Academic and Demographic Characteristics of Pediatric Orthopaedic Division Chiefs in the United States.

INTRODUCTION: Division Chiefs (DCs) and department leadership play an integral role within the service. The goal of this study is to assess the demographics and scholarly work of the leadership in pediatric orthopaedics services across the United States and comment on the role of diversity within leadership positions. METHODS: Academic medical centers and pediatric hospitals were identified using the Electronic Residency Application Service website, the Pediatric Orthopaedic Society of North America website, and the Children's Hospital Association website. Leadership was identified using the hospitals' respective websites where data such as sex, race/ethnicity, fellowship institution, time since graduating fellowship, and academic rank were collected. Scopus database was used to determine h-indices and PubMed was used to determine the number of publications. RESULTS: Of 196 academic centers and 223 pediatric hospitals identified, 98 had a designated DC of the pediatric orthopaedics division. The majority of the DCs were male (85.7%), and leadership positions at hospitals with academic affiliations had a higher proportion of female DCs than nonacademic centers ( P =0.0317). DCs were mostly white (83.7%), followed by Asian (12.2%), and African American (2.0%). The average time since fellowship was 21.1 years and the average h-index was 15.7. The average age of the DCs was 56.8 years old. Of those in academic settings, 48.5% held the rank of professor. The fellowship programs that trained the most DCs were Boston Children's Hospital (16.3%) and Texas Scottish Rite for Children (14.3%). DISCUSSION: There is a paucity of available research on leadership characteristics in pediatric orthopaedic surgery. While progress has been made, there is still a lack of diversity that exists among leadership in pediatric orthopaedics, both within the academic setting as well as the private sector. The position of DC is held predominately by white males with a rank of either professor or no academic association. Intentional efforts are needed to continue to increase diversity in leadership positions within pediatric orthopaedic programs in the United States. LEVEL OF EVIDENCE: IV.

Ulnohumeral joint static cartilage compression is affected by radial head implant size.

INTRODUCTION: Radiocapitellar joint arthroplasty is a commonly performed procedure, which often leads to early failure or instability. Few studies assess the effect of radiocapitellar joint arthroplasty on the ulnohumeral joint. We hypothesized that static forces of contact (compressing cartilage, or cartilage relaxation contact force) would reveal the effect of varying radial head implant size and elbow position on the ulnohumeral joint. METHODS: A minimally-invasive method of measuring cartilage relaxation contact force was utilized in 10 fresh-frozen human cadaveric specimens that did not require significant dissection or intraarticular sensor placement. Specimens were rigidly fixed in various positions of elbow flexion and forearm pronosupination with increasing radial head implant lengths. Uniaxial distracting forces were applied and displacement was repeatedly measured with resultant best-fit polynomial curves to determine inflections corresponding to the force required to overcome static cartilage relaxation as in previous work. FINDINGS: Baseline mean (intra-cadaver) cartilage relaxation contact force was 11.8 N (standard error of the mean = 0.3) at 90° of elbow flexion and neutral rotation. There was little variation within specimens (Intraclass correlation coefficient > 0.94). Cartilage relaxation contact force increased at the ulnohumeral joint with radial head implant overstuffing (> 4 mm, P < 0.05) and elbow flexion (120°, P < 0.001). Pronosupination altered cartilage relaxation contact force in an implant-length independent manner (P < 0.05). INTERPRETATION: Radiocapitellar joint arthroplasty implant length and elbow joint position independently contribute to increased cartilage relaxation contact force at the ulnohumeral joint. This further supports attempts at anatomic reconstruction of the radiocapitellar joint to prevent pathologic ulnohumeral joint loading.

What are the academic and demographic characteristics of orthopaedic spine surgery division chiefs?

Background: To our knowledge no analysis of academic orthopedics division chiefs (DC) exists in the current orthopedic literature. Serving as a Division Chief may be a career milestone or an opportunity to lead and transition to additional leadership roles. Our objective is to answer the following questions (1) Are there academic characteristics common to Spine divisions chiefs? (2) Are there demographic characteristics common to Spine division chiefs? (3) Do most Spine division chiefs train at certain fellowships? Methods: Allopathic residency program websites were used to locate DC and Division Co-Chiefs (DCC). Academic characteristics evaluated included: H-index, academic rank, number of degrees, additional leadership titles, the availability of fellowship training and service as past/current society president and participation in travelling fellowships. Demographic characteristics including gender and race were collected. Years since completions of fellowship and which fellowship program the DC/DCC trained at were collected. Results: 102 DC/DCC were identified and had an average H-index of 22.1. The majority (48%) had an academic rank of Professor, 29% Associate Professor, 16% Assistant Professor and 8% rank could not be identified. 45% had additional leadership positions within their department and 18% had additional graduate degrees. Two institutions had designations of co-chiefs. The majority (57%) offered spine fellowships at their institution. The majority of DC were males (99%) and White (72.5%). On average the DC/DCC were 19.5 years past their fellowship completion. 19% participated in at least one travelling fellowship and 14% served as a president of a Spine or Orthopaedic Society. Conclusions: Spine surgery division chiefs are 99% male, with a rank of Professor and trained at select fellowship programs. Nearly half of spine surgery division chiefs held concurrent administrative roles in the department and 14% have served as President of a spine or Orthopaedic society. There is room to Improve on the gender and ethnic/racial diveristy of spine surgery division chief leadership.

Ultralong Follow-Up of Spinal Fusion for Adolescent Idiopathic Scoliosis: Harrington Instrumentation vs Uninstrumented Fusion.

BACKGROUND: Harrington instrumentation for adolescent idiopathic scoliosis (AIS) was revolutionary and allowed patients to mobilize faster as compared with patients treated with uninstrumented fusion. However, Harrington instrumentation provided correction of the deformity in 1 plane, resulting in limited sagittal plane control. Patients who received these 2 surgeries are aging, and to date, ultralong follow-up of these patients has not been reported. OBJECTIVE: The purpose of this study was to evaluate long-term patient-reported outcomes and radiographic parameters after Harrington nonsegmental distraction instrumentation vs uninstrumented fusion in the treatment of AIS. METHODS: Fourteen adult patients with AIS who were previously instrumented (n = 7) or uninstrumented (n = 7) were identified. Recent x-ray image measurements such as pelvic incidence (PI), sagittal vertical axis (SVA), pelvic tilt (PT), lumbar lordosis (LL), and pelvic incidence minus lumbar lordosis (PI-LL) were used to analyze deformities. Scoliosis Research Society-7 (SRS-7), Neck Disability Index (NDI), and Oswestry Disability Index (ODI) were used to evaluate patient-reported outcomes. Complications and rates of revision surgery were also evaluated. RESULTS: The mean age was 67.1 ± 5 years in the instrumented group and 64.1 ± 9 years in the uninstrumented group. There were no significant differences between instrumented and uninstrumented in SRS-7 (23.4 ± 2.9 vs 23.6 ± 2.6, P = 0.93), NDI (5.7 ± 4.5 vs 10.6 ± 4.5, P = 0.08), and ODI (9.7 ± 13.7 vs 9.4 ± 8.7, P = 0.99). Radiographic measurements of instrumented vs uninstrumented resulted in comparable PT (24.0 ± 7.9 vs 30.5 ± 4.7, P = 0.09), PI (61.3 ± 16.9 vs 67.2 ± 9.5, P = 0.47), LL (34.9 ± 14.4 vs 42.8 ± 11.0, P = 0.29), PI-LL (26.4 ± 25.1 vs 24.3 ± 10.4, P = 0.43), and SVA (38.1 ± 30.1 vs 52.3 ± 21.6, P = 0.37). There were 2 patients in the instrumented group who developed adjacent segment disease that required operative intervention compared with none in the uninstrumented group (P = 0.46). CONCLUSION: In long-term follow-up of instrumented and uninstrumented fusion, patients had similar patient-reported outcomes and radiographic parameters, although the instrumented cohort had higher rates of adjacent segment disease.

Academic, Leadership, and Demographic Characteristics of Orthopaedic Sports Medicine Division Chiefs in the United States.

INTRODUCTION: Division chiefs (DCs) play an integral role within the department, making critical decisions and helping shape the future of both the division and the department. This study aimed to investigate the demographic characteristics and scholarly work of DCs in academic orthopaedic sports medicine division in the United States. METHODS: Orthopaedic residency programs at academic centers were identified using the Association of American Medical Colleges' Electronic Residency Application Service. DCs were identified using the program's respective websites where data points such as sex, race/ethnicity, fellowship training institution, time since graduating fellowship, academic rank, number of degrees, and additional leadership titles were collected. Scopus database was used to determine h-indices. RESULTS: From the 191 programs identified, 100 had a DC for the sports medicine subspecialty division, and 66 programs offered a sports medicine fellowship. Most DCs (96%) were men. The racial/ethnic demographics of the DCs were mostly White (86%), followed by Asian (11%), African American (1%), Hispanic/Latino (1%), and mixed ethnicity (1%). On average, the DCs were 19.6 years past their fellowship completion. The average h-index was 21.2. Many (48%) had an academic rank of professor, 28% associate professor, and 12% assistant professor. Four held additional graduate degrees. The fellowship programs that trained the most DCs were Hospital for Special Surgery (11), Kerlan Jobe Orthopaedic Clinic (8), University of Pittsburgh (7), American Sports Medicine Institution (5), Cleveland Clinic (5), Cincinnati Sports Medicine (4), Massachusetts General Hospital (4), and Steadman Hawkins Clinic (4). DISCUSSION: DCs in academic orthopaedic surgery plays a crucial role in the department and is a topic that is understudied. A lack of diversity exists among DCs in academic Sports Medicine in orthopaedics. The position is held predominately by White men with a rank of either full or associate professor and extensive leadership experience. More efforts are needed to increase the diversity of sports medicine leadership within academic orthopaedic programs in the United States.

PROMIS Scores Should Not be Used in Isolation to Measure Outcomes in Lumbar Stenosis Patients.

STUDY DESIGN: Retrospective cross-sectional analysis. OBJECTIVE: The aim of this study was to establish the strength of relationship between the Patient-reported Outcomes Measurement Information System (PROMIS) Adult Depression (AD), Physical Function (PF), and Pain Interference (PI) with the Swiss Spinal Stenosis Questionnaire (SSSQ) in assessing lumbar spinal stenosis (LSS). SUMMARY OF BACKGROUND DATA: In 2009, there were >35,000 surgeries for LSS, which amounted to $1.65 billion in health care cost. By 2021, there will be >2.4 million people in the United States with symptomatic LSS. There is an increasing emphasis on patient-reported outcomes (PROs) to define value in medicine. Therefore, it would be beneficial to compare PROMIS, a universal PRO, against the SSSQ, the "criterion standard" for assessing LSS. METHODS: Eighty-two patients with LSS completing the PROMIS and SSSQ were enrolled. Per existing institutional protocol, PROMIS AD, PF, and PI were completed at every clinic visit. Linear regression analysis was then performed to evaluate how well the SSSQ and PROMIS scores correlated to each other. RESULTS: When linear regression was performed for pre-treatment values, the R2 value for the SSSQ PF versus PROMIS PF was 0.14 (P = 0.0008), whereas the R2 value for the SSSQ symptom severity versus PROMIS PI was 0.03 (P = 0.13). The R2 value for the combined SSSQ physical function and symptom severity versus PROMIS AD was 0.07 (P = 0.02). When post-treatment SSSQ satisfaction scores were correlated to postoperative PROMIS AD, PI, and PF scores, the R2 values for a good linear fit were 0.13, 0.25, and 0.18 respectively (P values: 0.01, 0.003, and 0.003). CONCLUSION: Pre-treatment PROMIS scores do not adequately capture the disease-specific impact of spinal stenosis, but postoperative PROMIS scores better reflect outcomes after surgery for LSS. PROMIS scores should not be used in isolation to assess outcomes in patients with LSS.Level of Evidence: 4.

Diagnostic Yield of Axial Computed Tomography Scans for Pediatric Axial Skeletal Injuries.

STUDY DESIGN: Retrospective cohort study. OBJECTIVE: To evaluate the diagnostic yield of computed tomography (CT) imaging of the axial skeleton in pediatric patients evaluated a level I trauma center. SUMMARY OF BACKGROUND DATA: CT imaging has become ubiquitous in the assessment of axial skeletal injuries in trauma patients. METHODS: This is a retrospective study from one Level I trauma center of patients undergoing CT imaging during pediatric trauma assessment. Medical records of pediatric trauma patients 18-year old and younger who underwent axial skeletal CT imaging from 2013 to 2015 were evaluated. The following were assessed: mechanism of injury, age, sex, race/ethnicity, presence of fracture, management of fracture. RESULTS: A total of 831 patients were assessed, there were 355 (42.7%) females and 476 males (57.3%) with an average age of 15.4 (2 mo-18 yrs). 588 (70.8%) were White, 164 (19.7%) were African-American, 12 (1.4%) were Asians, 67 (8.1%) other, and 46 (5.5%) identified as Hispanic. There were 45 patients (5.4%) who sustained 52 fractures. Common mechanisms were motor vehicle accidents (MVA) 28%, sports injuries (18%), and fall from height (15%). 35.9% of fractures were identified on plain radiographs. Nine injuries were treated surgically (one cervical, two thoracic, two lumbar, and four pelvic); three of these were identified on radiographs. From the 14 patients with cervical spine fractures none were detected on radiographs. CONCLUSION: In this large series of 831 pediatric patients undergoing axial CT imaging, the rate of axial fractures was 5.4%. The majority of these fractures were managed non-surgically. Only 35.9% of fractures were identified on radiographs.Level of Evidence: 3.

What Is the Return on Investment of Spine Society Research Grants?

STUDY DESIGN: Retrospective, observational -study. OBJECTIVE: The objective of this study is to evaluate the return on investment (ROI) of the Cervical Spine Research Society (CSRS), Scoliosis Research Society (SRS), and North America Spine Society (NASS) grants as quantified by the number of publications generated and federal grants obtained (National Institute of Health [NIH], Department of Defense [DOD]). SUMMARY OF BACKGROUND DATA: The CSR, SRS, and NASS, have awarded numerous research grants over the past three decades. METHODS: Through publicly available data we identified grants awarded by the Spine Societies. We collected the type of grant awarded, the Principal Investigator information, dollar amount of the grant, number of publications in PubMed from each grant, number of citations, and the publication journal. The NIH and DOD website were queried to determine which grantees subsequently received either NIH or DoD funding. RESULTS: From 1989 to 2016: 81 (CSRS), 126 (SRS), and 93 (NASS) grants were awarded. From these grants 206 publications acknowledged receiving financial support from the spine societies. The SRS funded 100 papers, NASS 62 papers, and CSRS 44 papers. A total of 32 NIH grants and four DOD grants were subsequently awarded. The conversion rate to NIH grants was 15% (n = 12 CSRS), 7.9% (n = 10 SRS), and 11% (n = 10 NASS). The conversion rate to DOD grants was 3.7% (n = 3 CSRS), 0.8% (n = 1 SRS), and 0% (n = 0 NASS). ROI of spine society grant dollars per future NIH and DoD grants were the lowest for CSRS (Dollars Per NIH Grant: $207,434; Dollars Per DoD Grant: $829,734). Male investigators received 85% of CSRS grants, 75% of SRS grants, and 83% of NASS grants. CONCLUSION: CSRS grants appear to have the highest ROI of all spine society grants when evaluating subsequent NIH and DOD funding. However, the overall conversion rate to NIH and DOD grants remains low.Level of Evidence: 3.

Bone morphogenic protein-2 signaling in human disc degeneration and correlation to the Pfirrmann MRI grading system.

BACKGROUND CONTEXT: Back and neck pain secondary to disc degeneration is a major public health burden. There is a need for therapeutic treatments to restore intervertebral disc (IVD) composition and function. PURPOSE: To quantify ALK3, BMP-2, pSMAD1/5/8 and MMP-13 expression in IVD specimens collected from patients undergoing surgery for disc degeneration, to correlate ALK3, BMP-2, pSMAD1/5/8 and MMP-13 expression in IVD specimens to the 5-level Pfirrmann MRI grading system, and to compare ALK3, BMP-2, pSMAD1/5/8 and MMP-13 expression between cervical and lumbar degenerative disc specimens. STUDY DESIGN: An immunohistochemical study assessing ALK3, BMP-2, pSMAD1/5/8, and MMP-13 expression levels in human control and degenerative IVD specimens. METHODS: Human IVD specimens were collected from surgical patients who underwent discectomy and interbody fusion at our institution between 1/2015 and 8/2017. Each patient underwent MRI prior to surgery. The degree of disc degeneration was measured according to the 5-level Pfirrmann MRI grading system. Patients were categorized into either the 1) control group (Pfirrmann grades I-II) or 2) degenerative group (Pfirrmann grades III-V). Histology slides of the collected IVD specimens were prepared and immunohistochemical staining was performed to assess ALK3, BMP-2, pSMAD1/5/8, and MMP-13 expression levels in the control and degenerative specimens. Expression levels were also correlated to the Pfirrmann criteria. Lastly, the degenerative specimens were stratified according to their vertebral level and expression levels between the degenerative lumbar and cervical discs were compared. RESULTS: Fifty-two patients were enrolled; however, 2 control and 2 degenerative patients were excluded due to incomplete data sets. Of the remaining 48 patients, there were 12 control and 36 degenerative specimens. Degenerative specimens had increased expression levels of BMP-2 (p=.0006) and pSMAD1/5/8 (p<.0001). Pfirrmann grade 3 (p=.0365) and grade 4 (p=.0008) discs had significantly higher BMP-2 expression as compared to grade 2 discs. Pfirrmann grade 4 discs had higher pSMAD1/5/8 expression as compared to grade 2 discs (p<.0001). There were no differences in ALK3 or MMP-13 expression between the control and degenerative discs (p>.05). Stratifying the degenerative specimens according to their vertebral level showed no significant differences in expression levels between the lumbar and cervical discs (p>.05). CONCLUSIONS: BMP-2 and pSMAD1/5/8 signaling activity was significantly upregulated in the human degenerative specimens, while ALK3 and MMP-13 expression were not significantly changed. The expression levels of BMP-2 and pSMAD1/5/8 correlate positively with the degree of disc degeneration measured according to the Pfirrmann MRI grading system. CLINICAL SIGNIFICANCE: BMP-SMAD signaling represents a promising therapeutic target to restore IVD composition and function in the setting of disc degeneration.

Role of oxidative metabolism in osseointegration during spinal fusion.

Spinal fusion is a commonly performed orthopedic surgery. Autologous bone graft obtained from the iliac crest is frequently employed to perform spinal fusion. Osteogenic bone marrow stromal (a.k.a. mesenchymal stem) cells (BMSCs) are believed to be responsible for new bone formation and development of the bridging bone during spinal fusion, as these cells are located in both the graft and at the site of fusion. Our previous work revealed the importance of mitochondrial oxidative metabolism in osteogenic differentiation of BMSCs. Our objective here was to determine the impact of BMSC oxidative metabolism on osseointegration of the graft during spinal fusion. The first part of the study was focused on correlating oxidative metabolism in bone graft BMSCs to radiographic outcomes of spinal fusion in human patients. The second part of the study was focused on mechanistically proving the role of BMSC oxidative metabolism in osseointegration during spinal fusion using a genetic mouse model. Patients' iliac crest-derived graft BMSCs were identified by surface markers. Mitochondrial oxidative function was detected in BMSCs with the potentiometric probe, CMXRos. Spinal fusion radiographic outcomes, determined by the Lenke grade, were correlated to CMXRos signal in BMSCs. A genetic model of high oxidative metabolism, cyclophilin D knockout (CypD KO), was used to perform spinal fusion in mice. Graft osseointegration in mice was assessed with micro-computed tomography. Our study revealed that higher CMXRos signal in patients' BMSCs correlated with a higher Lenke grade. Mice with higher oxidative metabolism (CypD KO) had greater mineralization of the spinal fusion bridge, as compared to the control mice. We therefore conclude that higher oxidative metabolism in BMSCs correlates with better spinal fusion outcomes in both human patients and in a mouse model. Altogether, our study suggests that promoting oxidative metabolism in osteogenic cells could improve spinal fusion outcomes for patients.

Operative Anatomy of the Medial Gastrocnemius Recession vs the Proximal Medial Gastrocnemius Recession.

BACKGROUND: Isolated gastrocnemius contracture (IGC) is associated with various foot and ankle pathologies. To address the problem of IGC, a number of gastrocnemius lengthening procedures have been described. Although proximal medial gastrocnemius recession (PMGR) has shown to be an effective operative treatment for IGC, it poses risks to various anatomic structures around the knee joint and requires the patient to be positioned prone. As an alternative, we proposed to release the medial gastrocnemius at the division between the proximal one-third and distal two-thirds of the gastrocnemius muscle to correct equinus contracture, while minimizing risk to other structures. The aim of this study was to describe an anatomic basis for a medial gastrocnemius recession (MGR) and to investigate the anatomic structures at risk in comparison to PMGR. METHODS: Eight cadaveric lower leg specimens were used in the study. The standard PMGR and the novel MGR were performed on each specimen. After completion of the 2 procedures, complete dissection was performed to investigate the distances between surgically released fascia margins and surrounding anatomic structures, including the greater saphenous vein, small saphenous vein, saphenous nerve, medial sural cutaneous nerve, semimembranosus tendon, tibial nerve, and popliteal artery. The mean distances were calculated and the shortest distances for each structure were reported. RESULTS: Proximities of anatomic structures to surgically released gastrocnemius fascia at the medial and lateral margins were notably different between the 2 techniques. For the PMGR, the semimembranosus tendon (95% confidence interval of 2.4-7.4 mm), small saphenous vein (3.4-10.0 mm), popliteal artery (3.9-9.3 mm), and tibial nerve (5.0-11.1 mm) were in greater proximity to the operative margin. For the MGR, the greater saphenous vein (5.3-17.6 mm) and saphenous nerve (5.1-18.6 mm) were at greater risk. CONCLUSIONS: MGR at the proximal one-third of the gastrocnemius muscle may be a safe alternative for operative treatment of IGC. CLINICAL RELEVANCE: We identified the major structures at risk when performing the proximal medial gastrocnemius release and propose a novel, possibly safer alternative for the medial gastrocnemius release.

Distal Radioulnar Joint Reaction Force Following Ulnar Shortening: Diaphyseal Osteotomy Versus Wafer Resection.

PURPOSE: To compare how ulnar diaphyseal shortening and wafer resection affect distal radioulnar joint (DRUJ) joint reaction force (JRF) using a nondestructive method of measurement. Our hypothesis was that ulnar shortening osteotomy would increase DRUJ JRF more than wafer resection. METHODS: Eight fresh-frozen human cadaveric upper limbs were obtained. Under fluoroscopic guidance, a threaded pin was inserted into the lateral radius orthogonal to the DRUJ and a second pin was placed in the medial ulna coaxial to the radial pin. Each limb was mounted onto a mechanical tensile testing machine and a distracting force was applied across the DRUJ while force and displacement were simultaneously measured. Data sets were entered into a computer and a polynomial was generated and solved to determine the JRF. This process was repeated after ulnar diaphyseal osteotomy, ulnar re-lengthening, and ulnar wafer resection. The JRF was compared among the 4 conditions. RESULTS: Average baseline DRUJ JRF for the 8 arms increased significantly after diaphyseal ulnar shortening osteotomy (7.2 vs 10.3 N). Average JRF after re-lengthening the ulna and wafer resection was 6.9 and 6.7 N, respectively. There were no differences in JRF among baseline, re-lengthened, and wafer resection conditions. CONCLUSIONS: Distal radioulnar joint JRF increased significantly after ulnar diaphyseal shortening osteotomy and did not increase after ulnar wafer resection. CLINICAL RELEVANCE: Diaphyseal ulnar shortening osteotomy increases DRUJ JRF, which may lead to DRUJ arthrosis.

A nondestructive, reproducible method of measuring joint reaction force at the distal radioulnar joint.

PURPOSE: To develop a nondestructive method of measuring distal radioulnar joint (DRUJ) joint reaction force (JRF) that preserves all periarticular soft tissues and more accurately reflects in vivo conditions. METHODS: Eight fresh-frozen human cadaveric limbs were obtained. A threaded Steinmann pin was placed in the middle of the lateral side of the distal radius transverse to the DRUJ. A second pin was placed into the middle of the medial side of the distal ulna colinear to the distal radial pin. Specimens were mounted onto a tensile testing machine using a custom fixture. A uniaxial distracting force was applied across the DRUJ while force and displacement were simultaneously measured. Force-displacement curves were generated and a best-fit polynomial was solved to determine JRF. RESULTS: All force-displacement curves demonstrated an initial high slope where relatively large forces were required to distract the joint. This ended with an inflection point followed by a linear area with a low slope, where small increases in force generated larger amounts of distraction. Each sample was measured 3 times and there was high reproducibility between repeated measurements. The average baseline DRUJ JRF was 7.5 N (n = 8). CONCLUSIONS: This study describes a reproducible method of measuring DRUJ reaction forces that preserves all periarticular stabilizing structures. This technique of JRF measurement may also be suited for applications in the small joints of the wrist and hand. CLINICAL RELEVANCE: Changes in JRF can alter native joint mechanics and lead to pathology. Reliable methods of measuring these forces are important for determining how pathology and surgical interventions affect joint biomechanics.