Function
The Institute of Medicine defines a medical error as "the failure of a planned action to be completed as intended or the use of a wrong plan to achieve an aim."[1] It is essential to recognize the differences between medical malpractice and medical error. An adverse event in a healthcare setting may be attributed to medical error while not meeting the threshold of malpractice or negligence. Medical errors generally result from the improper execution of a plan or improper planning of a method of execution. Medical errors can also occur during preventative care measures, for example, if a provider overlooks a patient's allergy when administering medication. Thus, the complexity of the occurrence of a medical error can range widely and manifest in any aspect of patient care, from admission to discharge and in the outpatient setting. It is essential to recognize that medical errors may occur without causing direct harm to the patient. Regardless, it is critical to evaluate the cause of all medical errors, whether or not the patient is harmed, and develop guidelines and strategies to prevent future occurrences.
If medical errors harm the patient, they are classified as preventable adverse events or sentinel events. Sentinel events are preventable adverse outcomes that warrant urgent investigation to determine the cause of the error.[7] These events are not only debilitating to patients but can also impact the livelihood of healthcare providers. It is important to note that sentinel events are unrelated to the patient's underlying medical condition and are attributable to improper medical intervention or improper technique. If a patient receives medication and experiences an anaphylactic reaction, it must be determined whether the reaction was due to the medication itself or the provider's failure to review the patient's allergies before administration. Thus, these cases must be critically reviewed to delineate whether or not the etiology of the error was preventable, which is often a challenging task.
Root cause analysis (RCA) is a process for identifying the causal factors underlying variations in performance. In the case of medical error, this variation in performance may result in a sentinel event. A standardized RCA process is mandated by the Joint Commission to identify the cause of medical errors and thus allow healthcare institutions to develop strategies to mitigate future errors.[7] Despite its wide adoption in the business, engineering, and industrial sectors, its use in the medical field has been limited. It is important to note that the RCA process aims not to assign individual blame but to identify lapses in system-level processes that can be restructured to prevent patient harm and reduce the likelihood of future sentinel events. Thus, identifying the root cause of a medical error can better direct the need for additional training and resources.
Applying Root Cause Analysis
For accreditation purposes, the Joint Commission requires that healthcare institutions have a comprehensive process for systematically analyzing sentinel events. The RCA process is one of the most commonly utilized tools for this purpose. Through the RCA process, healthcare institutions can optimize patient care and enact measures to mitigate adverse events that compromise patient safety. In addition to improving patient safety and quality metrics, an RCA's purpose includes optimizing process flow and outcomes.
RCA emphasizes lapses in system-level processes. It does not emphasize individual actions. A designated RCA team must be assembled to review and identify necessary changes at the systematic level that can improve performance and reduce the likelihood of a repeat sentinel event.[8] Failure to perform an RCA within 45 days of a sentinel event may result in the healthcare institution being placed on an 'accreditation watch,' which is public information. Repeat violations may result in an onsite review by the Joint Commission that may jeopardize accreditation.[9]
The first step of an RCA is to form an interprofessional team to analyze and define the problem. There should be a designated process to communicate with senior leadership throughout the journey while meeting deadlines internally and with the Joint Commission. After identifying the problem, the team should evaluate systematic factors that may have contributed to the error. Throughout the process, collecting data regarding the potential underlying causes is important. The team should propose and implement immediate changes so that a repeat sentinel event does not occur during the RCA process. Next, the team should evaluate the list of root causes and consider their interrelationships. During the RCA process, the team will explore risk-reduction and process improvement strategies to prevent future errors at the systematic level. After identifying process improvement strategies, the team must communicate with senior leadership and key stakeholders to evaluate whether the proposed process modifications are acceptable.
The Joint Commission has created a framework and series of 24 questions to aid in organizing an RCA. This framework should be utilized as a general template when preparing the RCA report that will eventually be submitted to the Joint Commission after thorough evaluation. The 24-question framework recommended by the Joint Commission considers various situational factors that may have contributed to a sentinel event. This includes examining the systematic process, human factors, equipment malfunctions, environmental factors, uncontrollable external factors, organizational factors, staffing and qualifications, contingency plans, performance expectations, informational disruptions, communication, environmental risks, training, and technology.[7]
With detailed consideration of each of these topics, an in-depth analysis of the cause of the sentinel event can occur. One factor that makes an appearance in several questions is communication. Communication within the team and with leadership is critical to maintaining organizational structure. It can be difficult to convey messages effectively and efficiently without proper communication systems. Environmental factors should also be examined to determine if any situational issues were ongoing at the time of the sentinel event that may have impacted the outcome. Staffing is another important topic that should be examined during an RCA review to determine if the staff were appropriately qualified, competent, and portioned for their assigned duties.
After discussion, evaluation, and analysis, corrective actions should be developed, identifying areas for targeted improvement. While utilizing the 24-question framework, it is important to always consider causative etiologies because it will help determine the specific area that can be restructured to reduce risk. The root cause analysis should be clear and precise while providing appropriate depth and scope.
The Joint Commission has identified a series of adverse events subject to their purview. Primarily, this would be a sentinel event that has resulted in death or permanent loss of function unrelated to any underlying medical conditions. Alternatively, a sentinel event can also be considered as one of the following, even if the event did not cause death or severe harm:
Patient suicide of any patient receiving care (including emergency department care), treatment, or services within the healthcare setting or 72 hours following their discharge
Full-term infant having an unanticipated death
An infant discharged to the wrong family
Abduction of any patient receiving care, treatment, or services
Elopement of a patient within a healthcare setting, leading to their harm
Hemolytic transfusion reaction requiring administration of blood products
Rape, assault, or homicide of anyone on scene at the healthcare premises
Wrong patient, site, or procedure for all invasive procedures, including surgery
Unintended retention of a foreign body in a patient following surgery
Severe neonatal hyperbilirubinemia
Prolonged fluoroscopy with cumulative dose to the wrong body region
Fire, flame, or unanticipated smoke, heat, or flashes during patient care
Intrapartum maternal death
Severe maternal morbidity
The finalized RCA report must follow a set standard to meet the Joint Commission's requirement. It must include the following:
Participation of the organization's leadership and key stakeholders involved in the process/system under review
Thorough explanation of all findings
Consideration of any relevant or applicable literature
Internal accuracy and consistency, without contradictions or unanswered questions
Case Illustrations with RCA Interventions
Case Example 1
A 42-year-old primigravida woman at 34 weeks gestation was brought to the obstetric emergency department at midnight with complaints of severe headache, blurry vision, and right upper quadrant pain for the last 5 to 6 hours. She noted gradually increasing lower extremity edema and facial swelling as well. She has a history of gestational hypertension and was prescribed labetalol 200 mg twice a day a week before this presentation. On initial evaluation, her blood pressure was 190/110 mm Hg on 2 separate occasions, 5 minutes apart. She had gained 2 kilograms since her last antenatal checkup in the clinic a week ago.
The patient was diagnosed with severe preeclampsia. The senior obstetric resident ordered a loading dose of magnesium sulfate to prevent imminent seizure. The hospital protocol used an intravenous (IV) and intramuscular (IM) regimen where the patient receives a 4-gram (20% concentration) intravenous solution bolus and a 10-gram intramuscular dose (50% concentration) administered as 5 grams in each buttock. The senior resident verbally provided the order for magnesium sulfate administration to the junior resident, who subsequently verbally communicated the order to the nurse.
This magnesium sulfate dosing regimen is complex, with multiple doses in different locations, and was incorrectly prepared by the nurse who felt rushed in an urgent situation. A chart displaying magnesium sulfate's preparation in the drug preparation room was present but had become faded. Therefore the nurse prepared the medication relying on her memory. Before administering the medicine to the patient, as a part of the protocol, she repeated the dose strength aloud to another nurse, who cross-checked it from a printed chart and picked up the error in time. The senior resident also identified the error as the dose was communicated aloud and stopped administering the drug.
RCA with Corrective Measures
A root cause analysis was performed, and measures were taken to avoid this problem in the future. Magnesium sulfate was marked as a high-alert medication, as the Institute of Safe Medication Practices recommended. Furthermore, premixed solutions prepared by the pharmacy for the bolus dosing were instituted instead of requiring nurses to mix this high-risk medication on the unit. The second nurse verification measure was retained, with the second nurse instructed to double-check all doses, pump settings, drug names, and concentrations before administration of any drugs.
Moreover, the RCA recommended that all medication orders be provided in writing and/or entered in the electronic medical record using computerized provider order entry (CPOE) systems, regardless of the urgency of the situation, to avoid any dosing errors. The RCA team emphasized that verbal communication for medication administration should always be avoided. If verbal communications are necessary or unavoidable, the RCA recommended that the nurse taking the order should read back the order given to the prescribing physician to minimize any prescribing errors.
Case Example 2 (The name and date of birth used in this example are imaginative, used for illustrative purposes, and do not represent an actual patient. Any similarities, if noted, are purely coincidental.)
Anna Joy (date of birth October 30, 1991) was admitted to a busy obstetric ward. She was a primigravida woman at 30 weeks of gestation with complaints of intermittent cramping abdominal pain. She had come to visit her sister living in Boston from Spain. The patient's ability to communicate in English was limited, and she preferred speaking Spanish. However, her husband and sister were fluent in English and assisted with translation throughout the history, exam, and admission. The patient was seen by an obstetrician who advised routine investigations for threatened preterm labor and observation.
Another patient Ann Jay (date of birth September 30, 1991), was also admitted to the same obstetric ward. She was 34 weeks gestation and was admitted because of gestational diabetes mellitus with hyperglycemia. Her obstetrician advised an endocrinology referral, and the endocrinologist advised glucose monitoring and insulin administration. The nurse taking care of the patient was provided with the instructions, performed a finger-stick blood glucose check, and informed the endocrinologist about the results over the phone. The endocrinologist advised six units of regular insulin before lunch. The nurse also informed the obstetrician that the patient felt a decrease in fetal movements. The obstetrician advised ongoing observation and fetal kick counts.
The family members of the first patient, Anna Joy, informed the nurse that they were going to lunch. The morning shift nurse later required a half-day leave because of personal issues and quickly handed over her patients to another nurse. The ward was busy and running at full capacity. The new nurse decided to give the insulin injection first as the patient was about to receive her lunch. She did not know that Anna Joy preferred communication in Spanish. The nurse asked a few questions and rushed through patient identification with the help of two unique patient identifiers. She administered the insulin injection to the first patient and later realized it was supposed to be given to the second patient, Ann Jay. The attending obstetrician and the endocrinologist were informed. They took the necessary measures and closely monitored the patient for the next few hours. No inadvertent effects were noted.
RCA with Corrective Measures
A root cause analysis was performed, and measures were taken to avoid this problem in the future. The RCA team noted that the nurse caring for both patients had worked in the hospital for 5 years and was recently transitioned to the obstetric ward. This had never happened to her before. The team recognized that the modern patient care delivery process relies on the efficient and effective integration of an interprofessional care team. A clear, consistent, and standardized communication method between the team members contributes to safe patient care and minimizes the risk of adverse outcomes. The RCA team did not lay blame on the nurse involved. They instead instituted a standardized handoff platform and required all patient handoffs to occur using this format in the future. During shift change, the handoff between clinicians and nurses is pivotal in providing high-quality care. The aim should be to provide the oncoming team with up-to-date, accurate, and complete information. The RCA team outlined clinical education programs for nurses and clinicians to ensure high-quality and effective handoff occurs at every shift change and patient handoff.
They also instituted mandatory use of hospital-based interpreters when communicating with patients who are not fluent in English. The hospital procedure for verifying patient identification using two unique patient identifiers, the name and the date of birth, was retained. However, an additional mandatory step of verifying the patient's identity using an arm-band barcode was instituted before every medication administration. They also instituted the highlighting of patient charts and rooms when patients had similar names and dates of birth.
Case Example 3
A 26-year-old primigravida woman with labor pains was admitted to a busy hospital's labor and delivery suite at 39 weeks of gestation. There were no associated high-risk factors. The patient was admitted to the labor ward and managed according to routine protocol. She progressed in spontaneous labor, but the cardiotocograph showed prolonged fetal bradycardia lasting for 3 and a half minutes at 4 centimeters (cm) cervical dilatation. The fetal bradycardia did not resolve with initial conservative measures.
The patient was transferred to the operating room for a category one emergent cesarean section. A category one cesarean section means the baby should be delivered within 30 minutes of the procedure's decision. It is done when there is an immediate threat to the life of the mother or the baby. The baby was delivered in good condition, with no intraoperative complications. Before closure, the operating obstetrician asked the scrub nurse to perform a surgical count. The scrub nurse reported that there might be a missing gauze piece from the surgical trolley. The count was performed several times by the scrub and the floor nurse at this time. A second on-call obstetrician was called to assist the primary surgeon in checking for the surgical field's missing gauze piece.
The surgical gauze had a heat-bonded barium sulfate marker embedded in the fabric to assist with x-ray identification. An intraoperative x-ray was obtained to evaluate for intraperitoneal gauze, and the results were negative. The case was discussed with the department chief, and abdominal closure was performed. Due to the associated delays, the operative time was increased significantly (2 hours and 30 minutes).
RCA with Corrective Measures
An RCA of the event revealed that there were inconsistent practices regarding surgical count before the initiation of a procedure. Moreover, only one person (the scrub nurse) was charged with making this count. The RCA team highlighted that the surgical count is critical and must be performed in a standardized fashion to eliminate variation and minimize the possibility of human error. They highlighted international standards that recommend standardizing the counting process and systematically tracking the instruments, gauze, and sponges in the sterile field. They instituted World Health Organization's Surgical Safety Checklist as a mandatory step for all procedures regardless of the urgency of the procedure. They also recommended that the counting process be concurrently audible and visual to eliminate errors. The RCA recommended that the counting process should be performed by the scrub nurse and the circulating nurse independently, both before and after every procedure. They emphasized that the best practices for surgical count should always be followed regardless of the clinical situation.
Case Example 4
A 25-year-old man presented for bilateral LASIK surgery at a same-day surgery center. The operating surgeon examined the patient, a community-based surgeon who does not routinely operate at this facility. Informed consent was obtained by the operating surgeon preoperatively. The refractive error was -4 D for the right eye and – 5D for the left eye. The plan was to remove the refractive error altogether. There was a timeout to ensure the correct patient and procedure. The LASIK was started by making corneal flaps on both eyes, which was completed uneventfully. The second step was the excimer laser-guided corneal power correction.
The patient was adjusted on the operating microscope so that the first eye was directly under the excimer laser, and iris recognition was attempted. The machine did not recognize the iris pattern after 3 attempts. The surgeon decided to proceed without iris recognition. The technician thought that this was rare and that they had good iris recognition rates for this month (>98%). However, he did not want to contradict the surgeon.
Before the procedure, the circulating nurse noted that the patient's table was adjusted to the wrong side, and the left eye was under the laser instead of the right. She pressed the emergency stop button, and the treatment was terminated. After identifying the mistake, the surgeon and technician restarted the machine to treat the correct sequence's correct eyes.
RCA with Corrective Measures
Compared to unilateral procedures, bilateral procedures are especially challenging, particularly if the treatment varies between the 2 sides. An example is LASIK, where both eyes are typically corrected simultaneously, and there is no obvious pathology on the eye except for the refractive error. The correction is determined preoperatively, and the result is not immediately titrated. There is a significant chance for wrong-site procedures, given these ambiguities. To avoid this disaster, the RCA team implemented a verification procedure where the optometrist, technician, and surgeon were ALL required to verify each eye's refractive error before the procedure and after programming the laser.
Some advanced laser machines have an inbuilt layer of defense where the iris pattern of the eye is uniquely identified via iris recognition, which helps determine the correct eye and enhances the treatment fidelity. Some treatments, however, do not include iris recognition, and therefore the onus lies on the technicians, nurses, and surgeons to identify the appropriate eye correctly.
Case Example 5
A community clinic treats approximately 110 patients per day. The clinic is run by 2 primary care physicians, with the assistance of 2 nurses and scribes. A 10-year-old boy was brought to the clinic by his parents. The child had a runny nose for the last ten days. On examination, the primary care physician noted simple allergic rhinitis and advised them to use over-the-counter cetirizine. One of the scribes had called in sick that day, so a secretary was assisting the physician. The physician advised the parents that cetirizine is an over-the-counter medication, and they can go to their pharmacy of choice to obtain the medication. After 2 days, the patient's mother returned to the clinic and reported that the child was lethargic. The clinic's front desk stated that they would convey the information to the physician, who was very busy that day. The physician said it is typical for children taking cetirizine to be slightly sleepy. He said that they should inform the parents to ask the child to avoid going to school for the next few days. The message was conveyed to the mother.
The patient's mother, however, decided to take the child to another specialist as she was concerned regarding the sedation. At this visit, it was noted that the child was taking a 10-mg cetirizine tablet 2 times a day, which is higher than typically recommended.
RCA with Corrective Measures
An RCA review was performed at the primary clinic. It was noted that there was a typographical error in the instructions given to the patient, saying 10 mg twice a day instead of 5 mg twice a day, which the physician had intended. The RCA recommended a verification procedure for all prescription recommendations made during the clinic visit. They instituted verbal and written verification with the prescribing physicians of all drugs and doses transcribed by the scribes and/or office personnel to avoid this error in the future. The RCA team also recommended that the physician and the team should read prescription and over-the-counter drug recommendations with their intended doses to the patient/attendant in the clinic from the summary instructions and verify that it matches their notes.
The RCA also mandated a document review for all patient callbacks or return visits before any patient communication is made to avoid such errors in the future.
Case Example 6
All-Eyes Laser Center is a busy same-day ophthalmic laser center with multiple laser procedures being performed throughout the day. The center specializes in retinal and anterior segment lasers.
A 60-year-old man, JM, suffers from chronic angle-closure glaucoma and has been advised to undergo a YAG (Yttrium-Aluminum-Garnett) laser iridotomy. This procedure involves creating a small hole in the peripheral part of the iris to increase the aqueous flow between the anterior chamber and the posterior chamber to prevent a possible angle-closure attack and/or further glaucoma progression.
This was an unusually busy day at the laser center. The laser surgeon was running behind. There were 5 patients ahead of JM, and there was an anticipated delay of around 2 hours. As is the practice at the center, the nurse practitioner prepares the patients before the laser, and then the laser surgeon performs the procedure. The preparation involves checking the history, confirming the examination findings, and then instilling eye drops to prepare the procedure's eyes. This laser surgeon does 2 types of laser procedures. YAG iridotomy needs the eyes constricted with 2% pilocarpine eye drops, which ensures a good exposure of the peripheral iris crypts where the laser is directed to create a small iridotomy. The second procedure is a YAG capsulotomy. The posterior capsule in a pseudophakic eye is lasered to create an opening to counter an after-cataract posterior capsular opacity and improve vision. The YAG laser platform is a combined platform where both procedures can be performed with one machine.
The surgeon arrived at the laser suite and started the lasers. When JM's turn came, a proper timeout was confirmed, including the correct eye and procedure. However, when the patient was positioned at the laser machine, the surgeon noticed that the pupil was dilated rather than constricted. The surgeon again verified the patient's tag and name and the correct procedure. It was confirmed that the patient was indeed the correct one, and the procedure intended was YAG iridotomy. It would have been dangerous to attempt an iridotomy in a dilated pupil. The surgeon did not proceed with the procedure, and the patient was transferred out of the laser suite. The patient was counseled regarding the error and instructed that he would be rescheduled for the correct procedure in a few days. The error was misattributed to the nurse administering the wrong eye drop, secondary to high patient volume and practice inconsistencies.
RCA with Corrective Measures
A root cause analysis was performed, and measures were taken to avoid this problem in the future. This error did not result in harm to the patient. However, there is a significant chance of the wrong type of procedure being performed. Considering this, the RCA team recommended segregating patients for YAG capsulotomy and YAG iridotomy to different seating areas that were clearly labeled. The 2 eye drops, tropicamide and pilocarpine, were kept only in these areas, and the staff was not allowed to carry these drops out from the designated area. A barcode-based verification was also instituted to be used each time the drop was instilled.
There are precautions in place for similar-sounding medications and similar-sounding patient names. However, in a mixed clinic where multiple procedures are being performed with a relatively quick turnover, the pre-procedure medications can be mixed, especially if there is no designated 'bedside area' for the patient. Therefore using the precautions noted above can avoid incorrect medication administration.
Issues of Concern
The IOM identifies medical errors as a leading cause of death and injury.[1] According to the 2019 World Health Organization (WHO) Patient Safety Factsheet, adverse events due to unsafe patient care are among the top ten causes of death and disability worldwide. Preventable adverse events in the United States of America (US) cause an estimated 44,000 to 98,000 hospital deaths annually.[1] This exceeds the number of deaths attributable to motor vehicle accidents and is estimated to cost the community between 37.6 to 50 billion dollars in terms of added health care cost, disability, and loss of productivity.[1]
Patients and their families face the most critical and severe consequences of medical errors. Therefore, identifying system processes that lead to medical errors and implementing corrective measures is the primary goal in treating this problem. An RCA and response can help identify system-based measures that can minimize the risk of adverse events and improve clinical outcomes.
Types of Medical Errors
It is essential to recognize that medical errors constitute diverse events. The "error" is not always a human miscalculation or miscommunication, as outlined by the cases above. Some errors are inherent to clinical situations, such as patient falls in hospital settings and healthcare-associated infections. The commonly recognized "types" of medical errors are outlined below.
Medication error is widely accepted as the most common and preventable cause of patient injury.
[10] Medication errors include giving the wrong drug or dose, via the wrong route, at an incorrect time, or to the wrong patient. The reported incidence of medication error-associated adverse events in acute hospitals is around 6.5 per 100 admissions.
[10] Medication errors in the peri-discharge from an acute care facility are the most easily overlooked or missed errors.
[10]Another common medical error is a diagnostic error with failure to correctly identify the cause of the clinical condition promptly.
[10] Diagnostic errors are "missed opportunities to make a correct or timely diagnosis based on the available evidence, regardless of patient harm."
[11]In hospitalized patients, wound infections, pressure ulcers, falls, healthcare-associated infections, and technical complications constitute another group of preventable medical errors.
[10] The most common systems-error is failure to disseminate drug knowledge and patient information. This, in essence, is a communication failure, whether with the patient or other providers.
[10] Failure to employ indicated tests is another medical error that can lead to diagnostic delays or errors.
[1]Similarly, using outdated tests or treatments or failing to respond to the results of tests or monitoring also constitutes a type of medical error.
[1]Treatment errors include errors during the performance of a test or procedure and inappropriate treatment.
[1]
When applying root cause analysis for medical error prevention, it is essential to consider several patient-related factors and underlying issues that may hinder or impede the ability to generate an efficacious root cause analysis. Awareness of particular safety hazards for specific patient demographics and groups can often help mitigate common medical errors and encourage patients to take responsibility for their safety.
Elderly patients represent such a group as various common medical illnesses may result from age-related changes within this group. Elderly patients tend to be prone to falls due to their age-related changes in vision or cardiovascular problems. This patient group also tends to be prone to balance issues and muscle weakness over time, leading to ambulatory dysfunction. Having fall-prevention protocols in place, identifying potential high-risk areas within the home, and mitigating them through safety measures can improve patient safety and outcomes.[7] Age-associated hearing and cognitive decline increase the likelihood of communication errors regarding medications. Ensuring appropriate communication skills tailored to distinct patient groups is key to preventing such errors. Young children and infants are similarly prone to common medical errors due to the lack of direct participation in decision-making and patient care. Thus, specialized communication is needed to convey medical instructions to this population. It is essential to involve both the family and the child to ensure no lapses in communication.
Reducing diagnostic errors requires a more comprehensive approach. Common conditions misdiagnosed yearly include cancer, coronary artery disease, and surgical complications.[12][13] Clinicians within these specialties must be aware of the high rate of misdiagnoses and attempt to combat this through additional measures. Many of these misdiagnoses are easily preventable by implementing standardized protocols, which can be integrated into electronic medical record software.[14] According to a 2015 New England Journal of Medicine article, "trigger tools" are essential in reducing this type of medical error.[15] "Trigger tools" are electronic algorithms that identify potential adverse events. This is accomplished by searching electronic health records and flagging specific occurrences. The use of trigger tools has been shown to decrease the rate of misdiagnoses in recent studies.[15]
Another important realization clinicians should be aware of is using an interpreter to aid in effective communication. A skilled medical interpreter may be crucial in effectively communicating instructions and information to the patient. Physicians need to utilize an unbiased and neutral medical interpreter, as family members may often be biased in communication.
Communication deficits among medical staff members are another essential root cause of medical errors that can be mitigated through standardized protocols.[16] The healthcare institution must recognize all staff members' inclusion in communication protocol development and identify processes for clinicians and pharmacists to exchange information regarding medication orders. Training staff to participate in error recognition and medication safety training is another valuable tool that can be implemented within a healthcare institution. Controlling the storage, access, and labeling of medications is another strategy that can be implemented and monitored to prevent errors that can be easily mitigated by storing medications in the accepted manner or by identifying protocols to ensure that similar medications are properly labeled to avoid mismatching. Managing the availability of information within the healthcare organization is also important. Ensuring staff members can readily access important updates and protocol changes can help prevent unnecessary medical errors.
Clinical Significance
RCA has important implications in helping healthcare organizations study events that resulted in patient harm or undesired clinical outcomes and identify strategies to reduce future errors and improve patient care and safety. Most notably, RCA can help identify medication errors such as illegible handwritten prescriptions, similar name packaging or misleading drug strength or dosage presentations, ineffective control of prescription labels, and lapsed concentration due to interruptions.[17] Clinician participation in root cause analysis is vital as these initiatives recognize and address important patient care aspects.
Through a review of data gathered by the Joint Commission, six common categories of clinical error resulting in patient death, which can be prevented through root cause analysis, have been identified. These sentinel events account for a significant proportion of morbidity and mortality within the hospital setting. The six most common categories of clinical errors resulting in patient deaths include:[7]
Wrong-site surgeries
Patient suicide
Surgical complications
Medical treatment delays
Medication errors
Patient falls.
Wrong-site surgery is a major cause of medical errors that can be mitigated through various safety checkpoints preoperatively and has been the subject of a sentinel event alert by the Joint Commission.[7][18] This type of error has most commonly been noted in orthopedic surgeries.[19] Risk factors include several surgeons involved in surgical care or transfers to another surgeon for patient care, multiple procedures on a single patient, time constraint pressures, and unique circumstances requiring unusual or special positioning during a surgical procedure.[18] This error can easily be mitigated by ensuring proper pre-operative measures, such as labeling the correct surgical site with an indelible pen or distinctively marking the nonsurgical site before the surgery. Intraoperative radiography can also assist in aiding the correct surgical site during the procedure.
Patient suicide is an unfortunate cause of death commonly seen in psychiatric care settings.[7] Several risk-reduction methods can be implemented for this adverse event, including ensuring a controlled environment free of hazardous materials, frequent patient observation, effective communication, adequate staffing in the facility, suicide assessment upon admission, regular psychiatric evaluation, and assessment for the presence of contraband.
Delays in medical treatment are preventable adverse events that may result in patient death and permanent injuries. This may result from misdiagnoses, delayed diagnostic test results, lack of staffing or physician availability, delays in order fulfillment, inadequate treatment, and delays within the emergency department. It is important to recognize this root cause and implement steps to improve timeliness, completeness and check the accuracy of medical communication to prevent such errors.
Medication administration errors are a common and avoidable adverse event that can occur at various patient care levels, involving many individuals in a multidisciplinary patient care team.[17] The primary tool of prevention for this type of error is communication. A standardized protocol for communication between the physician, nurse, pharmacist, and other clinicians involved in patient care is essential to ensure that patients receive the correct medication at the appropriate dosage, route, and frequency.
Similarly, patient falls are a constant source of error within healthcare facilities. It is important to recognize patients at high risk for falls and take appropriate safety precautions. Standardized protocols can reduce fall rates by ensuring a safe environment for risk-prone patients. Patient factors contributing to falls include advanced age, mobility impairment, and surgery.[20] Organizational factors contributing to falls include nurse staffing and the proportion of new nurses.[20] Instuting fall prevention protocols in hospitals and long-term care facilities have significantly impacted reducing these errors. Studies have shown that fall risk assessments using standardized scales such as the Morse Fall Scale can decrease patient falls.[21] Institutional interventions such as staff education, patient mobility training with rehabilitation professionals, and nutritionist support have also been shown to reduce patient falls.[21]
