SURGICAL INSTRUMENT CARE AND CLEANING High quality surgical instruments are typically made from surgical grade stainless steel (i.e. 410, 420 etc.). The grade varies by manufacturer and by type of instrument. For example, a scissor may be fabricated of 420 stainless steel to enable the blades to be hardened adequately for long life. A forceps on the other hand usually does not require the same hardness, and may be fabricated from a 410 grade. Malleable retractors are made of yet another grade. The grade of stainless steel chosen is critical for long serviceability because the grade of the steel not only reflects its hardness, but its resistance to corrosion as well. Unfortunately, there is an inverse relationship, that is, the more the steel can be hardened, the greater its susceptibility to corrosion. In an effort to reduce corrosion problems, Weck specially treats (passivates) its instruments to make the surface less chemically active with its environment. The special Weck high gloss finish reduces the number of pits and crevices on the surface of the instrument, in turn reducing the number of sites where corrosion can occur. These steps are necessary due to the environment, which is very harsh as a consequence of the composition of blood and other fluids, the chemicals used to clean and disinfect the instruments, and finally the methods used to sterilize them. Use Use instruments for their intended purpose only. Cleaning Instruments should be thoroughly cleaned with cleaners such as: Wec-Kleen, Weck Liquid Detergent, Weck Instrument Cleaner or Wec-Wash as soon as possible after use. Once blood or other foreign matter has dried, removal is very difficult. If left in place these contaminants can provide sites for corrosion to begin. Distilled water (ph near 7) is recommended for soaking and cleaning instruments. If cleaning manually, avoid use of wire brushes or abrasive powders as these can create sites for corrosion. An ultrasonic cleaner is recommended. Care After a thorough cleaning, instruments with moving parts should be lubricated using a product such as Weck-Lube or Wec-Kreem to keep surfaces lubricated. It is important to use water soluble lubricating agents only. Sterilization The use of repeated flash cycles is damaging to instruments, therefore a standard steam cycle is preferred. Instruments should be arranged in an open position and instruments fabricated from different metals should be separated to avoid electrochemical reactions. Refer to the sterilizer manufacturer s instructions and AORN guidelines for proper sterilization techniques. Maintenance Routine inspection for damaged tips, jaw alignment, loose box locks, and worn or damaged ratchets can identify problems. If caught early these problems can often be repaired at a much lower cost than the replacement price of an instrument which has become damaged beyond repair. Your Weck sales representative will be happy to show you our quality care and cleaning products, set up an instrument inspection program, and review our extensive repair capabilities. Phone Toll Free: 800-523-6507 Fax: 800-332-2308 361
FIBEROPTIC CABLE CARE By following the simple guidelines below, you can extend the life of your fiberoptic cables from Pilling Weck. The fibers in the cables are made of glass, which breaks under stress. Therefore, avoid stretching your cable, twisting it into sharp angles, or using sharp or pointed objects on or near the cable. Fiber breakage over 30% can substantially reduce light output and the cables should be replaced. For maximum comfort and maneuverability, use the gown clips to secure the headlamp cable to the surgeon s gown. Do not alter your cable s original design of fabrication. The bundle size has been matched to the instrument aperture for maximum light output. NOTE: A larger aperture cable will not increase light output of a smaller aperture instrument. Any cuts or punctures can make the cable unsafe. It should be taken out of service immediately. Cleaning Use a soft-bristle brush with mild soap in lukewarm water to remove debris. Rinse thoroughly, first in warm tap water, then in distilled water. Synthetic detergents or oil-based soaps can be absorbed into the cable. If these substances leak out of the cable during a procedure, they will likely cause tissue damage. Disinfection Cables may be soaked briefly in disinfecting solutions, for maximum of 10 minutes. It is recommended, however, that the solution manufacturer s instructions and time limits be consulted. Sterilization The following sterilizer types are recommended for use with your cables: STANDARD GRAVITY (STEAM) HIGH-SPEED INSTRUMENT (FLASH) ETHYLENE OXIDE (ETO) STERIS To avoid contact with sharp or pointed objects during sterilization and storage, use our special sterilization trays. Make sure your autoclave is working properly and that specific instructions and exposure periods are followed. The small bubbles that may appear in the tubing during steam autoclaving will not harm the cable and will eventually dissipate. After sterilizing, allow the cable to cool slowly at room temperature. Rinsing in cold water will cause fiber breakage and a reduction of light output. 362 Phone Toll Free: 800-523-6507 Fax: 800-332-2308
Troubleshooting, otherwise referred to by some of us as fire fighting, hoping to lead to fire prevention in the care and handling of surgical instrumentation. The most common problems with instruments are discoloration, pitting, staining, spotting or actual rusting. In the event of chrome instrumentation it is literally the cracking, fissures, and popping off of segments of the chrome finish. In any of the above instances it leads to a short life of surgical instrumentation. It is necessary to endeavor to find the cause and the cure for the problem. What we at Pilling Weck hope to do in this chapter is to help you identify some of the problems its cause and solution for the problem. Light Colored Spotting Cause: Spotting literally can come from water droplets, residuals of mineral deposits within the water (sodium, calcium, magnesium) drying onto the surface of the instrument. Solution: If it is happening after the washersterilizer, it could be the final rinse cycle needs adjusting. Follow the autoclave manufacturer s instructions if it happens after a sterilization cycle, it may need filtration on the stream line, and you do not see it after the washer-sterilizer cycle. If it is hand washing, one needs to look at making the final rinse in distilled water or reverse osmosis if that is not already being done. Dark Colored Spotting Cause: Again, could be from the water, or the cleaning, disinfecting, rinsing process. Not having the correct measurement of solutions could also be a cause. Solution: Prepare all solutions for cleaning, rinsing and disinfecting correctly using distilled or demineralized water as the final rinse, free of chloride with a ph value as close to 7.0 as possible. Rust Colored Film Cause: Water softeners, dust or a dust-like film under certain conditions, if there has been hospital construction where debris from piping has been left on the inside of the steam pipes during installation of new lines, tampering with the lines can virtually leave a residual. This should be alleviated after a while. If the area in the country the facility is located in has a tendency to have a high iron compound within the water, the iron is likely to be deposited on the instrumentation. Solution: Filtration of the water or steam lines coming into the mechanical washers or sterilizers. Contacting the hospital engineering staff and your water supply district to identify the exact reasoning for the discoloration, whether it is water softeners, debris or iron and getting it out of your water supply or at least the sinks and areas where instruments are processed. Brownish Stain Cause: Brownish stain or a dull blue-brown cast to the instrument frequently is some type of chromic oxide film that can be caused by some type of copper deposits or from detergents or cleaning agents high in poly-phosphates which cause a copper solubilizing action in the parts of the sterilizer or cleaning equipment. Solution: This can be eliminated by experiment with another compound that does not contain a poly-phosphate, measure the quantities more accurately and fill with cold water if you have copper water pipes. Oxidation tints may be removed by rubbing and thoroughly cleaning or placing the instrument in an acid type cleaning agent for a short period of time and thoroughly rinsing. Phone Toll Free: 800-523-6507 Fax: 800-332-2308 363
Blue-Gray Stain Cause: Many times come from cold sterilizing agents. Solution: Changing the solution frequently so as not to have any evaporation change in concentration, making sure that it contains a rust inhibitor to minimize the discoloration of the instrument and definitely making sure the instrument is even allowed by manufacturers recommendation to be cold sterilized. Many metals are not able to withstand cold sterilizing agents. Make sure when using cold sterilizing agents, distilled water is used in the final rinse or sterile water if going straight to a patient. This should also help, if the instrument is being put into storage to eliminate discoloration as we neutralize the ph of the metal surface. Yellow-Brown Discoloration Cause: This may be protein residuals, improperly cleaned surface, proteins left on the surface for a long period of time and then not thoroughly cleaned. Solution: Proper cleaning, using a good detergent and considerable rubbing but not done with an abrasive or anything that will scratch the surface of the instrument. Purple-Brown (Iridescent) Discoloration Cause: Exposure to ammonia. Amine crystals within the steam line. Instrument detergents that contain ammonia in the compound makeup can be the problem. Saline solutions, blood plasma, potassium chloride and a number of other compounds can be a cause. Detergents with a high ph can cause discoloration. Solution: Use distilled and demineralized water in the final rinse. Check the amine exposure in the steam coming into the sterilizer, filtration may be a solution. Changing the type of detergent from an ammonia base to one of a non-ionic detergent may be a solution depending on the manufacturer s recommendations. Maintain a detergent with a neutral ph. Separate metal in the cleaning and operation of any ultrasonic, washer-sterilizer, or washer-decontaminator so that electrolysis does not take place and avoid detergents with a chloride base. Pitting Cause: Pitting can be caused by the instrument being exposed to high saline solutions, chlorides, iodides, tincture of iodides, improper or impure disinfectants in cleaning agents solution can also cause pitting, which is actually removing, of part of the passivation surface which eventually will lead to rust, none of which of the above instruments can be used again in a surgical procedure without refinishing and in some instances replacement. Solution: Being conscious of what instruments are being exposed to an minimizing the duration of that exposure as much as possible. For example, in the Operating Room, just as a surgical scrub wipes down the instrument prior to handing it back to the surgeon making sure the instruments are minimally exposed to sodium chloride for irrigation, exposed to body secretions that again contain sodiums and chlorides in order to minimize any kind of pitting or corrosion to the instrument over a long period of time. 364 Phone Toll Free: 800-523-6507 Fax: 800-332-2308
Corrosion There are many different types of corrosion. Corrosion can start in an instrument when the natural protective passivation surface or coating of the stainless steel instrument is destroyed by some means, usually chemically, elemental exposure or some type of contact exposure. We are going to identify each one of the types of corrosion; be it surface corrosion, stress, abrasive corrosion, or mishandling to help you in identifying the means in which to eliminate any further problem with your facility s instrumentation. Each one of the types of corrosions will be identified and some of the ways they can be minimized: Stress Corrosion An instrument whose passivation layer has been destroyed by the influence of strong acids or caustics or the influence of a heavy metal. Anodized aluminum instruments in trays are particularly susceptible to this type of process. Cause: Both highly acid and highly alkaline solutions or those containing caustics are those causing the surface corrosions that you see on anodized aluminum sets or instruments. It also can be caused in the manufacturing process but can also be a result of poor handling of the instrumentation. Crevice Corrosion Crevice corrosion looks like rust blisters in small crevices of the instrument or where parts are joined together. It is usually localized and most times will be identified when sent back to the manufacturer for analysis. Abrasive Corrosion Abrasive corrosion is a friction type of corrosion caused by improper cleaning. It occurs in places such as box-lock, where either insufficient cleaning or lack of lubrication on instrumentation that do need lubrication in the joints. Very fine metal roughness causes abrasive rubbing of metal, damaging the passivation of the instrument and again causing a corrosion. Prep Blades Prep blades will rust if left in a moist environment. The blades are made of carbon steel not out of stainless. This is due to carbon steel will keep sharpness for a longer period of time. If you need to sterilize and leave for long period of time. They can be ETO sterilized. Do not sterilize with the blade inside handle, the blade will rust and will be unable to remove from handle. Solution: To avoid the damage, it is imperative that the properties of the steam are analyzed so they do not contain high quantities of chloride ion as in small quantities in the water can cause the formation of stress corrosion and cracks as shown in the box-locks and ratchets. Note: The appearance of the stress corrosion crack may be mistaken for a forced stress crack due to the over-stressing of the instrument, however the history would have to be known that there was not misuse of the instrument. Phone Toll Free: 800-523-6507 Fax: 800-332-2308 365