AEM Education and Training 09: Looking Through the Prism - Caring for LGBTQI Patients in the ED

Welcome to the ninth episode of AEM Education and Training, a podcast collaboration between the Academic Emergency Medicine E&T Journal and Brown Emergency Medicine. Each quarter, we'll give you digital open access to AEM E&T Articles or Articles in Press, with an author interview podcast and links to curated supportive educational materials for EM learners and medical educators.

Find this podcast series on iTunes here.

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DISCUSSING (CLICK ON TITLE TO ACCESS):

Looking Through the Prism: Comprehensive Care of Sexual Minority and Gender‐nonconforming Patients in the Acute Care Setting. Angela F. Jarman MD, MPH; Alyson J. McGregor MD, MA; Joel L. Moll MD ; Tracy E. Madsen MD, ScM; Elizabeth A. Samuels MD, MPH; Mollie Chesis; Bruce M. Becker MD.

LISTEN NOW: AUTHOR INTERVIEW WITH angela jarman, MD, Mph

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Angela Jarman, MD, MPH

Assistant Professor, Department of Emergency Medicine

University of California, Davis

This interview discusses a commentary in AEM E&T which synthesizes a didactic session co‐led by the SAEM Sex and Gender in Emergency Medicine Interest Group and the Academy for Diversity and Inclusion, which was presented by the authors at the SAEM 2018 annual meeting in Indianapolis, Indiana.

The National Institutes of Health have recently recognized LGBTQ (lesbian, gay, bisexual, transgender, queer) as an official health disparity and designated the Sexual and Gender Minority Research Office in an effort to support evidence‐based medical care for this underserved patient population. As the front line of medical care for the underserved, emergency medicine (EM) physicians need to be equipped with the tools to care for these patients in a culturally competent and clinically appropriate manner. EM providers must develop an understanding of their patients’ social and medical context to provide both sensitive and effective care and to teach residents and other learners. A significant number of patients who seek treatment in the emergency department define themselves as LGBTQI—lesbian, gay, bisexual, transgender, queer, or intersex. This commentary combines both affective and objective information on the importance of semantics and language, appropriate communication, and confronting our own implicit biases in caring for this vulnerable population, creating a unique perspective and paradigm for the practice of EM and a blueprint for education. 

The authors have provided this handout for further information:

https://drive.google.com/file/d/1WDyk0HcCCP3DKmgGRdom53s8LKZB5Znz/view?usp=sharing

Excerpt:

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ADDITIONAL REFERENCES:

“Don’t be a jerk” EM Pulse Podcast, Episode 9. https://ucdavisem.com/2018/07/17/dont-be-a-jerk/

http://www.transstudent.org/gender/

NIH ORWH sex/gender. Available at https://orwh.od.nih.gov/research/sex-gender.

Institute of Medicine (US) Committee on Lesbian, Gay, Bisexual and Transgender Health Issues and Research Gaps and Opportunities. The health of lesbian, gay, bisexual, and transgender people. National Academies Press (US), Washington, DC; 2011

Clayton JA, Tannenbaum C. Reporting Sex, Gender, or Both in Clinical Research? JAMA 2016; 316(18):1863-1864

Madsen TE, Bourjeily G, Hasnain M, Jenkins MJ, Morrison MF, Sandberg K, Tong IL, Trott J. Sex- and Gender-Based Medicine: The Need for Precise Terminology. Gender and the Genome;1(3):122-28.

Schuster MA, Reisner SL, Onorato SE. Beyond bathrooms — meeting the health needs of transgender people. NEJM 2016;375:101–103.

Soc Sci Med. 2014 Feb;103:33-41. doi: 10.1016/j.socscimed.2013.06.005. Epub 2013 Jun 18.

Structural stigma and all-cause mortality in sexual minority populations. Soc Sci Med. 2014 Feb;103:33-41. doi: 10.1016/j.socscimed.2013.06.005. Epub 2013 Jun 18.

The Health of Lesbian, Gay, Bisexual, and Transgender People: Building a Foundation for Better Understanding Editors: Institute of Medicine (US) Committee on Lesbian, Gay, Bisexual, and Transgender Health Issues and Research Gaps and Opportunities.

Bauer GR, Scheim AI, Deutsch MB, et al. Reported Emergency Department Avoidance, Use, and Experiences of Transgender Persons in Ontario, Canada: Results From a Respondent-Driven Sampling Survey. Annals of Emergency Medicine. 2014;63(6):713-720.

Brown JF, Fu J. Emergency department avoidance by transgender persons: another broken thread in the "safety net" of emergency medicine care. Annals of Emergency Medicine. 2014;63(6):721-722.

Center of Excellence for Transgender Health, Department of Family and Community Medicine, University of California San Francisco. Guidelines for the Primary and Gender-Affirming Care of Transgender and Gender Nonbinary People; 2nd edition. Deutsch MB, ed. June 2016. Available at www.transhealth.ucsf.edu/guidelines .

Chisolm-Straker M, Jardine L, Bennouna C, Morency-Brassard N, Coy L, Egemba MO, Shearer PL (2017) Transgender and gender nonconforming in emergency departments: a qualitative report of patient experiences, Transgender Health 2:1, 8-16, DOI: 10.1089/trgh.2016.0026.

Deutsch MB, Jamison Green, Keatley J, Mayer G, Hastings J, Hall AM. Electronic medical records and the transgender patient: recommendations from the World Professional Association for Transgender Health. J Am Med Inform Assoc. 2013;20:700-703

IOM. Collecting sexual orientation and gender identity data in electronic health records: Workshop summary. Washington, DC: Institute of Medicine;2013.

James SE, Herman JL, Rankin S, et al. The Report of the 2015 U.S. Transgender Survey. Washington, DC: National Center for Transgender Equality;2016.

Jalali S, Sauer LM. Improving Care for Lesbian, Gay, Bisexual, and Transgender Patients in the Emergency Department. Annals of Emergency Medicine. 2015;66(4):417-423.

Lambda legal. Creating equal access to quality health care for transgender patients: transgender-affirming hospital policies. May 2016. Http://assets.Hrc.Org//files/assets/resources/transaffirming-hospitalpolicies-2016.Pdf?_Ga=2.179968679.225917522.1494296888-1373396650.1480810731

Samuels EA, Tape C, Garber N, Bowman S, Choo EK. “Sometimes you feel like the freak show”: A Qualitative Assessment of Emergency Care Experiences Among Trans and Gender Non-Conforming Patients. Ann Emerg Med 2017: doi:10.1016/j.annemergmed.2017.05.002.

World Professional Association for Transgender Health, Standards of Care for the Health of Transexual, Transgender, and Gender Nonconforming People 5 (7th ed.), http://www.wpath.org/uploaded_ les/140/ les/Stan- dards%20of%20Care,%20V7%20Full%20Book.pdf

Thrower’s Fracture of the Humerus: A Case Report

CASE REPORT:


A 35-year-old, right-handed male presented to the emergency department with complaint of right upper arm pain. He was a member of an amateur baseball team; just prior to arrival he threw a ball and immediately felt a pop and sharp pain in his right upper arm. Since that time, he had been unable to move his arm due to pain. He reported no prior injury to the arm but did state that over the last several weeks he had been having an ache in that arm. He was otherwise healthy, took no medications, denied weakness, numbness and tingling in his right arm. He was a non-smoker and an occasional drinker. He used no drugs.

Physical exam was non-focal except for the right upper extremity. His right upper arm was swollen and tender to the touch. He had decreased range of motion in his elbow and his shoulder secondary to the pain. He had an obvious deformity of the right bicep region. Distally the patient was neurovascularly intact with normal range of motion and light touch sensation intact in the wrist and hand. He had a 2+ radial pulse and capillary refill was less than 3 seconds.

The patient was given pain medication and sent for an x-ray of his right humerus. The x-ray demonstrated a displaced spiral fracture of the humerus (fig 1). The patient was placed in a coaptation splint and prior to discharge, reexamination revealed no evidence of radial nerve palsy or radial artery injury. The patient followed up with the orthopedic doctor on-call and underwent open reduction and internal fixation of his injury within 1 week (fig 2).

 Figure 1. AP and oblique radiographs of the right humerus demonstrating a spiral fracture

Figure 1. AP and oblique radiographs of the right humerus demonstrating a spiral fracture

 Figure 2: Right Humerus status post open reduction and internal fixation

Figure 2: Right Humerus status post open reduction and internal fixation

DISCUSSION:

This patient's presentation is consistent with a well described, but rarely observed phenomenon known as a 'Thrower's Fracture.' First reported in 1930 [1], cases have been reportedly related to everything from a baseball [2, 3], to a cricket ball [4], to a dodge ball [5], and hand grenades [6]. As with our patient, many patients who present with this injury are amateur athletes who have likely not developed adequate cortical strength of their bones as compared to professional athletes [7]. The injury is often preceded by several weeks to months of aching in the region of the humerus, which is thought to represent a stress fracture [2, 4, 8]. The complexity of the throwing motion and related transfer of forces, results in significant torque being applied to the humeral shaft, leading to a fracture, most commonly in the mid to distal third of the diaphysis.

These patients can have similar complications to any mid-shaft, spiral humeral fracture including damage to the radial artery and radial nerve [9, 10]. In these cases, given the active nature of these athletes, and if underlying complications have occurred, surgeons may elect to repair this injury surgically [2, 4, 10], though this is not always necessary given the fracture morphology.

Faculty Reviewer: Dr. Kristy McAteer

REFERENCES:

  1. Wilmoth, C., Recurrent fracture of the humerus due to sudden extreme muscular action. Journal of Bone and Joint Surgery, 1930. 12: p. 168-169.

  2. Miller, A., C.C. Dodson, and A.M. Ilyas, Thrower's fracture of the humerus. Orthop Clin North Am, 2014. 45(4): p. 565-9.

  3. Perez, A.Z., C.; Atia, H., Thrower's fracture of the humerus: An otherwise healthy 29-year-old man presented for evaluation of acute onset of severe right arm pain. Emergency Medicine, 2016. 48(5): p. 221-222.

  4. Evans, P.A., et al., Thrower's fracture: a comparison of two presentations of a rare fracture. J Accid Emerg Med, 1995. 12(3): p. 222-4.

  5. Colapinto, M.N., E.H. Schemitsch, and L. Wu, Ball-thrower's fracture of the humerus. CMAJ, 2006. 175(1): p. 31.

  6. Chao, S.L., M. Miller, and S.W. Teng, A mechanism of spiral fracture of the humerus: a report of 129 cases following the throwing of hand grenades. J Trauma, 1971. 11(7): p. 602-5.

  7. Ogawa, K. and A. Yoshida, Throwing fracture of the humeral shaft. An analysis of 90 patients. Am J Sports Med, 1998. 26(2): p. 242-6.

  8. Reed, W.J. and R.W. Mueller, Spiral fracture of the humerus in a ball thrower. Am J Emerg Med, 1998. 16(3): p. 306-8.

  9. Curtin, P., C. Taylor, and J. Rice, Thrower's fracture of the humerus with radial nerve palsy: an unfamiliar softball injury. Br J Sports Med, 2005. 39(11): p. e40.

  10. Bontempo, E. and S.L. Trager, Ball thrower's fracture of the humerus associated with radial nerve palsy. Orthopedics, 1996. 19(6): p. 537-40.

AEM Early Access 21: Long-term Mortality in Pediatric Firearm Assault Survivors

Welcome to the twenty-first episode of AEM Early Access, a FOAMed podcast collaboration between the Academic Emergency Medicine Journal and Brown Emergency Medicine. Each month, we'll give you digital open access to an recent AEM Article or Article in Press, with an author interview podcast and suggested supportive educational materials for EM learners.

Find this podcast series on iTunes here.

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DISCUSSING (CLICK ON LINK FOR FULL TEXT, OPEN ACCESS THROUGH DECEMBER 31):

Long-term mortality in pediatric firearm assault survivors: a multi-center, retrospective, comparative cohort study. Ashkon Shaahinfar, MD, MPH, Irene H. Yen, PhD, MPH, Harrison J. Alter, MD, MS, Ginny Gildengorin, PhD, Sun-Ming J. Pan, James M. Betts, MD and Jahan Fahimi, MD, MPH.

listen now: first author interview with ashkon shaahinfar md mph

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Ashkon Shaahinfar, MD, MPH

Attending Physician and Emergency Ultrasound Director

Division of Emergency Medicine

UCSF Benioff Children’s Hospital Oakland

ABSTRACT

Objectives: The objective was to determine whether children surviving to hospital discharge after firearm assault (FA) and nonfirearm assault (NFA) are at increased risk of mortality relative to survivors of unintentional trauma (UT). Secondarily, the objective was to elucidate the factors associated with long-term mortality after pediatric trauma.

Methods: This was a multicenter, retrospective cohort study of pediatric patients aged 0 to 16 years who presented to the three trauma centers in San Francisco and Alameda counties, California, between January 2000 and December 2009 after 1) FA, 2) NFA, and 3) UT. The Social Security Death Master File and the California Department of Public Health Vital Statistics (2000–2014) were queried through December 31, 2014, to identify those who died after surviving their initial hospitalization and to delineate cause of death. Multivariate Cox proportional hazards regression was performed to determine associations between exposure to assault and long-term mortality.

Results: We analyzed 413 FA, 405 NFA, and 7,062 UT patients who survived their index hospital visit. A total of 75 deaths occurred, including 3.9, 3.2, and 0.7% of each cohort, respectively. Two-thirds of all long-term deaths were due to homicide. After multivariate adjustment, adolescent age, male sex, black race/ethnicity, and public insurance were independent risk factors for long-term mortality. FA (adjusted hazard ratio [AHR] = 1.8, 95% confidence interval [CI] = 0.82–4.0) and NFA (AHR = 1.9, 95% CI = 0.93–3.9) did not convey a statistically significant difference in risk of long-term mortality compared to UT. Being assaulted by any means (with or without a firearm), however, was an independent risk factor for long-term mortality in the full study population (AHR = 1.9, 95% CI = 1.01–3.4) and among adolescents (AHR = 1.9, 95% CI = 1.01–3.6).

Conclusion: Children and adolescents who survive assault, including by firearm, have increased long-term mortality compared to those who survive unintentional, nonviolent trauma.