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Patient Safety Tip of the Week 

July 26, 2022

More Risks in the Radiology Suite

You’ve seen our multiple columns describing the radiology suite as being high-risk for patient safety events. In our October 22, 2013 Patient Safety Tip of the Week “How Safe Is Your Radiology Suite” and the other columns listed below we’ve discussed the multitude of safety issues seen in radiology suites that have little to do with radiology per se. That’s because sick patients with multiple medical problems and vulnerabilities are being taken to the radiology suite and staying there, sometimes for prolonged periods. The events include things like falls, medication errors, patient mixups, IV connection errors, running out of oxygen, conscious sedation incidents, suicides, and others.

But sometimes factors related to the imaging procedure may also contribute to patient safety events. Sanchez et al. (Sanchez 2022) recently discussed cases of 2 patients given IV sedation to facilitate MRI scans. In one, a 43-year-old woman with acute neurological symptoms and signs was given lorazepam 2 mg intravenously (IV) as premedication to reduce agitation after a first attempt at doing the MRI was unsuccessful. The MRI was again unsuccessful, despite anxiolysis. After returning to the medical unit, flumazenil 0.2 mg was given due to somnolence, with subsequent improvement in mental status.

In the second case, a 71-year-old man with a possible epidural abscess following a bout of sepsis was sent for an MRI scan. He was unable to tolerate the scan due to back pain, so hydromorphone 0.5 mg IV was administered. Because of continued restlessness, additional doses of lorazepam 1 mg IV and hydromorphone 0.4 mg IV were ordered. After the patient received a 3rd dose of lorazepam 1mg IV, he became obtunded, hypotensive, and developed respiratory depression with oxygen saturation around 60%. The rapid response team was called, and naloxone and flumazenil were administered. The patient was placed on bilevel positive airway pressure (BiPAP) and given a fluid bolus before being transported to the intensive care unit (ICU), where he was emergently intubated. The patient remained intubated for several days due to severe acute respiratory distress syndrome (ARDS), which was attributed to aspiration while in the MRI machine.

Sanchez et al. provide a nice discussion of the risks of minimal-to-moderate sedation for imaging procedures, especially in high-risk patients, when multiple medication doses are required, and when monitoring is limited or inadequate (e.g., inside an MRI machine). They highlight the need for risk assessment prior to administering such drugs and consideration of patient-specific risk factors for respiratory depression. They stress such risk factors for oversedation as obesity, hepatic, renal, and lung disease; substance use disorder, and obstructive sleep apnea. They recommend looking for higher American Society of Anesthesia (ASA) physical status classification and checking a STOP-BANG score to help identify patients who might have unrecognized obstructive sleep apnea. In addition, they note that lower BMI values are associated with higher plasma concentrations of fentanyl or midazolam, two commonly used medications for diagnostic imaging sedation. They also suggest assessing the patient for potential aspiration risk and considering NPO (nothing by mouth) orders prior to diagnostic imaging procedures with sedation.

They caution against “dose-stacking” of medications (administering medications multiple times and/or from various routes before each dose reaches its peak therapeutic effect).

Monitoring is very important. Because of variability and risk for oversedation, patients must be assessed before and after each dose or medication administration. They note that consistent sedation assessments are important throughout the duration of action of the medication(s) administered. They emphasize “Continuous electronic monitoring is indicated for moderate levels of sedation or higher and should be considered for high-risk patients receiving opioids and/or benzodiazepines.”

They also stress an important point that is often overlooked – sedation might be avoided all together in many patients. They discuss non-pharmacologic techniques that can be used to minimize anxiety, agitation, and claustrophobia prior to such imaging studies. These include positioning issues, use of movie goggles, mirrors, 2-way communications, call buttons, and even fragrance administration.

Nice, practical discussion of a problem we continue to see all too often in patients undergoing imaging studies.

Some of our prior columns on patient safety issues in the radiology suite:

• October 16, 2007        “Radiology as a Site at High-Risk for Medication Errors”
• February 19, 2008       “MRI Safety”
• September 16, 2008    “More on Radiology as a High Risk Area”
• October 7, 2008          “Lessons from Falls....from Rehab Medicine”
• October 2008              “Preventing Infection in MRI”

• March 17, 2009           “More on MRI Safety”
• March 2009                 “Risk of Burns during MRI Scans from Transdermal Drug Patches”

• August 11, 2009         “The Radiology Suite…Again!”
• January 2010               “Falls in the Radiology Suite”
• August 2010               “Sedation Costs for Pediatric MRI”
• January 25, 2011         “Procedural Sedation in Children”

• February 1, 2011         “MRI Safety Audit”
• October 25, 2011        “Renewed Focus on MRI Safety”
• March 13, 2012           “Medical Emergency Team Calls to Radiology”
• August 2012               “Newest MRI Hazard: Ingested Magnets”
• October 22, 2013        “How Safe Is Your Radiology Suite?”
• February 25, 2014       “Joint Commission Revised Diagnostic Imaging Requirements”
• July 2014                    “New MRI Risks: for Staff!”
• July 1, 2014                “Interruptions and Radiologists”
• November 2014          “More Radiologist Interruptions”
• October 21, 2014        “The Fire Department and Your Hospital”
• June 23, 2015              “Again! Mistaking Antiseptic Solution for Radiographic Contrast”
• August 25, 2015         “Checklist for Intrahospital Transport”
• March 22, 2016           “Radiology Communication Errors May Surprise You”
• August 2016                “Guideline Update for Pediatric Sedation”
• October 2016              “MRI Safety: There’s an App for That!”
• January 17, ,2017        “Pediatric MRI Safety”
• August 8, 2017           “Sedation for Pediatric MRI Rising”
• November 14, 2017    “Tracking C. diff to a CT Scanner”
• March 2018                 “MRI Death a Reminder of Dangers”
• March 2018                 “Cardiac Devices Safe During MRI But Spinners!?”
• April 2018                   “Radiologists Get Fatigued, Too”
• May 2018                    “Cost of Interrupting a Radiologist”
• November 2018          “OMG! Not My iPhone!”
• December 11, 2018     “Another NMBA Accident”
• April 2, 2019               “Unexpected Events During MRI”
• September 2019          “New MRI Hazard: Magnetic Eyelashes”
• October 15, 2019        “Lots More on MRI Safety”
• November 5, 2019      “A Near-Fatal MRI Incident”
• November 12, 2019    “Patient Photographs Again Help Radiologists”
• November 26, 2019    “Pennsylvania Law on Notifying Patients of Test Results”
• January 7, 2020           “Even More Concerns About MRI Safety”
• July 14, 2020              “A Thesis on Intrahospital Transports”
• August 25, 2020         “The Off-Hours Effect in Radiology”

• October 2020              “New Warnings on Implants and MRI”
• January 2021               “New MRI Risk: Face Masks”
• May 25, 2021              “Yes, Radiologists Have Handoffs, Too”

• June 1, 2021                “Stronger Magnets, More MRI Safety Concerns”
• November 2021          “Yet Another Risk During MRI”
• January 2022               “MRI Safety Issues”
• February 2022             “Managing Incidental Findings”
• June 2022                    “Where Are You Barcoding?”
• July 12, 2022              “Radiologists Racked by Interruptions”

Some of our prior columns on patient safety issues related to MRI:

• February 19, 2008 “MRI Safety”

• March 17, 2009 “More on MRI Safety”
• October 2008  “Preventing Infection in MRI”
• March 2009 “Risk of Burns during MRI Scans from Transdermal Drug Patches”
• January 25, 2011 “Procedural Sedation in Children”
• February 1, 2011 “MRI Safety Audit”
• October 25, 2011 “Renewed Focus on MRI Safety”
• August 2012 “Newest MRI Hazard: Ingested Magnets”
• October 22, 2013 “How Safe Is Your Radiology Suite?”
• October 21, 2014 “The Fire Department and Your Hospital”
• August 25, 2015 “Checklist for Intrahospital Transport”
• August 2016 “Guideline Update for Pediatric Sedation”
• October 2016 “MRI Safety: There’s an App for That!”
• January 17, 2017 “Pediatric MRI Safety”
• August 8, 2017 “Sedation for Pediatric MRI Rising”
• March 2018 “MRI Death a Reminder of Dangers”
• March 2018 “Cardiac Devices Safe During MRI But Spinners!?”
• November 2018 “OMG! Not My iPhone!”
• April 2, 2019 “Unexpected Events During MRI”
• September 2019 “New MRI Hazard: Magnetic Eyelashes”
• October 15, 2019 “Lots More on MRI Safety”
• November 5, 2019 “A Near-Fatal MRI Incident”
• November 2019 “ECRI Institute’s Top 10 Health Technology Hazards for 2020”
• January 7, 2020 “Even More Concerns About MRI Safety”
• March 2020 “Airway Emergencies in the MRI Suite”
• October 2020 “New Warnings on Implants and MRI”
• January 2021 “New MRI Risk: Face Masks”
• June 1, 2021 “Stronger Magnets, More MRI Safety Concerns”
• November 2021 “Yet Another Risk During MRI”
• January 2022 “MRI Safety Issues”

References:

Sanchez L, Porras H, Lammers C. Medication Safety Events Related to Diagnostic Imaging. AHRQ PSNet Web M&M July 8, 2022

https://psnet.ahrq.gov/web-mm/medication-safety-events-related-diagnostic-imaging

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What's New in the Patient Safety World

August 2022

·Visitors – Good or Bad?

·Resistant Infections Up During COVID-19 Pandemic

·CDSS Success for Pediatric Head CT

·Postprocedure Closeout Checklist Reduces Adverse Events

Visitors – Good or Bad?

Restrictions on visiting patients may be due to legitimate reasons (eg. a COVID-19 outbreak or other contagious disease outbreak). But often we end up restricting visitors for reasons that are inappropriate or even selfish. We often just don’t want to be interrupted by questions from visitors. We’ve even seen physicians who round early in the morning to avoid having to speak with relatives or other patient visitors!

But visitors can also be helpful. They can assist the hospital staff with things like feeding patients. We often recommend that relatives or close friends sit in the room with patients who have delirium. And they can often serve to ensure that a patient understands instructions when the patient might be otherwise distracted or cognitively impaired.

So, are visitors good or bad? Researchers at the Pennsylvania Patient Safety Authority actually looked at this. Sanchez et al. culled information from patient safety reports from 92 hospitals in Pennsylvania (Sanchez 2022). Not surprisingly, they found visitor behavior might have good or bad influence on patient risks.

They found evidence of helpful visitor behavior. For example, visitors often helped reposition patients, helped them ambulate, helped them gain balance, and even escorted patients within the hospital in some cases. They identified instances where visitor behaviors prevented events such as falls, administration of incorrect medication, or allergic reactions from occurring.

But some other behaviors might be good or bad. For example, they might give a patient something potentially harmful or they might take such an item away from a patient. Or they might alert staff to a potential safety situation or they might distract staff from other responsibilities.

And some behaviors may always be detrimental, such as powering on or off devices or equipment, disconnecting equipment, or changing placement of equipment. The equipment or devices most frequently manipulated by visitors were bed or chair alarms and intravenous (IV) catheters.

Some specific detrimental actions they found included:

• Patient was given a home or over-the-counter medication
• Food given to or removed from a patient was not consistent with their prescribed diet, was a known allergen, or was otherwise potentially harmful to the patient

Of course, the classic detrimental action by a visitor is manipulating a PCA (patient-controlled analgesia) pump (see our many columns on PCA safety listed below).

Sanchez et al. suggest some potential safety strategies targeting visitor behaviors:

• Display warning and instructional signage
• Implement a policy that infusion pumps must be locked when appropriate, which could prevent visitors from manipulating the device.
• Use infusion pumps with auto-locking keypads, when appropriate, which could prevent visitors from manipulating the device.
• Develop and implement educational programs for visitors.
• Bed or chair alarm manufacturers should consider designing and incorporating a feature that locks the alarm setting, which could prevent visitors from manipulating the device.

They note that development and display of warning and instructional signs require minimal effort and could be designed to impact numerous behaviors and event types. The article has a nice table with design recommendations for effective signage.

Overall, this is an excellent contribution to a topic we don’t pay enough attention to.

Other Patient Safety Tips of the Week pertaining PCA safety:

• January 4, 2011           “Safer Use of PCA”
• May 12, 2009              “Errors With PCA Pumps”
• September 6, 2011      “More Tips on PCA Safety”

• February 21, 2012       “Improving PCA Safety with Capnography”

• Tools:                          PCA Pump Audit Tool and the PCA Pump Criteria
  

References:

Sanchez CE, Taylor MA, Jones R. Visitor Behaviors Can Influence the Risk of Patient Harm: An Analysis of Patient Safety Reports From 92 Hospitals. Patient Safety 2022; 4(2): 70-79

https://patientsafetyj.com/index.php/patientsaf/article/view/visitor-behaviors-influence-patient-risk/pdf

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Resistant Infections Up During COVID-19 Pandemic

The COVID-19 pandemic has had a significant impact on hospital infections. In our October 2021 What's New in the Patient Safety World column “HAI’s Increase During COVID-19 Pandemic” we noted that during the pandemic there were significant national increases in CLABSI’s (central line–associated bloodstream infections), CAUTI’s (catheter-associated urinary tract infections), VAE’s (ventilator-associated events), and MRSA infections.

In addition, there has been a substantial increase in antimicrobial resistance since the pandemic began. CDC (CDC 2022) reports that resistant hospital-onset infections and deaths both increased at least 15% from 2019 to 2020 among seven pathogens:

• 78% increase in carbapenem-resistant Acinetobacter
• 32% increase in multidrug-resistant Pseudomonas aeruginosa
• 14% increase in infections in vancomycin-resistant Enterococcus
• 13% increase in methicillin-resistant Staphylococcus aureus.

Antifungal-resistant threats rose in 2020, too, including Candida auris (60% increase) and other Candida species (26% increase) in infections in hospitals.

During the first year of the pandemic, more than 29,400 people died from antimicrobial-resistant infections commonly associated with healthcare. Of these, nearly 40% of the people got the infection while they were in the hospital.

CDC notes that hospitals treated sicker patients who required more frequent and longer use of medical devices like catheters and ventilators. Hospitals also experienced personal protective equipment supply challenges, staffing shortages, and longer patient visits.

CDC hopes that the trend is temporary but notes we must invest in the prevention-focused public health actions that we know work, such as accurate laboratory detection, rapid response and containment, effective infection prevention and control, and expansion of innovative strategies to combat antimicrobial resistance. Those strategies include alternatives to antibiotics and antifungals, new vaccines to combat infections that can develop antimicrobial resistance, and novel decolonizing agents to stop the spread of antimicrobial-resistant germs by people who may not know they are carriers.

Some of our prior columns on antibiotic stewardship:

• October 14, 2014        “Antibiotic Stewardship”
• November 2015          “Medications Most Likely to Harm the Elderly Are…”
• July 2016                    “NQF/CDC Guideline on Antibiotic Stewardship”
• August 2016               “Some Reassurance on Antibiotic Stewardship”
• November 2016          “C. Diff and Your Predecessor’s Room”
• December 2016           “Update on Ambulatory Antibiotic Stewardship”
• July 2017                    “Antibiotics and Adverse Events”
• July 2019                    “Dental Prescribing Called Into Question”
• July 21, 2020              “Is This Patient Allergic to Penicillin?”
• March 30, 2021           “Need for Better Antibiotic Stewardship”
• August 2021               “Antibiotic Stewardship in Pediatrics”
• May 24, 2022              “Requiring Indication for Antibiotic Prescribing”

See also our other columns related to COVID-19:

• April 7, 2020 “Patient Safety Tidbits for the COVID-19 Pandemic”
• May 5, 2020 “COVID-19 and the Dental Office”
• May 12, 2020 “Lab Errors and COVID-19”
• June 16, 2020 “Tracking Technologies”
• November 2020 “Telemedicine Here to Stay But Use It Safely”
• December 2020 “ISMP Warns of Vaccine Errors as We Gear Up for COVID-19 Vaccines”
• January 26, 2021 “This Freezer Accident May Cost Lives”
• September 2021 “Have You Added Pandemic Preparation to Your Hospital Disaster Plan?”
• October 2021 “HAI’s Increase During COVID-19 Pandemic”
• January 2022 “Some COVID-19 Practices May Outlast the Pandemic”
• April 2022 “Another Benefit from the COVID-19 Pandemic?”
• May 2022 “ECRI Top 10 Patient Safety Concerns for 2022”

References:

CDC (Centers for Disease Control and Prevention). COVID-19. U.S. Impact on Antimicrobial Resistance. 2022 Special Report. CDC 2022

https://www.cdc.gov/drugresistance/covid19.html

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CDSS Success for Pediatric Head CT

Good organizations are not satisfied with good practices. They strive for great practices. Intermountain Healthcare is one of those organizations.

Clinical decision rules have been quite successful for some conditions in reducing unnecessary imaging studies without jeopardizing patient safety. One such condition is minor head trauma. Our multiple columns listed below describe several different clinical decision rules that have been used to help guide clinicians in their decisions about CT scanning in adults with minor head trauma. There are also clinical decision rules for ordering CT scans in pediatric patients with minor head trauma. Intermountain Healthcare (Knighton 2022) was using a clinical pathway based on the PECARN (Pediatric Emergency Care Applied Research Network) risk stratification criteria for clinically important traumatic brain injury. Their Primary Children’s Hospital, which had participated in the development of those criteria, had pretty good compliance with the pathway but compliance at general ED’s in their 21 other system hospitals was not as good.

They initially deployed an intranet-based lookup tool, a care pathway, and a mobile flashcard application across general ED’s. But emergency physicians perceived the retrieval of guideline information as cumbersome and it did not fit well with their workflows.

So, they developed a clinical decision support system to accompany the clinical pathway. Part of it included automated feedback and education (both at the site level and individual physician level). But the major intervention was embedding an easy-to-understand, information-rich graphic “pop-up” alert providing current PECARN risk stratification criteria and supporting evidence, along with a risk assessment prompt linked to a head CT scan order or an “observation” order. (The article has nice screen shots of the “pop-up” alert for children less than 2 years old and those older than 2 years.)

They observed 4% lower odds of ordering a CT scan during the intervention months versus the control months. The CT scan rate remained significantly below the control

Months during the sustainment months (35.4% in the sustainment months versus 38.6% in the control months). As you’d expect a higher percentage yield of abnormalities by doing CT scans only in those children at higher risk, they found CT positivity rates increased from 6.0% during the control months to 9.3% during the sustainment months. CT scans with clinically important findings increased from 9.2% during the control months to 33.3% during the sustainment months. And no 72-hour readmissions with confirmed clinically important traumatic brain injury were identified.

The authors do acknowledge that the alert was only evoked in about half the eligible encounters and they discuss the issue of alert fatigue. However, they surmise that the educational value of seeing the alert led to later improved compliance with the criteria even when the clinicians did not subsequently see the alert.

The “pop-up” alert is a pretty simple tool and this study showed it can have a positive impact on care.

Some of our previous columns on CT scans in minor head trauma:

April 16, 2007 “Falls With Injury”

July 17, 2007  “Falls in Patients on Coumadin or Heparin or Other Anticoagulants”

March 2010     “CATCH: New Clinical Decision Rule for CT in Pediatric Head Trauma”

November 23, 2010 “Focus on Cumulative Radiation Exposure”

June 5, 2012    “Minor Head Trauma in the Anticoagulated Patient”.

July 8, 2014    “Update: Minor Head Trauma in the Anticoagulated Patient”

January 2017   “Still Too Many CT Scans for Pediatric Appendicitis”

March 2017     “Update on CT Scanning after Minor Head Trauma”

September 2017 “Clinical Decision Rule Success”

August 21, 2018 “Delayed CT Scan in the Anticoagulated Patient”

September 21, 2021 “Repeat CT in Anticoagulated Patients After Minor Head Trauma Not Cost-Effective”

December 14, 2021 “Delayed Hemorrhage After Head Trauma in Anticoagulated Patients”

References:

Knighton AJ, Wolfe D, Hunt A, et al. Improving Head CT Scan Decisions for Pediatric Minor Head Trauma in General Emergency Departments: A Pragmatic Implementation Study. Annals of Emergency Medicine 2022; Published June 23, 2022

https://www.annemergmed.com/article/S0196-0644(22)00279-7/fulltext

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Postprocedure Closeout Checklist Reduces Adverse Events

Most of the literature on checklists focuses on their use prior to surgery or other procedures. But how about using checklists after a procedure? A recent study (Siewert 2022) looked at the impact of a post-procedure “close-out” checklist during image-guided procedures. The authors found that the post-procedure close-out checklist improved patient outcomes by decreasing the number of adverse events that occur from inadequate safety processes at the conclusion of an image-guided procedure by 43%, the need for repeat procedures by 80%, and the severity of impact of an error.

Overall compliance with the postprocedure closeout checklist was in the high 90% range but compliance was lower in the group of patients with procedural errors reported (60%). In reviewing those incidents where the checklist was not used, the authors felt that most adverse events would have been prevented by use of the checklist.

Preventable errors were mostly related to obtaining and handling of specimens and retained foreign objects such as guidewires.

They did note some new error types after implementation of the checklist and plan to revise the checklist further. They anticipate that, with further modification of the checklist, 70% of incidents would have been preventable.

Some of our prior columns on checklists:

• June 5, 2007 “Patient Safety in Ambulatory Surgery”
• July 24, 2007 “Serious Incident Response Checklist”
• March 11, 2008 “Lessons from Ophthalmology”
• July 1, 2008 “WHO’s New Surgical Safety Checklist”
• September 23, 2008 “Checklists and Wrong Site Surgery”
• November 18, 2008 “Ticket to Ride: Checklist, Form, or Decision Scorecard?”
• November 25, 2008 “Wrong-Site Neurosurgery”
• January 20, 2009 “The WHO Surgical Safety Checklist Delivers the Outcomes”  
• January 19, 2010 “Timeouts and Safe Surgery”
• June 2010 “WHO Checklist for Radiological Interventions”
• June 8, 2010 “Surgical Safety Checklist for Cataract Surgery”
• July 6, 2010 “Book Reviews: Pronovost and Gawande”
• September 14, 2010 “Wrong-Site Craniotomy: Lessons Learned”
• November 30, 2010 “SURPASS: The Mother of All Checklists”
• December 6, 2010 “More Tips to Prevent Wrong-Site Surgery”
• February 2011 “SURPASS Checklist Reduces Malpractice Claims”
• March 2011 “Michigan ICU Collaborative Wins Big”
• June 6, 2011 “Timeouts Outside the OR”
• August 16, 2011 “Crisis Checklists for the OR”
• July 2012 “VA Checklist Reduces Suicide Risk”
• July 2012 “WHO Safe Childbirth Checklist”
• October 2012 “Another PCA Pump Safety Checklist”
• February 2013 “Checklists for Surgical Crises”
• April 2014 “Checklists Don’t Always Lead to Improvement”
• May 2015 “The Great Checklist Debate”
• August 25, 2015 “Checklist for Intrahospital Transport”
• September 1, 2015 “Smarter Checklists”
• September 15, 2015 “Another Possible Good Use of a Checklist”
• September 13, 2016 “Vanderbilt’s Electronic Procedural Timeout”
• November 2016 “Oxygen Tank Monitoring”
• November 1, 2016 “CMS Emergency Preparedness Rule”
• January 10, 2017 “The 26-ml Applicator Strikes Again!”
• May 2017 “Another Success for the Safe Surgery Checklist”
• May 2, 2017 “Anatomy of a Wrong Procedure”
• June 2017 “Another Way to Verify Checklist Compliance”
• August 22, 2017 “OR to ICU Handoff Success”
• November 28, 2017 “More on Dental Sedation/Anesthesia Safety”
• December 12, 2017 “Joint Commission on Suicide Prevention”
• December 19, 2018 “More on Overlapping Surgery”
• February 2018 “Oxygen Cylinders Back in the News”
• October 30, 2018 “Interhospital Transfers”
• November 20, 2018 “Checklist Implementation”

• May 2019 “WHO Surgical Safety Checklist Cut Mortality 37% in Scotland”
• July 16, 2019 “Avoiding PICC’s in CKD”
• June 2020 “Are Two Checklists Better Than One?”
• March 2021 “Medical Crisis Checklists in the ED”
• June 21, 2022 “Preventing Post-op Pneumonia”

References:

Siewert B, Brook OR, Swedeen S, et al. Impact of a post-procedure close-out checklist on the incidence of preventable adverse events during interventional radiology procedures: an initiative to improve outcomes. Journal of Vascular and Interventional Radiology 2022; Published July 04, 2022

https://www.jvir.org/article/S1051-0443(22)01052-1/pdf

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Print “August 2022 What's New in the Patient Safety World (full column)”

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Print “August 2022 Resistant Infections Up During COVID-19 Pandemic”

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