Jeremy D Carroll scite author profile

Category: Trauma Introduction/Purpose: The diagnosis of traumatic arthrotomy is typically made through a saline load test (SLT), though there has been a growing base of literature regarding the use of computed tomography (CT) scan in various joints for diagnosis. To date, there has been little data supporting the use of CT to diagnose traumatic arthrotomy of the ankle. Through simulated arthrotomies of the ankle in cadavers, we aim to assess the sensitivity and ability of CT for diagnosing traumatic arthrotomy. SLT were also performed in each specimen to determine the volume of saline needed for diagnosis. Methods: Six fresh-frozen cadavers with twelve ankles were initially included in this study. The presence of intra-articular air prior to arthrotomy was excluded with a baseline CT scan. Ankles underwent arthrotomy at the anterolateral, anteromedial, posteromedial, posterolateral portals with fluoroscopic guidance. A subsequent CT scan was obtained to identify the presence of intra-articular air. Ankles then underwent SLT and volumes resulting in extravasation were recorded. Results: Eleven ankles were included, with one exclusion due to the presence of implants. Arthrotomies were made in three ankles at the anterolateral portal, three at the anteromedial portal, two at the posteromedial portal, and three at the posterolateral portal. Following arthrotomy, intra-articular air was detected in all eleven ankles by CT scan. All eleven ankles were subjected to SLT, with each demonstrating extravasation through the arthrotomy site. The mean volume of saline needed for extravasation was 7.7 mL, with a range of 3 to 22 mL and a standard deviation of 5.4. Conclusion: CT scan was demonstrated to be sensitive and effective in diagnosing traumatic arthrotomy in a cadaveric model.

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Total Hip and Knee Arthroplasty Surgery in the Morbidly Obese Patient

Carroll

Young

Mori

et al. 2023

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Obesity, defined as body mass index (BMI) $30, is a serious public health concern associated with an increased incidence of stroke, diabetes, mental illness, and cardiovascular disease resulting in numerous preventable deaths yearly.» From 1999 through 2018, the age-adjusted prevalence of morbid obesity (BMI $40) in US adults aged 20 years and older has risen steadily from 4.7% to 9.2%, with other estimates showing that most of the patients undergoing hip and knee replacement by 2029 will be obese (BMI $30) or morbidly obese (BMI $40).» In patients undergoing total joint arthroplasty (TJA), morbid obesity (BMI $40) is associated with an increased risk of perioperative complications, including prosthetic joint infection and mechanical failure necessitating aseptic revision.Disclosure: The Disclosure of Potential Conflicts of Interest forms are provided with the online version of the article (http://links.lww.com/JBJSREV/A938).

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Computed Tomography Scan Versus Saline Load Test for Detection of Traumatic Shoulder Arthrotomy: A Cadaveric Study

Mori

Lakra

Gheewala

et al. 2023

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Objectives: Traumatic shoulder arthrotomy (TSA) is a rare injury that is commonly detected through saline load test (SLT). There are no studies that have studied the ability of computed tomography (CT) scan to detect a TSA. The purpose of this study is to determine the ability of CT scan to detect a TSA and compare it with the SLT. Methods: Twelve cadaveric shoulders were included in the study. Before intervention, a CT scan was conducted to determine presence of intra-articular air. After confirmation that no air was present, an arthrotomy was made at the anterior or posterior portal site. A CT was obtained postarthrotomy to evaluate for intra-articular air. Each shoulder then underwent an SLT to assess the sensitivity of SLT and the volume needed for extravasation. Results: Twelve shoulders were included after a pre-intervention CT scan. Six shoulders received an arthrotomy through the anterior portal and six shoulders received an arthrotomy through the posterior portal. After the arthrotomy, air was visualized on CT scan in 11 of the 12 shoulders (92%). All 12 shoulders demonstrated extravasation during SLT. The mean volume of saline needed for extravasation was 29 mL with an SD of 10 and range of 18–50 mL. Conclusions: CT scan is a sensitive modality (sensitivity of 92%) for detection of TSA. In comparison, SLT is more sensitive (sensitivity of 100%) and outperforms CT scan for the diagnosis of TSA in a cadaveric model. Further research is needed to solidify the role that CT imaging has in the diagnosis of TSAs.

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Jeremy D Carroll

microRNA-141 regulates BMI1 expression and induces senescence in human diploid fibroblasts

Computed Tomography Scan vs Saline Load Test in the Detection of Traumatic Arthrotomies of the Ankle: A Cadaveric Study

Total Hip and Knee Arthroplasty Surgery in the Morbidly Obese Patient

Computed Tomography Scan Versus Saline Load Test for Detection of Traumatic Shoulder Arthrotomy: A Cadaveric Study

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