ZIMMER
Care, Cleaning, Maintenance and Sterilization Recommendataions
Manual Orthopeadic Surgical Instruments Rev 3
Manual
20 Pages
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Manual Orthopaedic Surgical Instruments
Recommendations for Care, Cleaning, Maintenance and Sterilization
Manual Orthopaedic Surgical Instruments
Table of Contents 1. Purpose... 2 2. Scope... 2 3. Glossary... 3 4. Acronyms... 3 5. Symbols... 3 6. Considerations... 4 7. Processing Category Codes... 5 8. Instructions... 6 A. Warning and Precautions... 6 B. Receiving Inspection - Content and Functionality Verification... 7 C. Limitations and Restrictions on Reprocessing... 7 D. Point of Use Preparation for Reprocessing... 8 E. Preparation Before Cleaning... 8 F. Preparation of Cleaning Agents... 9 G. Manual Cleaning and Disinfection Instructions... 9 H. Combination Manual/Automated Cleaning and Disinfection Instructions... 10 I. Automated Cleaning and Disinfection Instructions... 10 J. Inspection, Maintenance, Testing and Lubrication... 10 K. Sterile Packaging... 11 L. Sterilization... 12 M. Storage Recommendations... 13
9. Hospital Responsibilities for Zimmer Loaned Instrument Sets... 13 10. Customer Service Information... 13 11. References... 14 Table 1. Cleaning/Disinfection Options... 9 Table 2. Typical Automated Washer/Disinfector Cycle for Surgical Instruments... 10 Table 3. Recommended Steam Sterilization Parameters... 12 Appendix 1. Cleaning/Disinfection Processes... 15 Chart 1. Manual Cleaning/Disinfection Procedure... 15 Chart 2. Combination Manual/Automated Cleaning/Disinfection Procedure... 15 Chart 3. Typical Automated Washer/Disinfector Standard Instrument Cleaning/Disinfection Cycle. . 15
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Manual Orthopaedic Surgical Instruments
1. Purpose These instructions are recommended for the care, cleaning, maintenance and sterilization of reusable Zimmer orthopaedic manual surgical instruments. This document is intended to assist health care personnel in safe handling practices, effective reprocessing and maintenance of Zimmer reusable devices.
Devices that cannot be reused may be labeled with the following symbol:
Do not reuse
The manual is intended to assist the hospital and central supply management in developing procedures for safe and effective reprocessing of Zimmer instrument sets.
This information is not applicable to single-use devices that are sold sterile and cannot be resterilized (e.g. osteotome blades).
Hospital personnel, including those in receiving and central sterile supply departments (CSSD), as well as in the operating room (OR) may be directly involved in handling instruments purchased from Zimmer or on a loan basis as consignment instruments. Hospital directors and other management in each of these departments should be informed of these instructions and recommendations to ensure safe and effective reprocessing and to prevent damage or misuse of reusable devices.
Devices that cannot be resterilized may be labeled with the following symbol:
2. Scope This instruction manual provides information on the care, cleaning, disinfection, maintenance and sterilization of manual surgical instruments and is applicable to all reusable medical devices manufactured and/or distributed by Zimmer, Inc. This information is also applicable to single-use medical devices manufactured by Zimmer that are supplied nonsterile but are intended to be used in a sterile state. These devices are single-use but can be reprocessed if not used (e.g. screws, plates, etc.). This also includes single-use devices packaged and sold sterile but removed from packaging and placed in kits. Note: not used refers to those single-use components that have not been in contact with blood, bone, tissue or other body fluids. Any unused, single-use device that has been exposed to blood, bone, tissue or body fluids must not be reprocessed or resterilized and must be discarded.
Do not resterilize This instruction manual is not applicable to air driven or electrically powered equipment. However, it is applicable to functional attachments (e.g. reamers and drill bits) that are connected to powered equipment for use.
Manual Orthopaedic Surgical Instruments
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3. Glossary
4. Acronyms
Chemical: a formulation of compounds intended for use in reprocessing.
BI
= biological indicator
CJD
= Creutzfeldt-Jakob Disease
Note: This includes detergents, surfactants, rinse aids, disinfectants, enzymatic cleaners and sterilants. Cleaning: the removal of contamination from an item to the extent necessary for further processing.
CSSD = Central Sterile Supply Department OR
= operating room
Contaminated: State of having been actually or potentially in contact with microorganisms.
PPE = personal protective equipment
Decontamination: the use of physical or chemical means to remove, inactivate, or destroy bloodborne pathogens on a surface or item to the point where they are no longer capable of transmitting infectious particles and the surface or items is rendered safe for handling or disposal.
TSE = Transmissible Spongiform Encephalopathy
SAL = sterility assurance level
5. Symbols
Disinfection: a process used to reduce the number of viable microorganisms on a product to a level previously specified as appropriate for its further handling or use. Note: Cleaning and disinfection are often conducted in the same step.
Do not reuse
Consult instructions
Do not resterilize
Caution or Instructions for Use
Manual cleaning: cleaning without the use of an automated washer or washer/disinfector. Processing/Reprocessing: activity including cleaning, disinfection and sterilization, necessary to prepare a new or used medical device for its intended use. Sterile: free from all viable microorganisms. Sterilization: a validated process used to render a device free from all forms of viable microorganisms. Note: In a sterilization process, the nature of microbiological death is described by an exponential function. Therefore, the presence of microorganisms on any individual item may be expressed in terms of probability. While this probability may be reduced to a very low number, it can never be reduced to zero. This probability can only be assured for validated processes. Washer/Disinfector: a machine intended to clean and disinfect medical devices and other articles used in the context of medical, dental, pharmaceutical, and veterinary practice.
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6. Considerations This instruction manual pertains to all Zimmer reusable surgical instruments and should be studied carefully. This manual supercedes Zimmer and Centerpulse instrument manuals published prior to January 2006. The user/processor should comply with local laws and ordinances in countries where reprocessing requirements are more stringent than those detailed in this manual. New and used instruments must be thoroughly processed according to these instructions prior to use. During musculoskeletal surgery, instruments become contaminated from blood, tissue, bone chips and marrow. The instruments may also become contaminated with body fluids containing hepatitis virus, HIV or other etiological agents and pathogens. All health care workers should become familiar with the necessary Universal Precautions of preventing injuries caused by sharp instruments when handling these devices during and after surgical procedures and during reprocessing. It should be noted that saline and other irrigation fluids are often used in copious amounts during surgical procedures and will exert a corroding effect on instruments. Orthopaedic surgery requires instruments which are heavy and have multiple components, articulating or rotating parts, removable handles, plastic replacement parts, and series of gauges or other measuring devices in graduated sizes. Devices are usually supplied in sets and subdivided into trays and cases in which the devices may be arranged by size or in the order needed for a specific surgical procedure. Hospitals must assume responsibility for cleaning, disinfection, packaging and sterilization of all loaner instrument sets before returning them to Zimmer. However, the next user must also inspect the set upon receipt to verify that instruments have, in fact, been adequately cleaned and decontaminated before repeating reprocessing procedures to prepare the loaner set for subsequent reuse. Zimmer cannot guarantee that sterility was attained by the previous user and has been maintained during transit. Zimmer representatives often open and inspect instrument sets between users, which will, of course, compromise sterility and require complete reprocessing prior to subsequent use.
This manual includes instructions for all Zimmer reusable devices including legacy Centerpulse instruments marked with reprocessing category codes [a, a+, b, b+, c]. See Section 7 of this manual for further explanation of reprocessing codes. All Zimmer devices may be safely and efficiently reprocessed using the manual or combination manual/ automated cleaning instructions outlined in this manual. Core orthopaedic instrument sets must be complete and in good condition to be used correctly. Optional devices may be available on request from your Zimmer representative. To maintain instruments properly it is important to consider the following information and processing instructions: • Warnings and precautions • Instrument set completeness and functionality • Reprocessing limitations and/or restrictions • Preparation for reprocessing at the point of use • Preparation for cleaning (including assembly/disassembly as necessary) • Cleaning, disinfection and drying • Maintenance, inspection, testing and lubrication • Sterile packaging • Sterilization • Storage
Manual Orthopaedic Surgical Instruments
7. Processing Category Codes The following codes are etched on some instruments and provide information useful in the selection of cleaning agents with appropriate pH. Zimmer recommends that all reusable devices (regardless of etching) be processed in accordance with the manual or combination manual/automated cleaning instructions contained in this instruction manual.
a
Steel/metal Instruments without cannulated bores/lumens or non-metal/polymer handles, or other components (e.g. retractors, drills, testing trays, rasps, scissors, clamps, exploring hooks, compression forceps, skin bridge elevators, guide wires, etc.). These devices are tolerant of alkaline cleaning agents when followed by acidic neutralization and thorough rinsing. These devices can be cleaned with rust-removal agents approved for surgical instruments in the presence of rust or corrosion.
a+
Steel/metal instruments with cannulated bores/lumens but without non-metal/polymer handles or other components (e.g. drills with elongated holes, belt tensioning pulleys, bone joint reamers, extractor cases). These devices are tolerant of alkaline cleaning agents when followed by acidic neutralization and thorough rinsing. These devices can be cleaned with rust-removal agents approved for surgical instruments in the presence of rust or corrosion. Cannulations and hollow spaces must be cleaned manually.
b b+ c
Instruments made of polymers or metal instruments paired with polymer components (e.g. testing trays for flat profiles, chisels with non-metal handles, awls, dissectors, femur dilatators, pyramidal chisels/rasps). These devices are tolerant of alkaline cleaning agents when followed by acidic neutralization and thorough rinsing.
Instruments with cannulated bores, made of polymers or metal instruments paired with polymer components (e.g. tibial mallets, flex screwdrivers, tibial dilatators, etc.). These devices are tolerant of alkaline cleaning agents when followed by acidic neutralization and thorough rinsing. Cannulations and hollow spaces must be cleaned manually.
Instruments made of titanium or aluminum alloys and/or having assembly/disassembly or other reprocessing aids (e.g. torque spanners, tibial aiming devices, pad cutters, instrument cases, trays and sterilization containers). These devices should be cleaned using the manual or combination manual/ automated cleaning procedures provided in this manual. These devices should not be exposed to alkaline cleaning agents.
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8. Processing Instructions These processing instructions are intended to assist the hospital and central supply management in developing procedures to attain the above goals, both for hospitalowned and for loaned instrument sets. This information is based on Zimmer testing and experience, material science, as well as widely accepted recommendations of the following organizations: • American National Standards Institute (ANSI) • American Society for Testing and Materials (ASTM) • Association for the Advancement of Medical Instrumentation (AAMI) • Association of Operating Room Nurses (AORN) • Centers for Disease Control (CDC) • German Instrument Working Group (AKI) Arbeitskreis Instrumenten-Aufbereitung • International Standards Organization (ISO) • International Association of Healthcare Central Service Material Management (IAHCSMM) • National Health Service (NHS) • Robert Koch Institute (RKI) • Swissmedic • World Health Organization (WHO) Note: These instructions describe the necessary processing steps that new and used instruments must undergo to attain sterility.
A. Warnings and Precautions • Universal Precautions should be observed by all hospital personnel that work with contaminated or potentially contaminated medical devices. Caution should be exercised when handling devices with sharp points or cutting edges. • Personal Protective Equipment (PPE) should be worn when handling or working with contaminated or potentially contaminated materials, devices and equipment. PPE includes gown, mask, goggles or face shield, gloves and shoe covers.
• Metal brushes or scouring pads must not be used during manual cleaning procedures. These materials will damage the surface and finish of instruments. Soft-bristled, nylon brushes and pipe cleaners should be used. • Cleaning agents with low foaming surfactants should be used during manual cleaning procedures to ensure that instruments are visible in the cleaning solution. Manual scrubbing with brushes should always be performed with the instrument below the surface of the cleaning solution to prevent formation of aerosols and splashing which may spread contaminants. Cleaning agents must be easily and completely rinsed from device surfaces to prevent accumulation of detergent residue. • Do not place heavy instruments on top of delicate devices. • Do not allow contaminated devices to dry prior to reprocessing. All subsequent cleaning and sterilization steps are facilitated by not allowing blood, body fluid, bone and tissue debris, saline, or disinfectants to dry on used instruments. • Saline and cleaning/disinfection agents containing aldehyde, mercury, active chlorine, chloride, bromine, bromide, iodine or iodide are corrosive and should not be used. Instruments must not be placed or soaked in Ringers Solution. • Mineral oil or silicone lubricants should not be used because they: 1) coat microorganisms; 2) prevent direct contact of the surface with steam; and 3) are difficult to remove. • Only devices manufactured and/or distributed by Zimmer should be included in Zimmer instrument trays and cases. These validated reprocessing instructions are not applicable to Zimmer trays and cases that include devices that are not manufactured and/or distributed by Zimmer. • Descaling agents that include morpholine should not be used in steam sterilizers. These agents leave residue which can damage polymer instruments over time.
Manual Orthopaedic Surgical Instruments
B. Receiving Inspection - Instrument set content and functionality verification • Upon receipt in the hospital, instrument sets should be inspected for completeness. Inspect for thumb, wing, set, or other types of screws; screw-in or other detachable handles; and auxiliary exchangeable parts such as blades, right/left attachments or heads. Many organizing cases have shadow graphs, outlines, catalog numbers, and instrument names or sizes silk-screened or otherwise marked on the case or tray. • Orthopaedic surgical procedures follow a precise order in which the instruments are used. Also, many instruments have dimensional features which govern bone resections, determine implant sizes, and measure intramedullary canal sizes, depth of drill holes, angles of tube/plate, acetabular cup placements, etc. Therefore, it is very important that all requested sizes of a specific instrument series are available (specific instruments are routinely omitted from instrument sets due to infrequent use unless requested by the user). Contact your Zimmer representative if requested instruments have been omitted but are required for surgery. • Markings on instruments used for measuring anatomical dimensions must be legible. These may include gauge markings, angles, inner or outer diameters, length or depth calibrations, and right/left indications. Notify your Zimmer representative if scales and other markings are not legible.
C. Limitations and Restrictions • Neutral pH enzymatic and cleaning agents are recommended and preferred for cleaning Zimmer reusable devices. Alkaline agents with pH of 12 or less may be used to cleanstainless steel and polymer instruments in countries where required by law or local ordinance; or where prion diseases such as Transmissible Spongiform Encephalopathy (TSE) and Creutzfeldt-Jakob Disease (CJD) are a concern. It is critical that alkaline cleaning agents are completely and thoroughly neutralized and rinsed from devices. Note: Drill bits, reamers, rasps and other cutting devices should be carefully inspected after processing with alkaline detergents to ensure that cutting edges are fit for use.
Note: It is important to select enzymatic solutions intended for breakdown of blood, body fluids and tissues. Some enzymatic solutions are specifically for breakdown of fecal matter or other organic contaminants and may not be suitable for use with orthopaedic instruments. • Repeated processing, according to the instructions in this manual has minimal affect on Zimmer reusable manual instruments unless otherwise noted. End of life for stainless steel or other metal surgical instruments is normally determined by wear and damage due to the intended surgical use and not to reprocessing. • Automated cleaning using a washer/disinfector alone may not be effective for orthopaedic instruments with lumens, cannulations, blind holes, mated surfaces and other complex features. A thorough, manual or combination manual/automated cleaning process is recommended. • Where applicable, multi-component instruments should be disassembled for cleaning. Disassembly, where necessary, is generally self evident. Care must be taken to avoid losing small parts. If a part is lost, notify your Zimmer representative when the instrument set is returned. • Instruments must be removed from metal or polymer trays for manual and/or automated cleaning procedures. Do not clean instruments while in polymer or metal trays. Instrument trays, cases and lids must be cleaned separately from instruments. Non-sterile, single-use plate and screw implants are an exception to this rule. Plates and screws may remain in the tray or caddy for reprocessing. • Polymers used in Zimmer instrument sets can be sterilized using steam/moist heat. Polymer materials have a limited useful life. If polymer surfaces turn “chalky,” show excessive surface damage (e.g. crazing or delamination), or if polymer devices show excessive distortion or are visibly warped, they should be replaced. Notify your Zimmer representative if polymer devices need to be replaced. • Most currently available polymers will not withstand conditions in washer/sterilizers that operate at temperatures equal to or greater than 141°C/285°F, and use live-steam jets as cleaning features. Severe surface damage to polymer devices will occur under these conditions.
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• Soaking in disinfectants may be a necessary step to control certain viruses. However, these agents may discolor or corrode instruments (household bleach contains or forms chlorine and chloride in solution and has a corrosive effect similar to saline). Disinfectants containing glutaraldehyde, or other aldehydes, may denature protein based contaminants, causing them to harden and making them difficult to remove. Where possible, soaking in disinfectants should be avoided. • Steam/moist heat is the recommended sterilization method for Zimmer instruments. • Ethylene Oxide (EO), Gas Plasma Sterilization and dry heat sterilization methods are not recommended for sterilization of Zimmer reusable instruments. • Instrument with removable polymer sleeves must be disassembled for sterilization (e.g. acetabular reamer shaft with sleeve, side cutters, etc.)
D. Point of Use Preparation for Reprocessing • Remove excess body fluids and tissue from instruments with a disposable, non-shedding wipe. Place instruments in a basin of distilled water or in a tray covered with damp towels. Do not allow saline, blood, body fluids, tissue, bone fragments or other organic debris to dry on instruments prior to cleaning. Note: Soaking in proteolytic enzyme solutions facilitates cleaning, especially in instruments with complex features and hard-to-reach areas (e.g. cannulated and tubular designs, etc.). These enzymatic solutions break down protein matter and prevent blood and protein based materials from drying on instruments. Manufacturer’s instructions for preparation and use of these solutions should be explicitly followed. • Instruments should be cleaned within 30 minutes of use to minimize the potential for drying prior to cleaning.
• During initial steam sterilization runs some formaldehyde from polyformaldehyde surfaces may vaporize and become noticeable. This should not cause concern. After a few sterilization cycles, the odor should be no longer evident.
• Used instruments must be transported to the central supply in closed or covered containers to prevent unnecessary contamination risk.
• While ethylene oxide sterilization may prolong the service life of certain polymers (e.g. polysulfone), this method of sterilization is not recommended unless aeration times are provided in specific package inserts. Large polyformaldehyde items (DELRIN, CELCON) have been found to require excessive outgassing times (a minimum of five days at elevated temperatures in a mechanical aerator); therefore, gas sterilization for polyformaldehyde products is contraindicated.
E. Preparation Before Cleaning
• Titanium and titanium alloy devices are especially susceptible to discoloration from steam impurities and detergent residues which form multi-colored surface layers of oxide deposits. Upon repeated sterilization these oxide layers, while not harmful to the patient, may become so dark that they can obscure graduation marks, catalog and lot numbers, and other stamped or etched information. Acidic, anti-corrosion agents may be used to remove this discoloration. Avoid frequent use of these agents. • Use of hard water should be avoided. Softened tap water may be used for initial rinsing. Purified water should be used for final rinsing to eliminate mineral deposits on instruments. One or more of the following processes may be used to purify water: ultra-filter (UF), reverse-osmosis (RO), deionized (DI), or equivalent.
• Symbols or specific instructions etched on instruments or instrument trays and cases should be strictly followed. • Where applicable, multi-component instruments should be disassembled for appropriate cleaning. Care should be exercised to avoid losing small screws and components. If a part is lost, notify your Zimmer representative when the instrument set is returned. • Published instructions for use and surgical techniques and/or procedures may provide a supplemental source to illustrate assembly/disassembly instructions for specific Zimmer instruments.
Manual Orthopaedic Surgical Instruments
F. Preparation of Cleaning Agents
G. Manual Cleaning/Disinfection Instructions
• Neutral pH enzymatic and cleaning agents with low foaming surfactants are preferred and recommended by Zimmer. Alkaline agents with pH of 12 or less may be used in countries where required by law or local ordinance. Alkaline agents should be followed with a neutralizer and thorough rinsing.
1. Completely submerge instruments in enzyme solution and allow to soak for 20 minutes. Use a soft-bristled, nylon brush to gently scrub the device until all visible soil has been removed. Particular attention must be given to crevices, lumens, mated surfaces, connectors and other hard-to-clean areas. Lumens should be cleaned with a long, narrow, soft-bristled brush (i.e. pipe cleaner brush).
• All cleaning agents should be prepared at the use-dilution and temperature recommended by the manufacturer. Softened tap water may be used to prepare cleaning agents. Use of recommended temperatures is important for optimal performance of cleaning agents.
2. Remove the device from the enzyme solution and rinse in tap water for a minimum of 3 minutes. Thoroughly and aggressively flush lumens, holes and other difficult-toreach areas.
• Dry powdered cleaning agents should be completely dissolved prior to use to avoid staining or corrosion of instruments.
3. Place prepared cleaning agents in a sonication unit. Completely submerge device in cleaning solution and sonicate for 10 minutes at 45-50kHz.
• Fresh cleaning solutions should be prepared when existing solutions become grossly contaminated (bloody and/or turbid).
4. Rinse instrument in purified water for at least 3 minutes or until there is no sign of blood or soil on the device or in the rinse stream. Thoroughly and aggressively flush lumens, holes and other difficult-to-reach areas.
Table 1. Cleaning/Disinfection Options
5. Repeat the sonication and rinse steps above.
Method
Description
Section
Manual
Enzymatic soak and scrub followed by sonication
G
Combination Manual/Automated
Enzymatic soak and scrub followed by automated washer/ disinfector cycle
H
Automated (Washer/Disinfector)
Washer/disinfector cycle - not recommended for use without manual precleaning
I
6. Remove excess moisture from the instrument with a clean, absorbent and non-shedding wipe. Note: If stainless steel instruments are stained or corroded, an acidic, anti-corrosion agent in an ultrasonic cleaner may be sufficient to remove surface deposits. Care must be taken to thoroughly rinse acid from devices. Acidic, anti-corrosion agents should only be used on an as needed basis.
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H. Combination Manual/Automated Cleaning and Disinfection Instructions 1. Completely submerge the instruments in enzyme solution and allow to soak for 10 minutes. Use a soft nylon-bristled brush to gently scrub the device until all visible soil has been removed. Particular attention must be given to crevices, lumens, mated surfaces, connectors and other hard-to-clean areas. Lumens should be cleaned with a long, narrow, soft nylon-bristled brush (i.e. pipe cleaner). Note: Use of a sonicator at 45-50kHz will aid in thorough cleaning of devices. Note: Use of a syringe or water jet will improve flushing of difficult to reach areas and closely mated surfaces. 2. Remove devices from the enzyme solution and rinse in purified water for a minimum of 1 minute. Thoroughly and aggressively flush lumens, blind holes and other difficult-toreach areas. 3. Place instruments in a suitable washer/disinfector basket and process through a standard instrument washer/ disinfector cleaning cycle. The following minimum parameters are essential for thorough cleaning and disinfection.
Table 2. Typical Automated Washer/Disinfector Cycle for Surgical Instruments Step
Description
1
2 minute prewash with cold tap water
2
20 second enzyme spray with hot tap water
3
1 minute enzyme soak
4
15 second cold tap water rinse (X2)
5
2 minutes detergent wash with hot tap water (64-66°C/146-150°F)
6
15 second hot tap water rinse
7
2 minute thermal rinse (80-93°C/176-200°F)
8
10 second purified water rinse with optional lubricant (64-66°C/146-150°F)
9
7 to 30 minute hot air dry (116°C/240°F)
Note: The washer/disinfector manufacturer’s instructions should be strictly adhered to.
I. Automated Cleaning/ Disinfection Instructions 1. Automated washer/disinfector systems are not recommended as the sole cleaning method for surgical instruments. Orthopaedic instruments should be cleaned following the manual or combination manual/automated cleaning procedure outlined in this manual except where specifically indicated. 2. An automated washer/disinfector may be used as follow-up to the manual cleaning procedure above but is not required. 3. Simple instruments without multiple components, lumens/ cannulations, blind holes, mated surfaces, connectors and internal mechanisms or other complex features may be successfully cleaned and disinfected using a typical washer/disinfector cycle for surgical instruments as outlined in Table 2 of this manual. Devices should be thoroughly inspected prior to sterilization to ensure effective cleaning.
J. Inspection, Maintenance, Testing and Lubrication 1. Carefully inspect each device to ensure that all visible contamination has been removed. If contamination is noted repeat the cleaning/disinfection process. 2. Visually inspect for completeness, damage and/or excessive wear. Note: If damage or wear is noted that may compromise the function of the instrument, contact your Zimmer representative for a replacement. 3. Check the action of moving parts (e.g. hinges, box-locks, connectors, sliding parts, etc.) to ensure smooth operation throughout the intended range of motion. 4. Hinged, rotating, or articulating instruments should be lubricated with a water soluble product (e.g. Instrument Milk or equivalent lubricant) intended for surgical instruments that must be sterilized. Some water-based instrument lubricants contain bacteriostatic agents which are beneficial. To remain effective, the expiration date specified by the manufacturer should be adhered to for both stock and use-dilution concentrations. Note: Mineral oil or silicone lubricants should not be used because they 1) coat microorganisms; 2) prevent direct contact of the surface with steam; and 3) are difficult to remove.
Manual Orthopaedic Surgical Instruments
Note: These lubrication instructions are not applicable to air-powered or electrical instruments. These devices have different requirements and should be lubricated according to the manufacturer’s instructions.
Instrument trays and cases with defined, preconfigured layouts
5. Check instruments with long slender features (particularly rotating instruments) for distortion.
• Optional Zimmer instruments should not be added to a preconfigured instrument tray or case unless a dedicated universal space or compartment has been included in the design and the guidelines described below for trays and cases without defined layouts or universal spaces can be applied.
6. Where instruments form part of a larger assembly, check that the devices assemble readily with mating components.
K. Sterile Packaging Packaging individual instruments • Commercially available, medical grade steam sterilization pouches (e.g. paper, Tyvek™ or equivalent) of the appropriate sizes may be used to double package single instruments. Ensure that the inner pouch is large enough to contain the instrument without stressing the seals or tearing the packaging but small enough to be placed in a secondary pouch without compromising the integrity of the total package. • Standard medical grade, steam sterilization wrap may be used to package individual instruments. The package should be prepared using the AAMI double wrap or equivalent method. Note: If sterilization wraps are used they must be free of detergent residues. Reusable wraps are not recommended. Packaging instrument sets in rigid trays and cases with lids Safety Precaution: The total weight of a wrapped instrument tray or case should not exceed 11.4kg/25lbs. When placed in a sterilization container with gasketed lid the total package should not exceed 16kg/35lbs. • Trays and cases with lids may be wrapped in standard medical grade, steam sterilization wrap using the AAMI double wrap method or equivalent. • Trays and cases with lids may also be placed in an approved sterilization container with a gasketed lid for sterilization. Note: Follow the sterilization container manufacturer’s instructions for inserting and replacing sterilization filters in sterilization containers.
• Areas designated for specific devices shall contain only devices specifically intended for these areas.
• Only devices manufactured and/or distributed by Zimmer should be included in Zimmer instrument trays. These validated reprocessing instructions are not applicable to Zimmer trays that include devices that are not manufactured and/or distributed by Zimmer. Universal instrument trays and cases without defined, preconfigured layouts or containing undefined universal spaces or compartments should only be used under the following conditions • The total weight of a wrapped instrument tray or case should not exceed 11.4kg/25lbs. When placed in a sterilization container with gasketed lid the total sterilization package should not exceed 16kg/35lbs. • Any device capable of disassembly must be disassembled prior to placement in the case. • All devices must be arranged to ensure steam penetration to all instrument surfaces. Instruments should not be stacked or placed in close contact. • The user must ensure that the instrument case is not tipped or the contents shifted once the devices are arranged in the case. Silicon mats may be used to keep devices in place. • Only devices manufactured and/or distributed by Zimmer should be included in Zimmer instrument trays. Zimmer validated reprocessing instructions are not applicable to Zimmer trays that include devices that are not manufactured and/or distributed by Zimmer.
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L. Sterilization Instructions • See Table 3 for recommended minimum sterilization parameters that have been validated by Zimmer to provide a 10-6 sterility assurance level (SAL). • The hospital is responsible for in-house procedures for the reassembly, inspection, and packaging of the instruments after they are thoroughly cleaned in a manner that will ensure steam sterilant penetration and adequate drying. Provisions for protection of any sharp or potentially dangerous areas of the instruments should also be recommended by the hospital.
• Sterilizer manufacturer recommendations should always be followed. When sterilizing multiple instrument sets in one sterilization cycle, ensure that the manufacturer’s maximum load is not exceeded. • Instrument sets should be properly prepared and packaged in trays and/or cases that will allow steam to penetrate and make direct contract with all surfaces. • Ethylene oxide or gas plasma sterilization methods should not be used unless package inserts for the applicable product specifically provide instructions for sterilization using these methods. • Gravity displacement sterilization cycles are not recommended because cycle times are too long to be practical.
• Moist heat/steam sterilization is the preferred and recommended method for Zimmer orthopaedic instrument sets.
Table 3. Recommended Steam Sterilization Parameters Cycle Type
Minimum Temperature
6
7 Minimum Exposure Time
Pressure 8,9
Wrapped
10
Unwrapped
1,3 UK Prevacuum/ Pulsating Vacuum
134°C 273°F
3bar 28.5psi
3 min
3 min
1,3
Prevacuum/ Pulsating Vacuum
132°C 270°F
1.86bar 27psi
4 min
4 min
3,4
Prevacuum/ Pulsating Vacuum
134°C 273°F
3bar 28.5psi
18 min
18 min
Prevacuum/ Pulsating Vacuum
132°C 270°F
1.86bar 27psi
8 min
8 min
5
Gravity/Gravity Displacement 12
Minimum Dry Time
11
30 minutes
Not recommended due to excessively long sterilization cycles which are not practical.
1
Minimum validated steam sterilization time required to achieve a 10-6 sterility assurance level (SAL). Minimum validated steam sterilization temperature required to achieve a 10-6 sterility assurance level (SAL). 3 Local or national specifications should be followed where steam sterilization requirements are stricter or more conservative than those listed in this table. 4 Disinfection/steam sterilization parameters recommended by the World Health Organization (WHO) for reprocessing instruments where there is concern regarding TSE/CJD contamination. 5 For Universal Instrument Cases without defined load configurations. 6 Sea level 7 AAMI/AORN steam sterilization cycles with longer times than those listed are also acceptable. 8 Medical grade steam sterilization compatible wrap equivalent to four thicknesses of 140-thread-count muslin. 9 Rigid sterilization container that complies with ANSI/AAMI ST46. 10 Flash (unwrapped) sterilization by exposure at 132°C /270°F should only be used as an emergency procedure. Instruments must be cleaned and disassembled. 11 Drying times vary according to load size and should be increased for larger loads. 12 Gravity steam sterilization cycle parameters are available on request from Customer Service. 2
Note: The Sterilizer Manufacturer’s instructions for operation and load configuration should be followed explicitly.
Manual Orthopaedic Surgical Instruments
M. Storage Instructions • Sterile, packaged instruments should be stored in a designated, limited access area that is well ventilated and provides protection from dust, moisture, insects, vermin, and temperature/humidity extremes. • Sterile instrument packages should be carefully examined prior to opening to ensure that package integrity has not been compromised. Note: Maintenance of sterile package integrity is generally event related. If a sterile wrap is torn, perforated, shows any evidence of tampering or has been exposed to moisture, the instrument set must be repackaged and sterilized. Note: If there is any evidence that the lid seal or filters on a sterilization container have been opened or compromised, the sterile filters must be replaced and the instrument set resterilized.
9. Hospital Responsibilities for Zimmer Loaner Sets • Orthopaedic surgical instruments generally have a long service life; however, mishandling or inadequate protection can quickly diminish their life expectancy. Instruments which no longer perform properly because of long use, mishandling, or improper care should be returned to Zimmer to be discarded. Notify your Zimmer representative of any instrument problems.
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• Loaner sets should undergo all steps of decontamination, cleaning, disinfection, inspection, and terminal sterilization before being returned to Zimmer. Documentation of decontamination should be provided with instruments being returned to Zimmer. • Missing or damaged instruments from loaner sets should be brought to the attention of the operating room supervisor, to the director of the central supply department, and to your Zimmer representative to ensure that the next hospital will receive a complete set of instruments in working condition. • The instructions provided in this manual have been validated by Zimmer in the laboratory and are capable of preparing orthopaedic devices for use. It is the responsibility of the Hospital to ensure that reprocessing is performed using the appropriate equipment and materials, and that personnel in the reprocessing facility have been adequately trained in order to achieve the desired result. Equipment and processes should be validated and routinely monitored. Any deviation by the processor from these instructions should be properly evaluated for effectiveness to avoid potential adverse consequences.
10. Customer Service Information Mailing Address
Telephone
Zimmer, Inc. 1800 West Center Street Warsaw, Indiana 46580 USA
Inside USA: 1-800-348-2759 Outside USA: local international access code +1-574-367-6131
Zimmer GmbH Sulzer-Allee 8 CH-8404 Winterthur, Switzerland
+41 (0)52 262 60 70
This Zimmer reprocessing manual and the associated Quick Reference Guide can be found at www.zimmer.com under the “Medical Professional” heading.
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Manual Orthopaedic Surgical Instruments
11. References 1. AAMI TIR12, Designing, testing, and labeling reusable medical devices for reprocessing in health care facilities: A guide for medical device manufacturers 2. AAMI TIR13, Principles of industrial moist heat sterilization 3. AAMI TIR30, A compendium of processes, materials, test methods, and acceptance criteria for cleaning reusable medical devices 4. ANSI/AAMI ST33, Guidelines for the selection and use of reusable rigid container systems for ethylene oxide sterilization and steam sterilization in health care facilities 5. ANSI/AAMI ST35, Safe handling and biological decontamination of reusable medical devices in healthcare facilities and in nonclinical settings 6. ANSI/AAMI ST37, Flash sterilization – Steam sterilization of patient care items for immediate use 7. ANSI/AAMI ST46, Steam sterilization and sterility assurance in health care facilities 8. ANSI/AAMI ST67, Sterilization of health care products – Requirements for products labeled “Sterile” 9. ANSI/AAMI ST81, Sterilization of medical devices – Information to be provided by the manufacturer for the processing of resterilizable medical devices 10. ANSI/AAMI/ISO 15223 and Amendments 1 and 2, Medical devices – Symbols to be used with medical device labels, labeling, and information to be supplied 11. AORN, Standards, Recommended Practices and Guidelines 12. ASTM F 565, Standard Practice for Care and Handling of Orthopedic Implants and Instruments 13. German Instrument Working Group (AKI) Arbeitskreis Instrumenten-Aufbereitung, Proper Maintenance of Instruments, 8th Ed, 2004. 14. IAHCSMM, Central Service Technical Manual 15. ISO 15883, Washer/Disinfectors: Requirements, Definitions and Test Methods 16. ISO 17664, Sterilization of medical devices – Information to be provided by the manufacturer for the processing of resterilizable medical devices
17. Robert Koch Institute (RKI), Hospital Supplies and Instrument Sterilization in Light of CJD Patients and Suspected CJD Cases, Federal Health Gazette, 7/1998 18. UK Department of Health, Health Technical Memorandum (HTM) 2010, Sterilization, Part 5 – Good Practice Guide 19. UK Department of Health, Health Technical Memorandum (HTM) 2030, Washer-Disinfectors –Validation and Verification 20. World Health Organization (WHO), WHO/CDS/CSR/APH 200.3, WHO Infection Control Guidelines for TSE
Manual Orthopaedic Surgical Instruments
Appendix 1. Cleaning/Disinfection Processes Chart 1. Manual Cleaning/Disinfection Procedure Step 1
Completely submerge instruments in enzyme solution and allow to soak for 20 minutes. Scrub using a soft-bristled, nylon brush until all visible soil has been removed.
Step 2
Remove the device from the enzyme solution and rinse in tap water for a minimum of 3 minutes. Thoroughly and aggressively flush lumens, holes and other difficult to reach areas.
Step 3
Place prepared cleaning agents in a sonication unit. Completely submerge device in cleaning solution and sonicate for 10 minutes at 45-50kHz.
Step 4
Rinse instrument in purified water for at least 3 minutes or until there is no sign of blood or soil on the device or in the rinse stream. Thoroughly and aggressively flush lumens, holes and other difficult to reach areas.
Step 5
Repeat the sonication and rinse steps above.
Step 6
Remove excess moisture from the instrument with a clean, absorbent and nonshedding wipe.
Chart 2. Combination Manual/Automated Cleaning/ Disinfection Procedure Step 1
Completely submerge the instruments in enzyme solution and allow to soak for 10 minutes. Use a soft, nylon-bristled brush to gently scrub the device until all visible soil has been removed. Particular attention must be given to crevices, lumens, mated surfaces, connectors and other hard-to-clean areas. Lumens should be cleaned with a long, narrow, soft nylon-bristled brush.
Step 2
Remove devices from the enzyme solution and rinse in purified water for a minimum of 1 minute. Thoroughly and aggressively flush lumens, holes and other difficult to reach areas.
Step 3
Place instruments in a suitable washer/disinfector basket and process through a standard washer/disinfector instrument cycle.
Chart 3. Typical Automated Washer/Disinfector Cycle for Cleaning/ Disinfection of Surgical Instruments Step 1
Pre Wash; Cold Softened Tap Water; 2 minutes
Step 2
Enzyme Spray, Hot Softened Tap Water; 20 seconds
Step 3
Enzyme Soak; 1 minute
Step 4
Rinse (X2); Cold Softened Tap Water; 15 seconds
Step 5
Detergent Wash; Hot Softened Tap Water; (64-66°C/146-150°F); 2 minutes
Step 6
Rinse (X2); Hot Softened Tap Water; 15 seconds
Step 7
Thermal Rinse; Hot Softened Tap Water; (80-93°C/176-200°F); 2 minutes
Step 8
Purified Water Rinse; (64-66°C/146-150°F); 10 seconds
Step 9
Hot Air Dry; (116°C/240°F); 7 to 30 minutes
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Manual Orthopaedic Surgical Instruments
Manual Orthopaedic Surgical Instruments
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Contact your Zimmer representative or visit us at www.zimmer.com
97-5000-170-00 Rev.3 2.5ML Printed in USA ©1987, 2006, 2010 Zimmer, Inc.