
L-Dens 3300
Inline Density Meter:
L-Dens 7400
Inline Density Meter:
L-Dens 7500
Inline Refractometer:
L-Rix
Inline Sound Velocity Sensor:
L-Sonic 5100
Liquid Density Sensor:
L-Dens 2300
Mercury Intrusion Pore Size Analyzers:
PoreMaster
Mercury Intrusion Pore Size Analyzers:
PoreMaster 33
Mercury Intrusion Pore Size Analyzers:
PoreMaster 60
Mercury Intrusion Pore Size Analyzers:
PoreMaster 60GT
Micro Combi Tester:
MCT³
Microwave Digestion Platform:
Multiwave 5000
Microwave Reactor:
Monowave
Microwave Reactor:
Monowave 200
Microwave Reactor:
Monowave 400
Microwave Reactor:
Monowave 450
Millikelvin Thermometers:
MKT
Modular Compact Polarimeter:
MCP 100
Modular Compact Polarimeter:
MCP 150
Modular Compact Rheometer:
MCR 702e MultiDrive
Modular Compact Rheometer:
MCR 702e Space MultiDrive
Modular Compact Rheometer:
MCR 72/92
Modular Compact Rheometer:
MCR 102e/302e/502e
Modular Polarimeter:
MCP
Motorized Alignment for XRD:
Z-Alignment Stage
Multiparameter Analyzing System:
Modulyzer
Multiparameter Analyzing System:
Modulyzer Pharma
Multiparameter Analyzing System:
Modulyzer Turbidity
Nanoindentation Tester:
NHT³
Penetrometer:
PNR 12
Pensky-Martens Flash Point Tester:
PMA 500
pH Measuring Module:
pH 3101 / pH 3201
Pin-on-disk tribometer:
TRB³
Portable Density Meter:
DMA 35 Standard
Revetest Scratch Tester:
RST³
Rheometer Automation for High Sample Throughput and Complex Sample Handling:
HTR
Rolling-Ball Viscometer:
Lovis 2000 M/ME
Rotational Rheometer:
RheolabQC
Rotational Viscometer:
ViscoQC
SAXS/WAXS/BioSAXS System:
SAXSpace
SAXS/WAXS/GISAXS/USAXS/RheoSAXS Laboratory Beamline:
SAXSpoint 5.0
Surface Area and Pore Size Analyzers:
Nova
Synthesis Reactor:
Monowave 50
Ultra Nanoindentation Tester:
UNHT³
Vacuum and Flow Degasser:
FloVac
Vacuum Degasser:
XeriPrep
High Temperature Vacuum Tribometer
Vacuum Tribometer:
TRB V / THT V
Vapor Sorption Volumetric Gas Sorption Analyzer:
VSTAR
Vapor Sorption Volumetric Gas Sorption Analyzer:
VSTAR 2 Station
Vapor Sorption Volumetric Gas Sorption Analyzer:
VSTAR 2 Station Turbo
Vapor Sorption Volumetric Gas Sorption Analyzer:
VSTAR 4 Station
Vapor Sorption Volumetric Gas Sorption Analyzer:
VSTAR 4 Station Turbo

Checking the purity and efficacy of drugs from small volumes

In drug discovery and reverse engineering, the samples you have to work with are often small. When measuring optical rotation or specific rotation using polarimeters of the MCP series this problem is solved by using the sample cells of 2.5 mm length. These small cells are also well-suited for measurements on dark-colored samples. Modular systems such as the Modulyzer offer a space- and sample-saving solution for measuring both optical rotation and refractive index in one measuring cycle from the same sample vial.

Accelerating library generation for drug discovery

The generation of compound libraries of substances synthesized simultaneously or sequentially for drug discovery is time-consuming and expensive. Reaction parameters such as temperature, time, and variations in solvents, additives, catalysts or the molar ratios of the substrates have to be optimized in advance. In addition, the required product quantities change during the drug discovery process. Employing microwave-assisted synthesis can dramatically reduce reaction times compared to conventional heating. Due to the expected time savings for a typical library production, for example, the common period of 37 days is reduced to only 2 days. Using Anton Paar’s Monowave 400 with an automated vial handling system, 24-compound libraries can be synthesized sequentially. Multiwave PRO with silicon carbide plates allows reaction screening of up to 192 positions.

Checking the stability of solutions

Consumers will be unhappy if solutions such as eye drops contain agglomerates. To check solutions for agglomerates, the Litesizer particle size analyzer can be used to measure the transmittance. If the transmittance of the solution is low, the product may not meet the high standards demanded by the market.  

Instrumentation installed, qualified, and working for you in 1 to 3 days

Compliance is one thing, getting a new measuring instrument set up, integrated, and ready for audits is another. Implementing Anton Paar’s Pharma Qualification Package for selected instruments gets your new instrument up and running within days. It covers all the steps of a complete instrument qualification (DQ, IQ, OQ, PQ, Risk Analysis, 21 CFR Part 11 Checklist, Deviation List, Traceability Matrix, and user SOP as a Word file). The package fulfills the requirements of GMP, 21 CFR Part 11, GAMP 5, USP <1058> and can be used for subsequent requalifications. 

Assessing temperature- and humidity-induced changes to formulations

Pharmaceutical drugs can be exposed to humidity and temperature changes during the production process and storage. These conditions may lead to an unexpected phase transition, resulting in a change of effectiveness or, in the worst case, in negative effects. Investigating the influence of temperature and relative humidity on the crystal structure, phase transitions, and polymorphism of drugs can be done using non-ambient X-ray diffraction. Utilizing Anton Paar’s CHC plus+ Cryo & Humidity Chamber, X-ray diffraction data can be recorded at high relative humidity and various temperatures. The chamber enables the variation of the humidity at constant temperature and also the variation of the temperature at constant humidity, by following the dew-point curve. 

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