1. Institute for Safe Medication Practices
High-alert Medications: Understanding System Base Causes and Practical Error Reduction Strategies
Hedy Cohen, RN, BSN, MS
Institute for Safe Medication Practices
© 2006 Institute for Safe Medication Practices

3. Are medication errors really that bad…?
© 2006 Institute for Safe Medication Practices

4. The Institute of Medicine (IOM)
44,000 to 98,000 deaths per year from medical errors
- more than from breast cancer or AIDS
7,000 to 16,000 deaths per year from medication errors
- 1 out of 131 outpatient and
- 1 out of 854 inpatient deaths
To Err is Human:
Building a Safer Health System, 1999
IOM report released late in December of that year, before senate and hose recess began, slow day on the hill and in the news…..
$2 billion/yr in hospital costs from preventable adverse drug events (ADE’s)
© 2006 Institute for Safe Medication Practices

5. Agency for Healthcare Research and Quality (AHRQ)
5 per 10,000 doses administered cause serious harm
translates into 50 serious ADEs per month
5.3% of orders written contain a medication error
Only 1.5% of ADEs in hospitals are ever reported
AHRQ:
“Research in Action: Reducing and Preventing Adverse Drug Events
to Decrease Hospital Costs”

6. TJC National Patient Safety Goal
Improve the safety of using high-alert
medications
a. Remove concentrated electrolytes (including, but not limited to, potassium chloride, potassium phosphate, sodium chloride >0.9%) from patient care units
b. Standardize and limit the number of drug concentrations available in the organization

8. Verbal Order for 18 Month Old
“Get this kid morphine .8”

9. © 2006 Institute for Safe Medication Practices

10. Why do Medication Errors Occur?

11. Human Factors
The study of the interrelationships between humans, the tools they use and the environment in which they live and work
Success comes with improving the human-system interface
How have we gained knowldege about human error? Through the study of human factors…the study of human factors
The study of human factors generally deals with the interactions between people and systems, machines, and other people…..
Human factors is definded as the study of the interrelationships between human, the tools they use, and the environment in which they live and work.
Much of the work in human factors is on improving the humns-system interface by designeing better systems and processes…this is where the bulk of our course will take us.
People with machines: human error often cited as the cause of medical mishaps, what is less frequently acknowledged is the notion that poorly designed human-machine interface can facilitate human error has design of machines taken into account human capabilities, limitations, and characteristics?
Humna receiving input from a cahine, processin that input, and crating an outpautt that goest ot he machine….sensation and perception play a role
Inefficient, frustrating, error prone, takes too long to use or train, does not fit into the work flow or work area, use of the wrong tool, avoid using the tool, not using all the tools capabilities,
Human factors engineering….
To understand human factors and these interrelationships between people and…we need to undertand human congintion.
© 2006 Institute for Safe Medication Practices

12. PARIS
IN THE
THE SPRING

13. Individuals Limitation of human performance limited short-term memory
time constraints
normalization of deviance
limited ability to multi-task
interruptions
stress
heuristics
fatigue and psychological factors
environmental factors

14. Medication System Key Elements
Drug Device Acquisition, Use, and Monitoring
Environmental Factors, Staffing Patterns and Work Flow
Staff Competency and Education
Patient Education
Quality Processes and Risk Management
Patient Information
Drug Information
Communication of Information
Drug Labeling, Packaging, and Nomenclature
Drug Storage, Stock, Standardization, and Distribution

15. No maximum dose warnings
Diagnosis or allergy not communicated
Ambiguous drug order
Inadequate
patient education
Patient
Information
System
Communication
System
Drug Info
System
Other
systems
The latent failure model of complex system failure modified from James Reason, 1991
© 2006 Institute for Safe Medication Practices

16. High-alert Medications
Small number of medications that have a high risk of causing injury if misused
Errors may or may not be more common with these than with other medications, but the consequences of errors may be devastating

17. High-alert Medications
Adrenergic agonists
Adrenergic antagonists IV
Anesthetics agents
Antiarhythmics IV
Antithrombotic agents
Carioplegic solutions
Chemotherapeutic agents
Dextrose, hypertonic
Dialysis solutions
Epidural or intrathecal drugs
Hypoglycemics, oral
Inotropic drugs
Liposomals
Moderate sedation agents IV, oral for children
Narcotics/opiates
Neuromuscular blocking agents
IV heparin and oral warfarin, thrombolytics
Radiocontrast agents, IV
Total parenteral solutions.
© 2006 Institute for Safe Medication Practices

18. Specific High-alert Medications
Nitropruside injection
Potassium chloride concentrate IV
Potassium phosphates injection concentrate
Promethazine, IV
Sodium chloride for injection concentrate
Sterile water for injection, inhalation and irrigation
Colchicine injection
Epoprostenol (Flolan) IV
Insulin
Magnesium sulfate injection
Methotrexate tablets
Oxytocin IV
© 2006 Institute for Safe Medication Practices

19. High-alert Medications
Collective thinking from:
Reports submitted to USP-ISMP MERP
Reports in the literature
Input from practitioners
Input from safety expertsISMP advisory board

20. High Risk Patient Populations
Patients with renal/liver impairment
Pregnant/breast feeding patients
Neonates
Elderly/chronically ill
Patients on multiple medications
Oncology patients

21. Primary Principles in Error Reduction
Reduce or eliminate possibility of errors
Make errors visible
Minimize the consequence of errors
© 2006 Institute for Safe Medication Practices

22. Rank Order of Error Reduction Strategies
Forcing functions and constraints 
Automation and computerization
Standardization and protocols
Checklists and double check systems
Rules and policies
Education / Information
© 2006 Institute for Safe Medication Practices

23. Key Safeguarding Strategies
Simplify - reduce steps and number of options
Standardize options
Externalize or centralize error prone processes
Differentiate items (appearance, location)
© 2006 Institute for Safe Medication Practices

24. Key Safeguarding Strategies
Reminders
Improved access to information
Use of constraints that limit access or use
Forcing functions
Failsafe
Use of defaults
Failure analysis for new products and procedures
© 2006 Institute for Safe Medication Practices

25. Simplify Decrease number of available sizes and concentrations
a single heparin size/concentration is available
reduce the number of vials available

26. Standardize Order Communication
Create, disseminate and enforce ordering guidelines
create a negative list for dangerous abbreviations
eliminate trailing zeros; use leading zeros
standard procedure for verbal orders
standardized concentrations of critical care drug infusions, weight-based heparin protocol, etc

27. Standardize Order Communication
Eliminate acronyms, coined names, apothecary system, use of non-standard symbols, etc.
TPN (IV nutrition or Taxol, Platinol, Navelbine)
Irrigate wound with TAB

28. Externalize or Centralize
Centralize preparation of intravenous solutions
prepare pediatric IV medications in pharmacy
outsource
Use commercially prepared premixed products
premixed magnesium sulfate, heparin, etc.

29. finished files are the result of years of scientific study combined with the experience of many years
© 2006 Institute for Safe Medication Practices

30. Finished Files are the result oF years oF scientiFic study combined with the experience oF many years
© 2006 Institute for Safe Medication Practices

32. Differentiate
Use tall man lettering
DOBUTamine
DOPamine

33. Differentiate Items by Senses
Tactile cues
tape on regular insulin vial for blind diabetics; octagonal shape of neuromuscular blocker container
Use of color
red color to “draw out” warnings; appearance of solutions, tablets, etc.; “color coding”
Sense of smell
useful in conjunction with check systems

34. Differentiate Similar Drugs
Purchase one of the products from another source
hydroxyzine from company B when company A’s hydroxyzine 50 mg/mL injection looks similar to their hydralazine 50 mg/mL injection
Apply upper case lettering to dissimilar portions of the name
Use other means to “make things look different” or call attention to important information
stickers, labels, enhancement with pen or marker
Dopamine vs. Dobutamine

36. © 2006 Institute for Safe Medication Practices

37. © 2006 Institute for Safe Medication Practices

39. Separate Problem Products
Look-alike packaging
store hydroxyzine 50 mg tablets and
hydralazine 50 mg tablets far apart
Look-alike drug names
computer mnemonics designed so similar names do not appear on same screen i.e.,
carboplatin/cisplatin; vinblastine/vincristine not listed in order on preprinted chemotherapy form

40. Reminders
Place auxiliary labels on containers for clinical warnings and error prevention messages
check for pregnancy, lactation
note about cross allergy between aspirin and ketorolac
reminder on Norvasc container about Navane confusion
maximum dose warning

41. Reminders
Incorporate warnings into computer order processing and selection of medications from dispensing equipment
Place labels on IV lines to prevent mix-ups between IV lines and enteral feeding lines
Protocols, checklists, visual and audible alarms

42. Sum the digits below reading left to right: 1000+20+1000+30+1000+40+1000+10=?

43. Checklists and Double-checks
Independent double-checks
Develop checklists around the use of high alert drugs
© 2006 Institute for Safe Medication Practices

44. Access to Information Use computerized drug information resources
Information at point of care
Computer order entry systems that merge patient and drug information, provide warnings, screen orders for safety, etc.
Readily available texts in current publication
Pharmacists presence in patient care areas
Use of medical records librarian at CME and on rounds

45. Limit Drug Use Peer reviewed drug approval process Restricted therapy
attending physician cosigns chemotherapy orders; consult to specialty required
Staff credentialing
Automatic reassessment of orders or rewrites
Prescribe autostop to limit dose or duration
Use medications with reduced dosing frequency
Parameters to change IV to PO as appropriate

46. Establish Area Specific Guidelines for Unit Stock Medications
Assess unit-specific needs and agree on requirements, accounting for known safety issues
Standardize and purchase pharmaceuticals in unit dose or pre-mixed containers as much as possible
Acquire or enhance safety in use of automated drug distribution systems
Standardize emergency equipment and medication storage on each unit
© 2006 Institute for Safe Medication Practices

48. Devices

50. Forcing Functions
Makes errors immediately visible. Ensures that parts from different systems are not interchangeable; forces proper methods of use (lock and key design)
oral syringe should not be able to fit onto an intravenous line
example: preprinted order forms or computer options that “force” selection from limited number of medications, available dosages, etc.

51. Failsafe Use products that design error out of the system
automatic fail-safe clamping mechanism on intravenous infusion pumps
dangerous order can’t be processed in computer system (hard stops)
smart pumps (hard stops)

52. Redundancies Independent checks
probability that two individuals will make the same error is small; therefore, having one person check the work of another is essential
calculations for pediatric patients, high alert medications, etc., performed independently by at least two individuals, with identical conclusions

53. Use of Defaults
Pre-established parameters take effect unless action is taken to modify
clinical pathways
device defaults
morphine concentration default for PCA pump
Pharmacy IV compounder defaults to drug concentrations available in pharmacy

54. FMEA for New Products
Formal safety review (e.g., formulary committee, risk management committee) of new medications and drug delivery devices
examine for ambiguous or difficult to read labeling, error-prone packaging, sound-alike product names, etc.
use failure analysis to determining safety of medications and devices and to guide error prevention methods in a proactive manner

55. Insanity is doing the same things the same way and expecting different results
Albert Einstein
© 2006 Institute for Safe Medication Practices