mod 12 part 1.pdf

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INTRODUCTION
It has been said that "safety is no accident," and that statement couldn't
be more true, especially for healthcare professionals who are responsible
for keeping patients, employees and visitors free from injury. Safety
requires ongoing education, safeguards, proper planning and the
combined implementation of safety systems to reduce risks, prevent
injury and save lives. The Central Service (CS) decontamination area is a
perfect example of how safety systems and due diligence is essential for
ensuring safety. Employees are educated in biohazard safety and must
follow specific regulations, such as those established by the Occupational
Safety and Health Administration (OSHA), to reduce the risk of injury.
This chapter will identify common risks found in the CS work areas and
discuss ways to minimize the risk of injury.
RISK MANAGEMENT
Risk management is a method used to assess the risks of a specific
activity and develop programs to reduce that risk. It also involves injury
prevention and claims management (the settlement, defense and
prevention of lawsuits). Healthcare facilities must effectively manage
injury prevention for patients and employees as part of a risk
management program. Various authorities, including The Joint
Commission (TJC), require that healthcare facilities develop and
implement procedures to ensure that they meet minimum safety
standards- prevent accidents and/or injuries, and ensure accurate
reporting and follow up to help prevent similar incidents. After a situation
is examined and hazards or unsafe practices have been discovered, risk
management personnel ensure that corrective actions are taken to
improve systems, behaviors and/or physical conditions to help prevent
employee and patient accidents and injuries. as well as the
manufacturer's Instructions for Use (IFU), standards and regulations, and
CS technicians support patient safety.
COMMON WORKPLACE SAFETY HAZARDS
All jobs involve some risks. The key to working safely in any work
environment is to understand those risks and take appropriate steps to
minimize them. CS technicians must understand potential hazards and
pay close attention in work areas within and sometimes outside of their
department. The belief that "an accident or injury will never happen to
me" creates a false sense of security that results in many injuries each

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year. Following safety protocols and incorporating them into all work
practices is necessary for preventing injuries and accidents.
Central Service Occupational Hazards
In CS, there are three different types of occupational hazards: physical,
biological and chemical hazards. Some of those occupational hazards can
be present in all areas of the department. Other hazards may be confined
to a specific work area.
Physical safety hazards may be caused by the environment and the tasks
performed within that environment, Due to the nature of the tasks
performed, there are many potential physical hazards in the CS
department. Physical hazards may include: wet floors, cluttered
walkways, heavy carts and sharp instruments. Fire is also a physical
safety concern. Biological safety hazards (infectious waste and blood
borne pathogens) can potentially be found in any area of the department.
Obviously, the decontamination area is the main area of concern for
biological hazards.
Chemical safety hazards may be found throughout the work area. For
example, solutions used in the decontamination area, sterilants used in
the sterilization area and some patient care products may pose chemical
hazards within the department. The following sections examine general
safety hazards and then outline specific safety hazards by work area. The
risk of injury from all of these hazards can be minimized by following
safety protocols.

GENERAL PHYSICAL HAZARDS
Ergonomic concerns
General physical hazards include those related to ergonomics, slips, falls,
electrical, safety and sharps. Ergonomics is the process of changing work
or working conditions to reduce physical stress. CS technicians are
exposed to many ergonomic stress factors, such as repetitive motion,

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lifting and pushing. Ergonomic stressors that employees may encounter
include:
Force-Heavy lifting or manipulating equipment or instrument sets.
Repetition - Using the same motion, or series of motions, continually or
frequently.
Awkward positions - Assuming positions that place stress on the body,
such as reaching or twisting while lifting.
Vibration - Rapid oscillation of the body or a body part.
Contact stress Continuous pressure between the body and a sharp
edge.
Exposure to these stressors can cause numerous problems, including
ligament sprains, joint and tendon inflammation, pinched nerves,
herniated spinal discs and other injuries.
Training can help employees to:
Recognize the signs and symptoms of injuries, so they can respond to
them.
Report potential problems.
Recognize jobs/tasks that have ergonomic stressor.
Simple changes, such as stretching before work, shifting position,
learning and practicing good body mechanics and breaking up repetitive
activities can help employees reduce the risks of ergonomic injuries.
Proper lifting and pushing movements can also prevent injuries. When
loading and unloading carts from dumbwaiters or elevators, or receiving a
cart into the department, it is essential to check the weight on the cart
before attempting to move it.
Ensuring that the wheels are straight, and that they will roll over door
spaces or uneven edges is also important, as is unloading some items to
lighten the cart if it is too heavy to move easily.
Slip and Fall Concerns
Slips and falls are always a concern in the CS department. Mobile
equipment and ever-present wet floors increase fall risks. To reduce these
risks, mobile equipment should be parked away from common traffic
areas. Areas that often have wet floors, such as in the decontamination
area, around the cart wash exits, and washer unload areas, must be kept
as dry as possible, and spills should be wiped immediately. Non-slip
footwear should be worn and attention should be given to slippery floors.
Signage, such as the wet floor alerts people to the potential hazard.
Electrical Safety Concerns
Burns and shocks from electric equipment can result if safe handling
precautions are not observed. Carefully check all electrical cords to
ensure they are intact, with no breaks in the insulation. Electrical cords on
mobile equipment run a greater risk of being kinked or run over by rolling
carts which can make the equipment unsafe.
277 All plugs on electrical
equipment must be three-pronged and grounded, and all electrical outlets
must accommodate these plugs. Inspecting electrical cords for breaks and
plugs for bent prongs is a responsibility of CS technicians. Identifying and
reporting a potential hazard during cleaning or delivery can prevent
injuries to patients and staff.
Sharps Concerns
Cuts and puncture injuries from sharps can happen in any area of the CS
department. Sharp instruments can break the skin's surface and produce
puncture wounds, lacerations and abrasions. If the injury occurs in the
decontamination area, these injuries can result in exposure to disease.
Some general precautions to prevent sharps injuries include:
Handling all sharps with care.
Not grasping several objects at the same time.
Ensuring that sharp ends point away from any part of one's body during
transport.
Placing all disposable sharps, such as needles and blades, in the
appropriate sharps container.

General Chemical Hazards
Although most chemicals used in CS are found in the decontamination
area, chemical hazards may be found in other areas of the department,
as well. Splashing chemicals is a common cause of eye injuries, so the
use of eye protection is required. Eye wash stations are also required in
areas where chemical injuries are a concern.
Hazardous Substance Concerns
Each state categorizes certain chemicals and substances as hazardous.
Each CS department should have an easily accessible, understandable,
and current list of all hazardous substances with which employees could
come in contact. Most facilities today have a comprehensive computerized
hazardous chemical list. If employees are required to perform known
hazardous tasks, it is important that they understand the safety
procedures developed for that task. Prior to performing such tasks,
employees must be given information about the hazards to which they
may be exposed. This information should include identification of specific
hazards, use of PPE, recommended safety measures and emergency
response procedures. Employers should take measures to minimize
hazards to employees. These could include increased area ventilation,
respirators, presence of other employees to assist, and the rehearsal of
emergency procedures.
Safety Data Sheets
An SDS (formerly called material safety data sheet - MSDS) contains
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important information about product materials and properties that
employees must know to work safely with any given product. SDS are
developed and provided by the manufacturer of the product, and they are
specific for each product. SDS contain at least the following information:
Product identification Product name, manufacturer's name, address and
telephone number, product item number (manufacturer's identification)
and synonym names.
List of hazardous ingredients.
Physical data - Vapor pressure, evaporation rate, solubility in water,
freezing and boiling points, specific gravity, acidity (pH), vapor density,
appearance and odor.
Fire and explosion information - Flash point, flammable units,
extinguishing media, special firefighting procedures; and unusual fire and
explosion hazards.
Reactivity data - Stability, incompatibility, hazardous decomposition
products and conditions contributing to hazardous polymerization.
Health hazard data Effects of overexposure.
Storage recommendations - Incompatible materials and storage
temperatures.
Emergency and first-aid procedures.
Spill or leak procedures, spill management and waste disposal methods.
Protection information and control measures.
Special precautions.
Employee Monitoring
To prevent potential health hazards to workers, OSHA has established
permissible exposure limits (PELS) for many chemicals used in sterilant
and disinfectant formulations. These include ethylene oxide (EtO),
hydrogen peroxide (H,O,), ozone (0,) and others. Glutaraldehyde is a
chemical commonly used in CS as a high-level disinfectant. The National
Institute for Occupational Safety and Health (NIOSH) recommends that
exposure to glutaraldehyde be under 0.2 parts per million (ppm) time
weighted average over an eight-hour work shift. The American
Conference of Governmental Industrial Hygienists (ACGIH) recommends a
ceiling value of 0.05 ppm, which should not be exceeded at any time.
Healthcare facilities are required by OSHA to:
Provide adequate ventilation systems.
Establish safe work operating procedures.
Provide PPE.
Implement other methods to ensure that occupational exposure limits
are not exceeded in the workplace.
Fire and Explosions
The presence of large volumes of combustible materials and flammable
substances poses unique risks. The large combustible loading created by
single-use items and their wrappings in 279storage and as trash is especially
dangerous. When these materials burn, large quantities of highly toxic