Established in 1965, GOSSELIN, located in Borre, near Hazebrouck in the North
of France, specialises in the manufacture of plastics disposable for laboratory
use. This innovative use of plastic having appealed from the outset to end users,
demand has not ceased to increase from the set up of the company. GOSSELIN is
now the leading european manufacturer to offer such a wide range of disposable.
This document discusses the importance of glass in pharmacy. It begins by providing a brief introduction on the history and properties of glass. It then describes the typical compositions of glass, including soda-lime glass which is the most common type. The document outlines four main types of glass used in pharmacy, including borosilicate glass which is highly resistant and suitable for parenteral administration. Evaluation parameters for glass such as chemical resistance tests are also summarized. The document concludes by discussing advantages and disadvantages of using glass in pharmacy packaging.
Packaging material for various formulationsshindemk89
This document discusses various packaging materials used for solid, liquid, sterile, and transdermal drug delivery systems. It describes common packaging materials like glass bottles, plastic bottles, blister packs, strip packs, pouches, syringes, and aerosol containers. It provides details on the composition of different layers of various packaging like materials used for blister foils, semi-permeable membranes in transdermal patches, and layers in pouching composites. It also lists some common tests conducted on different drug packaging to check properties like leakage, permeability, and toxicity.
Hello,
This part is an important one that describes the individual packaging material types & detailed discussion on their possible analysis before release from the QC end in the pharmaceutical industries.
Thanks for watching
This document summarizes information about pharmaceutical glass, including its properties, raw materials, manufacturing process, types, and quality control tests. Glass is an amorphous solid made by fusing silica, soda, lime, and other raw materials. There are four main types of pharmaceutical glass used for packaging: Type I borosilicate glass is highly resistant to chemicals and heat; Type II soda-lime-silica glass has lower melting points; Type III soda-lime glass is used for solid dosages; and Type NP general purpose soda-lime glass is for oral and topical uses. Quality control tests evaluate chemical resistance, hydrolytic resistance, and ability to withstand thermal shock, pressure changes, and autoclaving
Glass as Pharmaceutical packaging materialAnil Pethe
Glass is commonly used as a packaging material due to its advantages such as impermeability, clarity, heat resistance allowing for sterilization, and inertness. The main types of glass used are soda lime glass and borosilicate glass. Glass manufacturing involves batching ingredients like silica, lime, and soda then melting, forming, annealing, sorting, and packaging. Forming methods include blow and blow and press and blow processes. Performance tests are conducted to ensure the quality and safety of glass packaging. Regulations govern the submission of data on glass packaging materials and components.
This document discusses various materials used for pharmaceutical packaging and equipment construction. It describes common container types like well-closed, single and multi-dose, light-resistant, and aerosol containers. Primary, secondary and tertiary packaging are defined. Common materials like glass, plastic, rubber, metals and paper are outlined. Specific plastics like polyethylene, PVC, and polystyrene are detailed. Closures like screw caps, crowns and friction fits are summarized. Standards for glass containers are provided.
Ophthalmic products are specialized dosage forms designed for administration to or around the eye. Common types include eye drops, ointments, gels and contact lens solutions. Plastic bottles made of materials like LDPE are widely used for packaging as they are easy to use and reduce spillage compared to older glass bottles. Parenteral products must be exceptionally pure and free from contamination due to direct injection. Common containers include glass vials, syringes and plastic bags or bottles. Rubber stoppers and seals are often used for closures. Proper packaging and container selection is important to prevent issues like permeation, leaching or sorption which could impact drug stability or purity. A variety of tests exist to check package
This document discusses the importance of glass in pharmacy. It begins by providing a brief introduction on the history and properties of glass. It then describes the typical compositions of glass, including soda-lime glass which is the most common type. The document outlines four main types of glass used in pharmacy, including borosilicate glass which is highly resistant and suitable for parenteral administration. Evaluation parameters for glass such as chemical resistance tests are also summarized. The document concludes by discussing advantages and disadvantages of using glass in pharmacy packaging.
Packaging material for various formulationsshindemk89
This document discusses various packaging materials used for solid, liquid, sterile, and transdermal drug delivery systems. It describes common packaging materials like glass bottles, plastic bottles, blister packs, strip packs, pouches, syringes, and aerosol containers. It provides details on the composition of different layers of various packaging like materials used for blister foils, semi-permeable membranes in transdermal patches, and layers in pouching composites. It also lists some common tests conducted on different drug packaging to check properties like leakage, permeability, and toxicity.
Hello,
This part is an important one that describes the individual packaging material types & detailed discussion on their possible analysis before release from the QC end in the pharmaceutical industries.
Thanks for watching
This document summarizes information about pharmaceutical glass, including its properties, raw materials, manufacturing process, types, and quality control tests. Glass is an amorphous solid made by fusing silica, soda, lime, and other raw materials. There are four main types of pharmaceutical glass used for packaging: Type I borosilicate glass is highly resistant to chemicals and heat; Type II soda-lime-silica glass has lower melting points; Type III soda-lime glass is used for solid dosages; and Type NP general purpose soda-lime glass is for oral and topical uses. Quality control tests evaluate chemical resistance, hydrolytic resistance, and ability to withstand thermal shock, pressure changes, and autoclaving
Glass as Pharmaceutical packaging materialAnil Pethe
Glass is commonly used as a packaging material due to its advantages such as impermeability, clarity, heat resistance allowing for sterilization, and inertness. The main types of glass used are soda lime glass and borosilicate glass. Glass manufacturing involves batching ingredients like silica, lime, and soda then melting, forming, annealing, sorting, and packaging. Forming methods include blow and blow and press and blow processes. Performance tests are conducted to ensure the quality and safety of glass packaging. Regulations govern the submission of data on glass packaging materials and components.
This document discusses various materials used for pharmaceutical packaging and equipment construction. It describes common container types like well-closed, single and multi-dose, light-resistant, and aerosol containers. Primary, secondary and tertiary packaging are defined. Common materials like glass, plastic, rubber, metals and paper are outlined. Specific plastics like polyethylene, PVC, and polystyrene are detailed. Closures like screw caps, crowns and friction fits are summarized. Standards for glass containers are provided.
Ophthalmic products are specialized dosage forms designed for administration to or around the eye. Common types include eye drops, ointments, gels and contact lens solutions. Plastic bottles made of materials like LDPE are widely used for packaging as they are easy to use and reduce spillage compared to older glass bottles. Parenteral products must be exceptionally pure and free from contamination due to direct injection. Common containers include glass vials, syringes and plastic bags or bottles. Rubber stoppers and seals are often used for closures. Proper packaging and container selection is important to prevent issues like permeation, leaching or sorption which could impact drug stability or purity. A variety of tests exist to check package
The document discusses point-of-use glassware washers, including their specifications and features that are important for laboratory users. It compares manual cleaning to machine washing and outlines factors to consider when selecting a washer such as glassware type, soil levels, drying requirements, and optional accessories. Point-of-use glassware washers with hot water, pure water rinses, and forced air drying are recommended for reproducible cleaning of laboratory glassware.
The document discusses prefilled syringes. It describes prefilled syringes as single-dose packets of injectable drugs that have a pre-attached needle. It discusses the purpose of prefills for primary packaging and drug delivery. It also outlines the types of prefill systems using glass or plastic, describes common materials used, and the filling and sterilization processes. The document provides advantages like convenience and accuracy as well as some disadvantages. It also discusses factors driving the growth of prefilled syringes.
This document discusses various laboratory equipment and wares. It begins by describing different types of laboratory glasswares and plasticwares used for measuring, pipetting, transferring, storage, and preparation of reagents. It then discusses various pieces of laboratory equipment in more detail, including microscopes, balances, refrigerators, ovens, water baths, incubators, centrifuges, autoclaves, colorimeters, mixers, and pH meters. It emphasizes the importance of properly cleaning and caring for laboratory equipment and wares.
Glass is commonly used for food packaging such as bottles and jars. It is made primarily of silica combined with other raw materials like limestone and soda ash. Glass is inert, rigid, transparent and has excellent barrier properties, but is also heavy and fragile. It is formed through processes like blow and blow or press and blow involving mixing, melting, forming, and annealing. While glass provides safety and is recyclable, its brittleness poses risks and it has higher production costs than alternatives like plastic.
This document discusses labeling requirements and options for pharmaceutical products. It covers the key information that must be included on labels like product identity, instructions for use, and warnings. It also describes different labeling technologies like embossing, paper labels, and direct printing and their pros and cons. The document discusses regulatory requirements for labeling and provides examples of labeling cases and problems that can occur.
The document discusses various types of containers used for pharmaceutical products, including glass and plastic containers. It provides details on different types of glass containers based on their composition, such as lime soda glass, borosilicate glass, and neutral glass. It also discusses plastic containers such as thermoplastics and thermosettings. The document then covers various types of injection containers, including single dose small volume containers like ampoules and cartridges, and single dose large volume containers like transfusion bottles. It also discusses the differences between single dose and multiple dose containers.
Types of closures used for packaging of dosage forms include rubber closures, caps and overseals like screw caps and crown caps, and special types like tamper-evident, dispensing, and child-resistant closures. Rubber closures are commonly used and must pass fragmentation and self-sealability tests. Caps and overseals secure rubber closures and include screw caps, crown caps, snap on caps, and friction fit caps. Special closures provide features like tamper evidence, controlled dispensing, and child resistance. Proper closures are important to contain contents, provide barriers, allow resealing, and meet regulatory standards.
University Institute of Pharmaceutical Sciences is a flag bearer of excellence in Pharmaceutical education and research in the country.
A presentation dealing with the types of containers and closure systems used in parenteral formulation.
The presentation has been submitted by 3rd year B.pharmacy students of University Institute of Pharmaceutical sciences, Panjab University, Chandigarh. The same is based on the new PCI syllabus for pharmacy.
this presentation deals with the type of material to be used as containers and closure systems of parenterals which have to have utmost level of stability and sterility and no complication.
Thank you for reading this presentation and we hope it helped you in all the ways you were looking for.
regards,
UIPS,PU
Umang pharmaceutical packaging..b.k.mody goverment pharmacy college rajkotumang971991
This document discusses various aspects of pharmaceutical packaging including primary, secondary and tertiary packaging. It describes different types of materials used for packaging like glass, plastics, metals, rubber and closures. Glass containers discussed include types I, II, III and NP glass. Common plastics used are polyethylene, polyvinyl chloride, polymethyl methacrylate and polypropylene. Factors to consider for drug-plastic compatibility and different types of closures are also summarized.
The document discusses pharmaceutical packaging and describes various packaging materials and closure systems used. It covers characteristics of glass and plastic containers, types of closures, tamper resistance, and quality control tests for plastic packaging. The selection of packaging begins by determining the product's needs and marketing requirements to adequately preserve integrity.
The document discusses pharmaceutical aerosols, including their introduction, advantages, disadvantages, components, and types of formulations. Some key points:
- Pharmaceutical aerosols contain active ingredients dissolved or suspended in a propellant and are intended for oral, topical, or inhalation administration.
- Advantages include dose sterility, direct delivery to affected areas, and ease of application. Disadvantages include expense, propellant toxicity/flammability, and ozone depletion.
- Components include propellants, containers, valves, and product concentrates. Common propellants are CFCs, hydrocarbons, and hydrofluoroalkanes. Formulations can be solutions, suspensions, foams
In this presentation we tell something about the what type of plastic ware. which is using in the laboratory for the some practicals. but this instruments is not used for all types of the research.But some type of instruction is given to use it.
Types of closures include threaded screw caps, lug caps, crown caps, roll-on closures, snap caps, and friction fit caps. Quality control of closures considers material compatibility, seal integrity, and sterility. Tests evaluate physical and mechanical properties, extractables and leachables, bioburden, endotoxins, and resistance to sterilization processes. Maintaining closure quality ensures safe and effective packaging of pharmaceuticals and consumer products.
The document discusses the calibration of volumetric glassware used in analytical chemistry laboratories. It explains that volumetric glassware like burettes, pipettes, and volumetric flasks must be precisely calibrated to deliver accurate volumes of liquids. The document provides details on properly calibrating and using common types of volumetric glassware like burettes, pipettes, and volumetric flasks to ensure precise volume measurements.
Laboratory glassware is usually made of borosilicate glass, which is resistant to chemicals except hydrofluoric acid. Common types of glassware include beakers for holding solutions, flasks for heating liquids, volumetric flasks for precisely measuring volumes, and pipettes for dispensing precise amounts of liquids. Pipettes can be graduated or volumetric, and are used to transfer reagents and biological samples in clinical testing.
After the manufacturing of the drug, it is essential that these should be stored properly. The stability of drug during it’s storage depend on so many factor and proper packaging is one of them. The pharmaceutical products are in direct contact with the container and closures. So improper packaging and poor quality of container may lead to deterioration of the product.
This document discusses various types of pharmaceutical containers and closures. It describes containers as objects that can hold or transport products, and notes that pharmaceutical containers may or may not contact the product. Various closure types are presented, including screw tops, crown caps, snap-on lids, child-resistant packaging, and friction fits. Tests for evaluating glass containers are also summarized, such as crushed glass, whole container, and powdered glass tests.
CÔNG TY TNHH PHÒNG SẠCH HOA VIỆT
Add: Số107 Nguyễn Trường Tộ, Hà Nội / Tel/Fax: 04 - 6291- 8853
Hotline: 0903-468-415 /Email: sales@phongsach.net Website: www.phongsach.net
Common glassware used in labs include pipettes, burettes, beakers, flasks, funnels, petri dishes, graduated cylinders, vials, slides, and stirring rods. Proper handling, cleaning, storage, and disposal of glassware is important for safety and accurate experimentation. Glassware must be carefully calibrated by determining the mass of water contained or delivered and converting to volume using water's density, in order to avoid measurement errors.
Gosselin is a French company established in 1965 that specializes in manufacturing disposable plastics for laboratory use. It has become the leading European manufacturer offering a wide range of disposables. The company produces products for microbiology, industries, environment, medical and dairy applications including petri dishes and water sampling bottles. Gosselin has over 40 years of experience in manufacturing and uses an on-site ionization facility to sterilize products.
La visita a la Casa de Hippolythus en Pompeya incluyó el mosaico del frigidarium, la piscina de agua fría, y las zonas de agua caliente y templada de las termas. También se observaron cerámicas firmadas con una cruz, letrinas, dibujos de jardines, un aljibe para limpiar las letrinas, mosaicos en el patio central y en el foro, una columna hexagonal, y restos del templo de Diana, la calefacción de pared y conductos de agua.
The document discusses point-of-use glassware washers, including their specifications and features that are important for laboratory users. It compares manual cleaning to machine washing and outlines factors to consider when selecting a washer such as glassware type, soil levels, drying requirements, and optional accessories. Point-of-use glassware washers with hot water, pure water rinses, and forced air drying are recommended for reproducible cleaning of laboratory glassware.
The document discusses prefilled syringes. It describes prefilled syringes as single-dose packets of injectable drugs that have a pre-attached needle. It discusses the purpose of prefills for primary packaging and drug delivery. It also outlines the types of prefill systems using glass or plastic, describes common materials used, and the filling and sterilization processes. The document provides advantages like convenience and accuracy as well as some disadvantages. It also discusses factors driving the growth of prefilled syringes.
This document discusses various laboratory equipment and wares. It begins by describing different types of laboratory glasswares and plasticwares used for measuring, pipetting, transferring, storage, and preparation of reagents. It then discusses various pieces of laboratory equipment in more detail, including microscopes, balances, refrigerators, ovens, water baths, incubators, centrifuges, autoclaves, colorimeters, mixers, and pH meters. It emphasizes the importance of properly cleaning and caring for laboratory equipment and wares.
Glass is commonly used for food packaging such as bottles and jars. It is made primarily of silica combined with other raw materials like limestone and soda ash. Glass is inert, rigid, transparent and has excellent barrier properties, but is also heavy and fragile. It is formed through processes like blow and blow or press and blow involving mixing, melting, forming, and annealing. While glass provides safety and is recyclable, its brittleness poses risks and it has higher production costs than alternatives like plastic.
This document discusses labeling requirements and options for pharmaceutical products. It covers the key information that must be included on labels like product identity, instructions for use, and warnings. It also describes different labeling technologies like embossing, paper labels, and direct printing and their pros and cons. The document discusses regulatory requirements for labeling and provides examples of labeling cases and problems that can occur.
The document discusses various types of containers used for pharmaceutical products, including glass and plastic containers. It provides details on different types of glass containers based on their composition, such as lime soda glass, borosilicate glass, and neutral glass. It also discusses plastic containers such as thermoplastics and thermosettings. The document then covers various types of injection containers, including single dose small volume containers like ampoules and cartridges, and single dose large volume containers like transfusion bottles. It also discusses the differences between single dose and multiple dose containers.
Types of closures used for packaging of dosage forms include rubber closures, caps and overseals like screw caps and crown caps, and special types like tamper-evident, dispensing, and child-resistant closures. Rubber closures are commonly used and must pass fragmentation and self-sealability tests. Caps and overseals secure rubber closures and include screw caps, crown caps, snap on caps, and friction fit caps. Special closures provide features like tamper evidence, controlled dispensing, and child resistance. Proper closures are important to contain contents, provide barriers, allow resealing, and meet regulatory standards.
University Institute of Pharmaceutical Sciences is a flag bearer of excellence in Pharmaceutical education and research in the country.
A presentation dealing with the types of containers and closure systems used in parenteral formulation.
The presentation has been submitted by 3rd year B.pharmacy students of University Institute of Pharmaceutical sciences, Panjab University, Chandigarh. The same is based on the new PCI syllabus for pharmacy.
this presentation deals with the type of material to be used as containers and closure systems of parenterals which have to have utmost level of stability and sterility and no complication.
Thank you for reading this presentation and we hope it helped you in all the ways you were looking for.
regards,
UIPS,PU
Umang pharmaceutical packaging..b.k.mody goverment pharmacy college rajkotumang971991
This document discusses various aspects of pharmaceutical packaging including primary, secondary and tertiary packaging. It describes different types of materials used for packaging like glass, plastics, metals, rubber and closures. Glass containers discussed include types I, II, III and NP glass. Common plastics used are polyethylene, polyvinyl chloride, polymethyl methacrylate and polypropylene. Factors to consider for drug-plastic compatibility and different types of closures are also summarized.
The document discusses pharmaceutical packaging and describes various packaging materials and closure systems used. It covers characteristics of glass and plastic containers, types of closures, tamper resistance, and quality control tests for plastic packaging. The selection of packaging begins by determining the product's needs and marketing requirements to adequately preserve integrity.
The document discusses pharmaceutical aerosols, including their introduction, advantages, disadvantages, components, and types of formulations. Some key points:
- Pharmaceutical aerosols contain active ingredients dissolved or suspended in a propellant and are intended for oral, topical, or inhalation administration.
- Advantages include dose sterility, direct delivery to affected areas, and ease of application. Disadvantages include expense, propellant toxicity/flammability, and ozone depletion.
- Components include propellants, containers, valves, and product concentrates. Common propellants are CFCs, hydrocarbons, and hydrofluoroalkanes. Formulations can be solutions, suspensions, foams
In this presentation we tell something about the what type of plastic ware. which is using in the laboratory for the some practicals. but this instruments is not used for all types of the research.But some type of instruction is given to use it.
Types of closures include threaded screw caps, lug caps, crown caps, roll-on closures, snap caps, and friction fit caps. Quality control of closures considers material compatibility, seal integrity, and sterility. Tests evaluate physical and mechanical properties, extractables and leachables, bioburden, endotoxins, and resistance to sterilization processes. Maintaining closure quality ensures safe and effective packaging of pharmaceuticals and consumer products.
The document discusses the calibration of volumetric glassware used in analytical chemistry laboratories. It explains that volumetric glassware like burettes, pipettes, and volumetric flasks must be precisely calibrated to deliver accurate volumes of liquids. The document provides details on properly calibrating and using common types of volumetric glassware like burettes, pipettes, and volumetric flasks to ensure precise volume measurements.
Laboratory glassware is usually made of borosilicate glass, which is resistant to chemicals except hydrofluoric acid. Common types of glassware include beakers for holding solutions, flasks for heating liquids, volumetric flasks for precisely measuring volumes, and pipettes for dispensing precise amounts of liquids. Pipettes can be graduated or volumetric, and are used to transfer reagents and biological samples in clinical testing.
After the manufacturing of the drug, it is essential that these should be stored properly. The stability of drug during it’s storage depend on so many factor and proper packaging is one of them. The pharmaceutical products are in direct contact with the container and closures. So improper packaging and poor quality of container may lead to deterioration of the product.
This document discusses various types of pharmaceutical containers and closures. It describes containers as objects that can hold or transport products, and notes that pharmaceutical containers may or may not contact the product. Various closure types are presented, including screw tops, crown caps, snap-on lids, child-resistant packaging, and friction fits. Tests for evaluating glass containers are also summarized, such as crushed glass, whole container, and powdered glass tests.
CÔNG TY TNHH PHÒNG SẠCH HOA VIỆT
Add: Số107 Nguyễn Trường Tộ, Hà Nội / Tel/Fax: 04 - 6291- 8853
Hotline: 0903-468-415 /Email: sales@phongsach.net Website: www.phongsach.net
Common glassware used in labs include pipettes, burettes, beakers, flasks, funnels, petri dishes, graduated cylinders, vials, slides, and stirring rods. Proper handling, cleaning, storage, and disposal of glassware is important for safety and accurate experimentation. Glassware must be carefully calibrated by determining the mass of water contained or delivered and converting to volume using water's density, in order to avoid measurement errors.
Gosselin is a French company established in 1965 that specializes in manufacturing disposable plastics for laboratory use. It has become the leading European manufacturer offering a wide range of disposables. The company produces products for microbiology, industries, environment, medical and dairy applications including petri dishes and water sampling bottles. Gosselin has over 40 years of experience in manufacturing and uses an on-site ionization facility to sterilize products.
La visita a la Casa de Hippolythus en Pompeya incluyó el mosaico del frigidarium, la piscina de agua fría, y las zonas de agua caliente y templada de las termas. También se observaron cerámicas firmadas con una cruz, letrinas, dibujos de jardines, un aljibe para limpiar las letrinas, mosaicos en el patio central y en el foro, una columna hexagonal, y restos del templo de Diana, la calefacción de pared y conductos de agua.
Gosselin is a leading European manufacturer of disposable plastics products for laboratory use, located in northern France. Since 1965, it has specialized in injection molding, blow molding, and other plastic manufacturing techniques. The company has grown significantly over the past 40+ years and now employs 300 people across multiple facilities with a focus on quality and clean production standards. Gosselin supplies a wide range of labware products globally and continues innovating through research and development.
El documento repite continuamente la frase "TUTORIAL SOBRE VIRUS INFORMATICOS" y no proporciona ninguna otra información sobre el contenido del supuesto tutorial.
GOSSELIN is a leading European manufacturer of disposable plastics for laboratory use, established in 1965 in France. It offers a wide range of urine and faeces specimen containers for microbiology, medical, and other industries. The containers are made from shock-resistant and transparent materials like polystyrene and polypropylene, and include features like screw caps, graduations, and sampling tools appropriate for different regions of Europe and end users in fields like biomedical science and hospitals.
ChemScience laboratory bottles are in a class of their own. They are iconic in labs all over the world for their guaranteed leakproof performance.
https://www.chemscience.com/products/plastic-lab-ware/bottles-plastic
Application of polymers in packaging and medical prostheticsHetal Hinglajia
This document discusses the application of polymers in packaging and medical prosthetics. It outlines various types of packaging used for solid, semi-solid, and liquid products. Common polymers used in packaging include polyethylene, polypropylene, polystyrene, polyvinyl chloride, and polyvinylidene chloride due to properties like flexibility, barrier resistance and chemical resistance. The document also discusses ideal properties for medical prosthetics and applications of various polymers in prosthetics, including polyethylene, polypropylene, polyester and thermoplastic elastomers.
WHEATON Plastic Dropper Bottle Case Studywheaton2017
An aliquot of blood is collected and dispensed into a collection plate. An aliquot of assay buffer is then dispensed using a Wheaton dropping bottle with an extended dropping assembly to provide accurate results. Wheaton dropping bottles are designed to produce accurate and reproducible drop sizes due to their angled tip, allowing for error-free sample dispensing. When using blood testing kits, it is critical to use components like Wheaton dropping bottles that dispense assay buffers accurately to produce reliable test results.
The document summarizes Ace Glass's DURAN YOUTILITY Laboratory Bottle System. The system includes borosilicate glass bottles in clear or amber colors available in 125mL, 250mL, 500mL, and 1000mL capacities. The bottles feature an integrated retrace code for traceability. Matching caps have an ergonomic design and integrated retrace code. Accessories include silicone bottle tags for identification, autoclavable polypropylene caps, and polyester labels compatible with autoclaving/sterilization.
Plastic bottles were developed in the early 20th century and became widely used after World War II. The key materials used are polyethylene terephthalate (PETE), high-density polyethylene (HDPE), polyvinyl chloride (PVC), low-density polyethylene (LDPE), and polypropylene (PP). These materials are chosen based on their properties like strength, flexibility, and barrier effectiveness. Plastic bottles are manufactured using blow molding processes and come in various colors, shapes, and sizes to suit different applications like water, soda, detergents and more. However, plastic waste is an environmental issue as most plastics do not decompose and recycling rates need improvement.
Membrane Solutions LLC is a leading global supplier of consumable products for laboratory and industrial applications. It offers a wide range of filtration products including syringe filters, membrane filters, spin columns, capsules filters, and more. The document provides information on Membrane Solutions' product portfolio and capabilities in areas such as sample preparation, life science consumables, and industrial processing. It also includes ordering details and contact information.
Plastic waste management- Conventional and New Technologyrmeena99
Plastic is a material consisting of any of a wide range of synthetic or semi-synthetic organic compounds that are malleable and can be molded into solid objects. Plastics are typically organic polymers of high molecular mass, but they often contain other substances. They are usually synthetic, most commonly derived from petrochemicals, but many are made from renewable materials such as polylactic acid from corn or cellulosics from cotton linters.Plasticity is the general property of all materials that are able to irreversibly deform without breaking, but this occurs to such a degree with this class of moldable polymers that their name is an emphasis on this ability.
Glass Tube is a cylindrical, hollow structured tube crafted from fine borosilicate glass, typically transparent and capable of
withstanding various thermal shocks and chemical attacks. With 5mm capacity optically clear, allowing easy observation of the
contents inside.
The document discusses desired features and types of containers and closures for pharmaceutical products. Containers must protect contents from damage or contamination while closures must prevent moisture access or loss. Containers should not react with contents and allow for easy removal, emptying, and labeling. Four main groups are well closed, air tight, securely tight and hermetically sealed containers. Liquid oral preparations use glass or plastic bottles while semi-solids use tubes or pots. Solid dosages are packaged in various materials and powders use bottles or individual sachets.
CDF Corporation is an international flexible packaging company that specializes in liners and packaging for drums, pails, bag-in-box, and intermediate bulk containers. It has production facilities around the world and offers a wide variety of liner products at different sizes for different industries. CDF works closely with customers to design customized packaging solutions and ensures quality through certification and auditing programs.
This document provides product information for dental consumables and instruments. It lists various sterilization and protective products like sterilization pouches, indicator tapes, protective face masks, gowns, and lab coats. Details are given for each product including name, code, size, specifications, and packaging. The document appears to be from a dental supply catalog showcasing their barrier, sterilization, and personal protective equipment offerings.
Containers are in intimate contact with the product. No container presently available is totally non reactive, particularly with aqueous solutions . Both the chemical and physical characteristics are given primary consideration in the selection of a protective container . Glass containers traditionally have been used for sterile products , many of which are closed with rubber stoppers. Interest in plastic containers for parenterals is increasing and such containers are being used for commercial ophthalmic preparations and IV solutions.
Hahnemühle‘s Albet LabScience brand is a range of products designed for general filtration applications and complex filtration processes in life science and analytical applications in chemical and biological laboratories. The technical specifications of our membranes and syringe filters allow their use in areas where reproducibility and consistency are of major importance.
Quality
Our syringe filters undergo strict quality controls during and after production. The storage life of the finished products in the
warehouse is constantly monitored. Each filter holder undergoes the following five tests: bubble point, burst pressure, membrane absorption, flow rate and extractable substances. The range includes filter holders for the reliable separation of microorganisms and particles in liquids, air and other gases. Clear and sterile filtration, sample production, sterile aeration and medical applications are just some of the areas where disposable filter holders are typically used. They are available in different pore sizes and with different hydrophilic or hydrophobic membrane materials.
Our microfiltration range also includes membrane units. The first step towards successful analysis is choosing the right membrane unit. We offer you different membrane filters with pore sizes from 0.2 μm – 8 μm for particle removal or for the collection of the microorganisms to be examined from solutions. Various cellulose-based membranes and polymer materials cover a wide range of application areas, from clarification and sample preparation to sterile and air filtration to aeration and microbiological control. See our quick and easy to use guidelines on page 8f, which will help you to decide which product is perfect for you.
Bionix Medical Technologies is celebrating its 25th anniversary in 2009. It develops innovative medical products in areas such as safe ear curettes, ear irrigation tips, enteral feeding tube accessories, pediatric feeding devices, wound management tools, and nasal speculums. All products are developed based on input from healthcare professionals to add value to everyday medical procedures. Notable achievements include awards and recognition for quality, design, and exporting excellence.
This document summarizes quality control tests for various pharmaceutical packaging materials including containers, closures, and secondary packaging. It discusses tests for glass, plastic, metal containers as well as rubber, plastic, and metal closures. Specific tests covered include chemical resistance, hydrolytic resistance, arsenic, thermal shock, internal bursting pressure, leakage, transparency, water vapor permeability, and more. Flexible packaging materials like polyethylene, cast polypropylene, bi-oriented polypropylene, polyester, and polyamide are also summarized. The document aims to present an overview of important quality control testing for ensuring the safety and integrity of pharmaceutical packaging.
1. Established in 1965, GOSSELIN, located in Borre, near Hazebrouck in the North
of France, specialises in the manufacture of plastics disposable for laboratory
use. This innovative use of plastic having appealed from the outset to end users,
demand has not ceased to increase from the set up of the company. GOSSELIN is
now the leading european manufacturer to offer such a wide range of disposable.
3. RANGE OF PRODUCTS
Petri plates Closures
Bottles Sampling and inoculation
Containers Transportation and disposal
Tubes Blood collection tubes
Miscellaneous
4. PETRI PLATES
Gosselin, the leading European manufacturer of Petri Plates, offers a
wide range of excellent optical quality crystal polystyrene plates specially
adapted to the needs of all users.
SCOPE OF USE :
MICROBIOLOGY INDUSTRIES ENVIRONMENT MEDICAL
5. PETRI PLATES
PETRI PLATE Ø55 H14.2 mm BP50 / BP53
0/6 vents
Aseptic or sterile
Crystal polystyrene
Optimal flatness
Production class 100
USE : • Cell colony growth on filter membranes
CONTACT PETRI PLATE Ø65 H14.5 mm
0/3/4 vents BP60 / BP63 / BP64
Aseptic or sterile
Crystal polystyrene
Optimal flatness
Production class 100
Grip lid
Moulded grid 10x10
USE : • Microbiology analysis of environmental or
surface contamination
6. PETRI PLATES
PETRI PLATES Ø90 H14.2 mm BP90 / BP91 / BP93
SB90 / SB91 / SB93
0/1/3 vents
Aseptic or sterile
Crystal polystyrene
Optimal flatness
Production class 100
PETRI PLATES Ø90 H16.2 mm BH90 /BH91 / BH93
0/1/3 vents SH90 / SH91 / SH93
Aseptic or sterile
Crystal polystyrene
Optimal flatness
Production class 100
USE : • Standard Petri plates for micro-organism
culture
7. PETRI PLATES
PETRI PLATES Ø90 H20 mm BU93
3 vents
Sterile
Crystal polystyrene
Optimal flatness
Production class 100
USE : • Germination of seeds
• Suspension culture
PETRI PLATES Ø100 H14 mm
BP100 / BP103
0/3 vents
Aseptic or sterile
Crystal polystyrene
Optimal flatness
Production class 100
USE : • Standard Petri plates for micro-organism
culture
8. PETRI PLATE
SQUARE PETRI PLATE 120x120 H15.8 mm
4 vents
Aseptic or sterile
Crystal polystyrene
Optimal flatness
Production class 100
BP140 /BP 143
USE : • The dish has been spefically designed for automatic
bacteria colony replications and clone banks storage
PETRI PLATE 140 H20.6 mm et BP140 H23.4mm
0/3 vents
Aseptic or sterile
Crystal polystyrene BH143
Optimal flatness
Production class 100
USE : • Multiple cell colony growth on filter membranes
• Research on antibiotics sensitiveness
• Invading strains growth
9. THE STRENGTHS OF OUR PETRI PLATE RANGE
+ A WIDE SCOPE OF USE
+ A COMPLETE RANGE OF PETRI PLATES
+ MANUAL OR AUTOMATIC USE
+ TOTALLY TRANSPARENT
+ SPECIAL CLEANROOM PACKAGING (*)
+ OPTIMAL STABILITY OF STACK
+ PACKAGING : EASY TO OPEN (*)
+ TRACEABILITY AND IONISATION INDICATOR (*)
* according to the product code
10. BOTTLES
All bottles are produced with high-tech equipment USE extrusion blow
moulding technology and more recently, injection blow moulding.
SCOPE OF USE :
INDUSTRIES ENVIRONMENT MEDICAL
11. OCTAGONAL BOTTLES
P125B / P250B
OCTAGONAL BOTTLES PET Ø 31.7 mm
PET Bottles
HDPE cap
Tamper evident screw-cap
Moulded graduation
Unbreakable
Transparent as glass
Easy handling
P500B / P1000B
Aseptic or sterile
Large mouth
From 125 ml to 1000 ml
USE : • Sampling, storage and shipment of samples
• Packaging of solid, liquid or cream
• Food compliant
12. OCTAGONAL BOTTLES
P125 / P250
POLYPROPYLENE OCTAGONAL BOTTLES Ø 28 mm
Polypropylene bottles
Polypropylene leakproof closure system
Tamper evident Polyethylene
Moulded graduation
Unbreakable
Translucent
Easy handling
P500 / P1000
Aseptic
From 125 ml to 1000 ml
USE : • Sampling, storage and shipment of samples
• Packaging of solid, liquid or cream
• Food compliant
13. HDPE BOTTLES
FC510
SQUARE BOTTLES WITH TAMPER EVIDENT CAP
HDPE bottles
Tamper evident screw-cap HDPE Ø22 or Ø29 / hinged cap Ø28
Tamper evident
Moulded graduation
Unbreakable
Translucent
FC520 / FC1000
Aseptic or sterilized
From 500 ml to 1000 ml
USE : • Sampling, storage and shipment of samples
• Packaging of liquid, solid or cream
• Food compliant
14. HDPE BOTTLES
FCP100 / FCP 150 /
FCP250
STANDARD SQUARE BOTTLES
HDPE bottles
Screw-cap
Aseptic or sterilized
Unbreakable
Translucent
From 100 ml to 1000 ml FCP500 / FCP1000
USE : • Sampling, storage and shipment of samples
• Packaging of solid
• Food compliant
15. HDPE BOTTLES
RECTANGULAR LEAKPROOF BOTTLES :
FV250 / FV500
PP or HDPE bottles
Leakproof closure system
Tamper evident screw-cap
Unbreakable
Translucent
Aseptic or sterilized
From 250 ml to 500 ml
USE : • Sampling, storage and shipment of samples
• Packaging of liquid, solid or cream
• Food compliant
LC150 / LC250
WIDE NECK BOTTLES : LC500 / LC1000
HDPE bottles
Screw-cap with large mouth
Unbreakable
Translucent
Aseptic or sterilized
From 150 ml to 1000 ml
USE : • Sampling, storage and shipment of samples
• Packaging of solid
• Food compliant
16. HDPE BOTTLES
WIDE NECK AND LARGE VOLUME BOTTLES :
HDPE Bottles
Leakproof screw-cap with large mouth
Unbreakable
Translucent or opaque LC2000 / F2000
Aseptic or sterilized LC2500 / F2700
From 2L to 2.7L
USE : • Sampling, storage and shipment of samples
• Packaging of liquid, solid or cream
• Food compliant
17. HDPE BOTTLES
ROUND BOTTLES WITH WIDE NECK : LR50/100/150/250
HDPE Bottles /500/ 1000/2000
Leakproof screw-cap
Unbreakable
Translucent or opaque
Aseptic or sterilized
From 50 ml to 2000 ml
USE : • Sampling, storage and shipment of samples
• Packaging of solid
• Food compliant
FR30 /FR60
ROUND BOTTLES SMALL VOLUME : FR100 / FR125
HDPE round bottles
Leakproof cap
Tamper evident screw
Aseptic or sterilized
USE : • Sampling, storage and shipment of samples
• Packaging of liquid, solid or cream
• Food compliant
18. WATER SAMPLING BOTTLES
PET OCTAGONAL BOTTLES : HP250B / HP500B /
PET Bottles HP1000B
HDPE leakproof screw-cap
Tamper evident
Unbreakable
Transparent as glass
Moulded graduation
Large mouth Ø31.7 mm
Sterile
Label for traceability of samples
With or without Sodium thiosulfate pre-dosage
HDPE ECONOMICAL BOTTLES :
HDPE bottles
Leakproof screw-cap
Tamper evident
Unbreakable
Translucent
With sodium thiosulfate pre-dosage
Neck from 20 mm to 55 mm
Sterile
Label for traceability of samples
USE : • Sampling, storage and shipment of water samples
19. BOTTLES
JCP2 / JCP5
JERRYCANS LARGE VOLUME :
HDPE Jerrycans
Leakproof screw-cap
Translucent
Unbreakable
Aseptic or sterilized
JCP10
Moulded graduation
USE : • Storage and shipment of liquid
20. THE STRENGTHS OF OUR BOTTLES RANGE
+ A WIDE RANGE OF VOLUMES FROM 30 ML TO 10.7 L
+ AN ANSWER TO THE DIFFERENT FORMS
(SOLID, LIQUID OR SEMI-SOLID)
+ CLOSING SYSTEMS ADAPTED TO THE DIFFERENT SHAPES
+ RAW MATERIALS ANSWERING TO THE DIFFERENT NEEDS
+ A RANGE DEDICATED TO THE WATER SAMPLING
+ FOOD COMPLIANT RAW MATERIALS
+ ERGONOMIC PRODUCT DESIGN
21. CONTAINERS
All containers are manufactured with high-tech equipment USE injection
technology. The raw material used are pure and comply with the environmental
standards.
SCOPE OF USE :
INDUSTRIES DAIRY MEDICAL
22. CONTAINERS
CONTAINERS WITH SNAP CAP : PL25 / PL60
Containers with Polypropylene cap
Adequate volume for milk sampling
Shock resistant
Leakproof snap cap
Aseptic or sterilized
USE : • Milk sampling and all solid, liquid or cream
CONTAINERS WITH HINGED CAP : FL35/52/60
Containers with Polypropylene cap 70/100/300
Adequate volume for milk sampling
Shock resistant
Auto-stable hinged cap
Aseptic or sterilized
From 35 ml to 300 ml
2 colours : natural or blue
USE : • Milk sampling and all solid, liquid or cream
• A wider scope of USE thanks to its different volume
23. CONTAINERS
TP30/35/51/52/
STRAIGHT CONTAINERS WITH SCREW-CAP : 53/140/200
Polystyrene bottles or Polypropylene transparent bottles
Leakproof polyethylene screw-cap
3 colours : natural, white, blue
From 30 ml to 200 ml
USE : • Sampling, storage or shipment of samples
• Products specially developped for urine and faeces culture
CONTAINERS WITH SKIRT BASE :
Aseptic or ionised
Polystyrene or Polypropylene
Transparent or translucent
With or without cap
Screw cap or snap cap
Without graduation / printed graduation / moulded graduation
USE : • Sampling, storage or shipment of samples
• Products specially developped for urine and faeces culture
24. CONTAINERS
CONTAINERS FOR URINE CULTURE :
Polystyrene containers OTU30/OTP35
Polyethylene leakproof cap
Boric acid
Label for traceability of samples
From 30 ml to 60 ml
Highly shock resistant
USE : • Ideal for urine culture which cannot be inoculated within 2 hours
following the sampling
• Boric acid allows to store the urine samples during 48 hours
25. CONTAINERS
CONICAL CONTAINERS WITH SCREW CAP : PC125/PN200
Polypropylene containers
Polyethylene leakproof screw-cap
Moulded graduation (PC125)
Aseptic or sterilized
Highly shock resistant
USE : • Sampling, storage and shipment of samples for clinical analysis or
industrial production
CONICAL CONTAINERS WITH SNAP CAP :
PFC125/PC200A
Polypropylene containers and caps PC400/PC1000
2 colours natural or white
From 125 ml to 1000 ml
Highly shock resistant
Aseptic or sterile
Moulded graduation + writing area
USE : • Sampling, storage and shipment of samples for clinical analysis or
industrial production
26. CONTAINERS
TRANSPARENT POTS : PV60/PV125
PV250
Crystal polystyrene pots
From 60 ml to 250 ml
Leakproof screw-cap in ivory polystyrene
Aseptic
USE : • Ideal for semi-solid forms packaging (pharmacist preparation)
WHITE POTS :
Polypropylene pots
PV30/75/125/250/500
Polypropylene leakproof cap
PR500/800/1050/1000
From 30 ml to 1070 ml
With seal from 500 to 1070 ml
Aseptic
Highly shock resistant
USE : • Ideal for semi-solid forms packaging (pharmacist preparation)
• Ideal for photosensitive products
27. THE STRENGTHS OF OUR CONTAINERS RANGE
+ ANSWER FOR A WIDE SCOPE OF APPLICATIONS
+ DESIGN AND RAW MATERIALS ESPECIALLY DEVELOPED FOR OPTIMAL USE
+ COMPLETE PRODUCT TRACEABILITY
+ PRODUCTS DEVELOPED FOR THE BEST TRACEABILITY OF SAMPLES
+ 2 SANITARY LEVEL : ASEPTIC OR STERILIZED
+ PRODUCT EVOLUTION FOR AN EASIER USE
+ PRODUCTS COMPLIANT WITH SAMPLING STANDARDS ACCORDING TO THE SCOPE OF APPLICATION
28. TUBES
All products are manufactured USE cutting-edge technology and equipment
ensuring a consistent range of products compliant with laboratory use. Each
item is produced as a single unit to maximise resistance.
SCOPE OF USE :
MEDICAL MICROBIOLOGY INDUSTRIES
29. TUBES
ROUND BASE TUBES :
Aseptic or ionised
Polystyrene or polypropylene tubes
Transparent or translucent
With or without cap
Screw-cap or snap cap
Without graduation / printed graduation / moulded graduation
USE : • Wide scope of USE from sampling to analysis on machine
CONICAL BASE TUBES :
Aseptic or ionised
Polystyrene or polypropylene tubes
Transparent or translucent
With or without cap
Screw-cap or snap cap
With graduation / printed graduation / moulded graduation
USE : • Wide scope of USE from sampling to analysis on machine
30. TUBES
FLAT BASE TUBES :
Aseptic or ionised
Polystyrene or polypropylene tubes
Transparent or translucent
With or without cap
Screw cap or snap cap
With graduation /printed graduation / moulded graduation
USE : • Wide scope of USE from sampling to analysis on machine
WINGED BASE TUBES :
Aseptic or ionised
Polystyrene or polypropylene
Transparent or translucent
With or without cap
Screw cap or snap cap
With graduation / printed graduation / moulded graduation
USE : • Wide scope of USE from sampling to analysis on machine
31. TUBES
CONICAL BASE TUBES WITH HINGED CAP :
Aseptic or ionised
Polystyrene or polypropylene
Transparent ot translucent
With or without cap
Screw-cap or snap cap
With graduation / silk screen printed graduation / moulded graduation
USE : • Wide scope of USE from sampling to analysis on machine
32. THE STRENGTHS OF OUR TUBES RANGE
+ RANGE OF PRODUCTS FROM SAMPLING TO ANALYSIS
+ RAW MATERIALS DEVELOPED FOR OPTIMAL USE
+ CLOSURE SYSTEMS IDEAL FOR THE DIFFERENT USE
+ COMPLETE PRODUCT TRACEABILITY
+ A RANGE OF TUBES FROM 1 ML TO 50 ML
+ SPECIAL PACKAGING TO AVOID PARTICULAR CONTAMINATION RISKS
33. CLOSURES
All products are manufactured USE cutting-edge technology and equipment
ensuring a consistent range of products compliant with laboratory use. Each
item is produced as a single unit to maximise resistance.
SCOPE OF USE :
MEDICAL INDUSTRIES
34. CLOSURES
CLOSURE SYSTEM FOR TUBES :
Winged cap PE
For all volumes of tubes
Aseptic
Highly resistant Screw cap PE
Guarantees a total seal
Skirted cap PP
Straight cap PE
35. THE STRENGTHS OF OUR CLOSURES RANGE
+ RAWS MATERIALS DEVELOPED FOR OPTIMAL USE
+ WIDE RANGE OF COLOURS
+ AN ANSWER TO ALL USERS
+ COMPLETE TRACEABILITY
36. SAMPLING AND INOCULATION
All products are manufactured with high-tech equipment ensuring a consistent
range of products compliant with laboratory use. Each piece is made in one
piece to increase its resistance.
SCOPE OF USE :
MICROBIOLOGY INDUSTRIES ENVIRONMENT MEDICAL
37. SAMPLING AND INOCULATION
CONTAINERS WITH REMOVABLE HANDLE : TAT30/TAT52
Polypropylene containers
TAT53/TAFL1
Screw cap or snap cap
Colour blue (ideal for food and pharmaceutical industries)
From 40 ml to 125 ml
Highly shock resistant
Sterilized
Single bag
USE : • Sampling of solid, liquid or cream for industrial in process control.
CONTAINERS WITH SNAP-OFF HANDLE : TST30/35/51
53/TSU30
Polystyrene containers
Screw-cap
Natural or blue
From 40 ml to 80 ml
Single bag
Sterilized
USE : • Sampling of solid, liquid or cream for industrial in process control.
38. SAMPLING AND INOCULATION
SAMPLING CUTLERY :
Cutlery in white polystyrene
Sterilized
Single bag
Complete range : • small spoon
• large spoon
• knife
• fork
• multifunction cutlery ( spoon/knife/fork)
USE : • Food sampling of solid, liquid or cream form.
PRODUCT CODE : COUT / FOUR / CUIP / CUIG / CFM
39. SAMPLING AND INOCULATION
SM1/2/3/2N
BLENDER BAGS WITHOUT FILTER :
Polyethylene bags
Sterilized
Highly resistant
From 80 ml to 3.5 L
USE : • Grinding samples for analysis
BLENDER BAGS WITH FILTER : FBAG / BBAG
Polyethylene bags
Lateral or full-page filter
Highly resistant
Sterilized
400 ml
USE : • Grinding samples for analysis
40. SAMPLING AND INOCULATION
SEROLOGICAL PIPETTES : P1C/P2C/P5C/P10C/P25C
Polystyrene pipettes
From 1 ml to 50 ml
Sterilized
Coloured plug for a better handling
Stackable packaging
Single bag or 25 units
USE : • Transfer and dosage of liquid
PAS1/PAS3
PASTEUR PIPETTES :
Polyethylene pipettes
From 1 ml to 3 ml
Aseptic or sterilized
Single peelable bag or 10 units
USE : • Transfer and dosage of liquid
41. SAMPLING AND INOCULATION
EPI1B/EPI24B/EPI5B
STRAW PIPETTES :
Polypropylene pipettes
From 1 ml to 5 ml
Sterilised
Packaging in ZIP bag
USE : • Transfer of liquid
INOCULATING LOOPS :
Flexible polystyrene
From 1 ml to 10 ml OS1B/OS10B/OS1/OS10/OSM
Sterilised
Colour code for easy identification
Easy handling
3 types : standard, sphere extremity or mixed
USE : • Agar inoculation
• Optimal transfer of isolated colonies
42. ACCESSORIES
AGI
STIRRER SPATULA :
Polystyrene spatula
Aseptic or sterilized
Emballage unitaire, par 5 ou en vrac
Tamper evident on the single bag
USE : • Homogeneisation and mixing of liquid solutions
ETAR/ETAT
SPREADERS :
2 shapes : L form or T form
Polystyrene spreaders
Sterilized
Individually wrapped, in 5’s or in 50’s
USE : • Uniformisation of the inoculated production on the agar
43. SAMPLING AND INOCULATION
THE STRENGTHS OF OUR SAMPLING AND INOCULATION RANGE
+ A COMPLETE RANGE OF PRODUCT FROM SAMPLING TO INOCULATION
+ SPECIAL RAW MATERIALS DEVELOPED FOR OPTIMAL USE
+ COMPLETE TRACEABILITY
+ PRODUCTS EVOLUTION ACCORDING TO END USERS EXPECTATION
44. TRANSPORTATION AND DISPOSAL
Plastiques Gosselin offer a wide range of single use products intended for
sampling transport and waste elimination.
DOMAINES D’USE :
MICROBIOLOGY INDUSTRIES MEDICAL
45. TRANSPORTATION AND DISPOSAL
ZIP BAGS : SFP/SP
Polyethylene bags
Colours : natural, red, blue or yellow
With or without writing area
Single pocket or double pocket
USE : • Packaging and shipping of samples
METAL CLOSURE BAGS :
Polyethylene bags
Highly resistant
From 120 ml to 2070 ml
Writing area
Tamper evident
Single or double pocket
Closure with metalic wire
USE : • Sampling of solid, liquid or cream
46. TRANSPORTATION AND DISPOSAL
BUCKETS :
From 3 to 16 L
Polypropylene buckets
Plastic carrying handle
Tamper evident
Stackable and sturdy once stacked
Leakproof
USE : • Storage and shipment of solid, liquid or cream
47. TRANSPORTATION AND DISPOSAL
WASTE AND SHARP CONTAINERS, BOX :
Waste and sharp mini containers
With or without blade
Yellow containers in polypropylene
Volume : 0.45 L
Highly resistant
In accordance with standard NFX30-500
USE : • Collecting of medical waste for a portable use
WASTE AND SHARP CONTAINERS, COX :
Containers for waste from 700 ml to 10 L
In accordance with standard NFX30-500 and BS7320
Autoclavable
Yellow containers in polypropylene
Temporary and definitive closure
Highly resistant
USE : • Collecting of medical waste
48. TRANSPORTATION AND DISPOSAL
AUTOCLAVABLE BAGS :
Polypropylene bags (134°C) or Polyethylene bags (121°C)
From 3 L to 33 L
Autoclavable
On roll or flat packed
Unprinted or printed bags with «Biohazard» graphic symbol
USE : • Autoclaving step of laboratory disposables
49. TRANSPORTATION AND DISPOSAL
THE STRENGTHS OF OUR TRANSPORTATION AND DISPOSAL RANGE
+ RANGE OF PRODUCTS WHICH ALLOWS SHIPPING AND DESTRUCTION OF CONTAMINATED
LABORATORY DISPOSABLE
+ RESISTANT PRODUCTS TO AVOID ANY INJURY OR CONTAMINATION RISKS
+ EACH PRODUCT ANSWER TO THE END USER NEED
+ COMPLETE TRACEABILITY
50. BLOOD COLLECTION TUBES
Collection tubes for different types of analyses thanks to various additives :
Citrate Trisodique, Héparine Lithium, Fluorure Oxalate, Activator Coagulation-Z,
etc...
SCOPE OF USE :
MEDICAL
51. BLOOD COLLECTION TUBES
Max. Storage
Analysis type Additive Form Function
storage life requirements
Sedimentation Trisodium citrate Anticoagulant Away from light,
Liquid 1 year
rate 3.2%, 4:112) • Obtaining citrated plasma 4-25°C maximum
Coagulant
• Polystyrene beads :
Polystyrene beads Away from light,
Serum Granules separator between serum and 2 years
+ kaolin 4-25°C maximum
blood clot. Kaolin : coagulation
accelerator
Trisodium citrate Anticoagulant Away from light,
Coagulation Liquid 1 year
3.2%, 9:12) • Obtaining citrated 4-25°C maximum
Anticoagulant Away from light,
Haematology Tripotassic EDTA Vaporised 2 years
• Obtaining plasma 4-25°C maximum
Anticoagulant
Away from light,
Glycaemia Oxalate fluoride Powder • Obtaining plasma and 2 years
4-25°C maximum
preservation of glucose
Anticoagulant
Away from light,
Glycaemia Heparin iodoacetate Vaporised • Obtaining plasma and 6 months
4-25°C maximum
preservation of glucose
Anticoagulant
Away from light,
Plasma Heparin lithium Vaporised • Obtaining heparinized 1 year
4-25°C maximum
plasma
52. MISCELLANEOUS
All products are manufactured with high-tech equipment ensuring a consistent
range of products compliant with laboratory use. Each piece is made in one
piece to increase its resistance.
SCOPE OF USE :
MICROBIOLOGY MEDICAL
53. MISCELLANEOUS
GYNAECOLOGICAL SPECULUM :
Polystyrene speculum GYNC3 / GYNC4
Medical grade material
Single bag
Stérilized
2 sizes L 27 mm or L 32 mm
USE : • Gynaecological examination
• More comfortable for the patient
MICROTITRATION PLATE :
Polystyrene plate
96 wells
Aseptic or sterilized
Compatible with automated machine
Conical base, round or flat
54. MISCELLANEOUS
CUPS :
Polystyrene cups
Polyethylene caps
From 0.5 ml to 3.5 ml
Round base or skirt base
USE : • Machine analysis