Quality Assurance, Patient and Provider Safety


Adverse outcome (N = 7,740)

% of claims

Median payment ($)

Range of payment ($)

Death

29

338,000

353–17,934,000

Nerve damage

19

92,650

394–10,716,000

Permanent brain damage

10

1,216,950

5,950–35,960,000

Airway trauma

7

72,000

34–2,115,000

Eye damage

4

97,600

37–3,335,000

Injury to newborn

3

667,069

3,966–15,822,000

Stroke

3

301,250

7,050–24,966,195

Pneumothorax

3

62,900

465–13,950,000

Back pain

3

26,400

2,240–1,782,500

Headache

3

18,300

884–874,500

Aspiration pneumonitis

3

301,750

573–3,450,000

Myocardial infarction

2

218,000

7,600–1,810,500

Burn, thermal

2

49,995

5,025–844,800

Skin reaction

2

21,788

488–727,500

Awareness

1

37,463

1,940–846,000

Meningitis

1

101,219

4,608–873,000



The publication of guidelines by the ASA for managing issues with high rates of adverse outcomes has led to a significant decline in these adverse outcomes (Table 31.2). For example, difficult airway management during induction of anesthesia has long been regarded as one of the most challenging issues in anesthesia patient safety. However, an analysis of claims associated with difficult airway management during induction of anesthesia shows a marked, statistically significant decrease in the incidence of death and brain damage (62 % vs. 35 %, p < 0.05) in the period after the publication of the ASA Difficult Airway Algorithm (1993–1999), when compared with period before the publication of the airway guidelines (pre-1993). The ASA Difficult Airway Algorithm has been reproduced in Appendix A.


Table 31.2
ASA Standards for Basic Anesthetic Monitoring


























































Standard 1: Qualified anesthesia personnel shall be present in the room throughout the conduct of all general anesthetics, regional anesthetics, and monitored anesthesia care

Standard 2: During all anesthetics, the patient’s oxygenation, ventilation, circulation, and temperature shall be continually evaluated

Oxygenation

Oxygen analyzer for inspired gases
 
Observation of the patient
 
Pulse oximetry

Ventilation

Auscultation of breath sounds
 
Observation of the patient
 
Observation of the reservoir bag
 
Capnography (carbon dioxide monitoring)

Circulation

Continuous ECG display
 
Heart rate and BP recorded every 5 min
 
Evaluation of circulation
 
Auscultation of heart sounds
 
Palpation of pulse
 
Pulse plethysmography
 
Pulse oximetry
 
Intraarterial pressure tracing

Temperature

Monitor temperature when changes are intended, anticipated, or suspected



Challenges Facing the Anesthesia Provider


The operating room is a unique environment and presents challenges to even the most vigilant anesthesiologist. Environmental factors such as noise, multiple alarms, and continuous movement through the operating room of members of the team can all distract attention. Human factors like fatigue and sleep deprivation can also affect monitoring and cognitive tasks. In addition, with the emphasis on enhanced productivity, “production pressure” may force errors and compromise patient safety.

Automated information systems that provide automated anesthesia recordkeeping have become increasingly popular. They have been shown to be of great benefit in support of patient care and safety, and enhancement of clinical quality improvement programs. These systems are increasingly being implemented in various anesthesia departments to support a number of functions, including real-time clinical decision support.


Steps to Ensure High Quality Anesthesia Care and Patient Safety


In order to optimize patient safety and ensure high quality care, the following principles should be taken into consideration by the anesthesia practitioner.

1.

Make patient safety a priority. Be an advocate for your patient, always.

 

2.

Thorough planning . Follow the Boy Scout motto of “Be Prepared.” Practice meticulous preoperative planning, and formulate a plan for intraoperative as well as postoperative care. Have a back-up plan in mind. However, at times, it may not be possible to plan far ahead because of the unpredictable nature of the operating room environment. Even when under pressure, slow down, think things through rationally and clearly and formulate a plan of action.

 

3.

Vigilance. Monitoring the patient involves not only electronic monitoring but also astute clinical observation. Chest rise, mucus membrane color, furrowing of the brow are just a few signs that can provide a wealth of information about the patient. Be aware of what is happening in the operating room at all times, and keep an eye on what’s going on across the drapes. Listen out for indicators of potential problems like for the increasingly frequent sound of the suction catheter heralding an increase in blood loss.

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Sep 18, 2016 | Posted by in ANESTHESIA | Comments Off on Quality Assurance, Patient and Provider Safety

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