Your search keyword '"Jayson Loeffert"' showing total 11 results

1. Refinement of saliva microRNA biomarkers for sports-related concussion

Author

Timothy Lee, Gregory R. Fedorchak, Cayce Onks, Christopher Neville, Raymond Y. Kim, Zofia E. Gagnon, Samantha DeVita, Elise Fengler, Callan D. McLoughlin, Chuck Monteith, Thomas R. Campbell, Matthew Heller, Miguel Madeira, Steven D. Hicks, Kevin J. Zhen, Michael N. Dretsch, Robert P. Olympia, Scott L. Zuckerman, Andrea C. Loeffert, and Jayson Loeffert

Subjects

Oncology, Saliva, medicine.medical_specialty, biology, business.industry, Traumatic brain injury, Athletes, Confounding, Physical Therapy, Sports Therapy and Rehabilitation, medicine.disease, biology.organism_classification, Logistic regression, Internal medicine, microRNA, Concussion, Medicine, Biomarker (medicine), Orthopedics and Sports Medicine, business

Abstract

Recognizing sport-related concussion (SRC) is challenging and relies heavily on subjective symptom reports. An objective, biological marker could improve recognition and understanding of SRC. There is emerging evidence that salivary micro-ribonucleic acids (miRNAs) may serve as biomarkers of concussion; however, it remains unclear whether concussion-related miRNAs are impacted by exercise. We sought to determine whether 40 miRNAs previously implicated in concussion pathophysiology were affected by participation in a variety of contact and non-contact sports. Our goal was to refine a miRNA-based tool capable of identifying athletes with SRC without the confounding effects of exercise.This case-control study harmonized data from concussed and non-concussed athletes recruited across 10 sites. Levels of salivary miRNAs within 455 samples from 314 individuals were measured with RNA sequencing. Within-subjects testing was used to identify and exclude miRNAs that changed with either: (a) a single episode of exercise (166 samples from 83 individuals) or (b) season-long participation in contact sports (212 samples from 106 individuals). The miRNAs that were not impacted by exercise were interrogated for SRC diagnostic utility using logistic regression (172 samples from 75 concussed and 97 non-concussed individuals).Two miRNAs (miR-532-5p, miR-182-5p) decreased (adjusted p0.05) after a single episode of exercise, and 1 miRNA (miR-4510) increased only after contact sports participation. Twenty-three miRNAs changed at the end of a contact sports season. Two of these miRNAs (miR-26b-3p, miR-29c-3p) were associated (R0.50; adjusted p0.05) with the number of head impacts sustained in a single football practice. Among the 15 miRNAs not confounded by exercise or season-long contact sports participation, 11 demonstrated a significant difference (adjusted p0.05) between concussed and non-concussed participants, and 6 displayed moderate ability (AUC0.70) to identify concussion. A single ratio (miR-27a-5p/miR-30a-3p) displayed the highest accuracy (AUC = 0.810, sensitivity = 82.4%, specificity = 73.3%) for differentiating concussed and non-concussed participants. Accuracy did not differ between participants with SRC and non-SRC (z = 0.5, p = 0.60).Salivary miRNA levels may accurately identify SRC when not confounded by exercise. Refinement of this approach in a large cohort of athletes could eventually lead to a non-invasive, sideline adjunct for SRC assessment.

Published

2023

2. Defining Biological Phenotypes of Mild Traumatic Brain Injury Using Saliva MicroRNA Profiles

Author

Steven D, Hicks, John, Leddy, Brooke P, Lichak, Cayce, Onks, Michael, Dretsch, Priscilla, Tennant, Mohammad Nadir, Haider, Robert P, Olympia, Scott L, Zuckerman, Jayson, Loeffert, Andrea C, Loeffert, Chuck, Monteith, and Christina L, Master

Subjects

Male, MicroRNAs, Phenotype, Humans, Female, Prospective Studies, Neurology (clinical), Saliva, Brain Concussion

Abstract

Concussion is a heterogeneous injury that relies predominantly on subjective symptom reports for patient assessment and treatment. Developing an objective, biological test could aid phenotypic categorization of concussion patients, leading to advances in personalized treatment. This prospective multi-center study employed saliva micro-ribonucleic acid (miRNA) levels to stratify 251 individuals with concussion into biological subgroups. Using miRNA biological clusters, our objective was to assess for differences in medical/demographic characteristics, symptoms, and functional measures of balance and cognition. The miRNAs that best defined each cluster were used to identify physiological pathways that characterized each cluster. The 251 participants (mean age: 18 ± 7 years; 57% male) were optimally grouped into 10 clusters based on 22 miRNA levels. The clusters differed in age (χ

Published

2022

3. Ultrasound in Sports Injuries

Author

Jayson Loeffert, Eric A. Walker, Cristy French, and Shawn F. Phillips

Subjects

medicine.medical_specialty, Sports injury, Percutaneous, Sports medicine, medicine.diagnostic_test, business.industry, Ultrasound, Physical Therapy, Sports Therapy and Rehabilitation, Physical examination, Musculoskeletal ultrasound, Sports Medicine, medicine.anatomical_structure, Athletic Injuries, medicine, Ligament, Humans, Orthopedics and Sports Medicine, Medical physics, business, Musculoskeletal System, Ultrasonography, General ultrasound

Abstract

Utilization of musculoskeletal ultrasound, in particular for sports medicine, has dramatically increased in recent years. Ultrasound is an important adjunct tool to physical examination and other imaging methods in the evaluation and management of the injured athlete. It offers unique advantages in specific clinical scenarios. Dedicated training and a standardized scanning technique are important to overcome the inherent operator dependence and avoid diagnostic pitfalls. Ultrasound guidance can also improve accuracy in targeted percutaneous injection therapies. This article reviews the general ultrasound appearance of muscle, tendon, ligament, and nerve abnormalities in the athlete with a focus on sport-specific injuries.

Published

2021

4. Wilderness Medicine Boot Camp for Primary Care Sports Medicine Fellows Goes Virtual: From Uncertain Times Comes a Novel Approach to Traditional In-person Teaching

Author

Jayson Loeffert, Cayce Onks, Shawn Phillips, Arthur Berg, and David Rodgers

Subjects

education, Computer applications to medicine. Medical informatics, R858-859.7, virtual, boot camp, survey, wilderness medicine, primary care sports medicine

Abstract

Wilderness medicine (WM) education is desired in Primary Care Sports Medicine fellowship training. Due to the COVID-19 pandemic and travel restrictions, a virtual wilderness medicine boot camp was created to share a WM experience with learners across the United States. A previously led in-person WM boot camp was converted to lecture format and delivered through video conference. This covered information relevant to WM and the sports medicine certification exam. A post intervention survey was completed by 79.5% of participants (128/161). Participants rated the virtual experience positively. Both fellows and faculty felt the virtual boot camp adequately taught WM topics (fellows [5(4-5)], faculty [5(5- 5)], p

Published

2021

5. Saliva RNA biomarkers predict concussion duration and detect symptom recovery: a comparison with balance and cognitive testing

Author

Aaron Roberts, Samantha DeVita, Scott L. Zuckerman, Thomas Uhlig, Jessica Rieger, Mohammad N Haider, Aakanksha Rangnekar, Robert P. Olympia, John J. Leddy, Keith Owen Yeates, Jayson Loeffert, Steven D. Hicks, Andrea C. Loeffert, Chuck Monteith, Timothy Lee, Frank A. Middleton, Rebekah Mannix, Gregory R. Fedorchak, and Cayce Onks

Subjects

Adult, Oncology, medicine.medical_specialty, Neurology, Adolescent, Traumatic brain injury, Clinical prediction rule, Neuropsychological Tests, Young Adult, 03 medical and health sciences, 0302 clinical medicine, return to play, mTBI, 030225 pediatrics, Internal medicine, spit, Concussion, medicine, Humans, Child, Saliva, Brain Concussion, Balance (ability), Original Communication, microRNA, business.industry, traumatic brain injury, Area under the curve, Cognition, medicine.disease, Cognitive test, RNA, prognosis, Neurology (clinical), business, Biomarkers, 030217 neurology & neurosurgery

Abstract

Objective The goals of this study were to assess the ability of salivary non-coding RNA (ncRNA) levels to predict post-concussion symptoms lasting ≥ 21 days, and to examine the ability of ncRNAs to identify recovery compared to cognition and balance. Methods RNA sequencing was performed on 505 saliva samples obtained longitudinally from 112 individuals (8–24-years-old) with mild traumatic brain injury (mTBI). Initial samples were obtained ≤ 14 days post-injury, and follow-up samples were obtained ≥ 21 days post-injury. Computerized balance and cognitive test performance were assessed at initial and follow-up time-points. Machine learning was used to define: (1) a model employing initial ncRNA levels to predict persistent post-concussion symptoms (PPCS) ≥ 21 days post-injury; and (2) a model employing follow-up ncRNA levels to identify symptom recovery. Performance of the models was compared against a validated clinical prediction rule, and balance/cognitive test performance, respectively. Results An algorithm using age and 16 ncRNAs predicted PPCS with greater accuracy than the validated clinical tool and demonstrated additive combined utility (area under the curve (AUC) 0.86; 95% CI 0.84–0.88). Initial balance and cognitive test performance did not differ between PPCS and non-PPCS groups (p > 0.05). Follow-up balance and cognitive test performance identified symptom recovery with similar accuracy to a model using 11 ncRNAs and age. A combined model (ncRNAs, balance, cognition) most accurately identified recovery (AUC 0.86; 95% CI 0.83–0.89). Conclusions ncRNA biomarkers show promise for tracking recovery from mTBI, and for predicting who will have prolonged symptoms. They could provide accurate expectations for recovery, stratify need for intervention, and guide safe return-to-activities.

Published

2021

6. Conservative or surgical management for that shoulder dislocation?

Author

James Tucker, Cayce Onks, Robert A. Gallo, Matthew Silvis, and Jayson Loeffert

Subjects

medicine.medical_specialty, Treatment choices, business.industry, General surgery, Shoulder Dislocation, Clinical Decision-Making, Return to Sport, 03 medical and health sciences, 0302 clinical medicine, Patient age, Dislocation (syntax), medicine, Humans, 030212 general & internal medicine, business, Physical Therapy Modalities

Abstract

A number of factors-including patient age and risk for recurrence-influence treatment choices. Here's a closer look at what to consider.

Published

2021

7. Diagnosing mild traumatic brain injury using saliva RNA compared to cognitive and balance testing

Author

Justin Wenzel, John J. Leddy, Jason Randall, Aakanksha Rangnekar, Aaron M Yengo-Kahn, Zofia E. Gagnon, Jayson Loeffert, Kevin J. Zhen, Samantha DeVita, Christopher Neville, Mohammad N Haider, Andrea C. Loeffert, Callan D. McLoughlin, Frank A. Middleton, Matthew Heller, Samantha L Johnson, Chuck Monteith, Thomas R. Campbell, Steven D. Hicks, Matthew Badia, Miguel Madeira, Gregory R. Fedorchak, Cayce Onks, Michael N. Dretsch, Raymond Y. Kim, Robert P. Olympia, Aaron Roberts, Rebekah Mannix, and Hallie Zwibel

Subjects

0301 basic medicine, Saliva, medicine.medical_specialty, Traumatic brain injury, diagnosis, neurocognition, Medicine (miscellaneous), 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Concussion, Medicine, Research Articles, Balance (ability), saliva, lcsh:R5-920, business.industry, traumatic brain injury, Area under the curve, Cognition, balance, medicine.disease, 030104 developmental biology, 030220 oncology & carcinogenesis, concussion, Molecular Medicine, Biomarker (medicine), biomarker, RNA, business, lcsh:Medicine (General), Neurocognitive, Research Article

Abstract

Background Early, accurate diagnosis of mild traumatic brain injury (mTBI) can improve clinical outcomes for patients, but mTBI remains difficult to diagnose because of reliance on subjective symptom reports. An objective biomarker could increase diagnostic accuracy and improve clinical outcomes. The aim of this study was to assess the ability of salivary noncoding RNA (ncRNA) to serve as a diagnostic adjunct to current clinical tools. We hypothesized that saliva ncRNA levels would demonstrate comparable accuracy for identifying mTBI as measures of symptom burden, neurocognition, and balance. Methods This case‐control study involved 538 individuals. Participants included 251 individuals with mTBI, enrolled ≤14 days postinjury, from 11 clinical sites. Saliva samples (n = 679) were collected at five time points (≤3, 4‐7, 8‐14, 15‐30, and 31‐60 days post‐mTBI). Levels of ncRNAs (microRNAs, small nucleolar RNAs, and piwi‐interacting RNAs) were quantified within each sample using RNA sequencing. The first sample from each mTBI participant was compared to saliva samples from 287 controls. Samples were divided into testing (n = 430; mTBI = 201 and control = 239) and training sets (n = 108; mTBI = 50 and control = 58). The test set was used to identify ncRNA diagnostic candidates and create a diagnostic model. Model accuracy was assessed in the naïve test set. Results A model utilizing seven ncRNA ratios, along with participant age and chronic headache status, differentiated mTBI and control participants with a cross‐validated area under the curve (AUC) of .857 in the training set (95% CI, .816‐.903) and .823 in the naïve test set. In a subset of participants (n = 321; mTBI = 176 and control = 145) assessed for symptom burden (Post‐Concussion Symptom Scale), as well as neurocognition and balance (ClearEdge System), these clinical measures yielded cross‐validated AUC of .835 (95% CI, .782‐.880) and .853 (95% CI, .803‐.899), respectively. A model employing symptom burden and four neurocognitive measures identified mTBI participants with similar AUC (.888; CI, .845‐.925) as symptom burden and four ncRNAs (.932; 95% CI, .890‐.965). Conclusion Salivary ncRNA levels represent a noninvasive, biologic measure that can aid objective, accurate diagnosis of mTBI., Levels of nine salivary noncoding RNAs (ncRNAs) accurately differentiated 251 individuals with mild traumatic brain injury (mTBI) from 287 peers with mTBI‐like symptoms. ncRNA performance (area under the curve [AUC] = .857) was similar to other diagnostic adjuncts: neurocognition (AUC = .835) and balance (AUC = .853). Combining ncRNA levels with symptom severity (AUC = .932) demonstrated comparable accuracy to current clinical guidelines (symptom severity plus neurocognition; AUC = .888).

Published

2020

8. Conservative care or surgery for rotator cuff tears?

Author

Cayce, Onks, Matthew, Silvis, Jayson, Loeffert, James, Tucker, and Robert A, Gallo

Subjects

Adult, Male, Patient Selection, Clinical Decision-Making, Age Factors, Recovery of Function, Middle Aged, Conservative Treatment, Risk Assessment, Rotator Cuff Injuries, Arthroscopy, Injury Severity Score, Sex Factors, Treatment Outcome, Humans, Female, Orthopedic Procedures, Life Style, Aged

Abstract

Selecting the appropriate Tx for the patient's circumstances- including age, activity level, and the size and depth of the tear-boosts the chances of a favorable outcome.

Published

2020

9. 4043 Saliva microRNA for pediatric concussion assessment

Author

Robert P. Olympia, Andrea C. Loeffert, Kevin J. Zhen, Raymond Y. Kim, Cayce Onks, Jayson Loeffert, and Steven D. Hicks

Subjects

Oncology, Saliva, medicine.medical_specialty, business.industry, Internal medicine, Concussion, microRNA, medicine, General Medicine, medicine.disease, business

Abstract

OBJECTIVES/GOALS: There is no objective, biologic tool to detect concussion or guide clinical management. We previously showed that saliva microRNA (miRNA) levels differ in children with concussion and may predict symptom duration. The purpose of this study was to validate the utility of saliva miRNA and define longitudinal trends during the recovery period. METHODS/STUDY POPULATION: We collected concussion symptom burden (SCAT-5), cognitive performance (DANA), balance measures (ClearEdge), and saliva from 150 children (7-21 years) with concussion over 5 time-points: 0-2, 3-6, 7-14, 15-29, and 30-60 days post-injury. Saliva miRNA levels within the 443 concussion samples were quantified with RNA sequencing and compared to 218 samples from age- and sex-matched controls (healthy and post-exercise participants). Non-parametric ANOVA assessed RNA levels across time-points, and between concussions/controls. Machine learning was used to build logistic regression algorithms differentiating concussions/controls, and symptomatic/recovered concussion participants. Relationships between miRNAs and concussion phenotypes were explored with Spearman’s Rank correlations. RESULTS/ANTICIPATED RESULTS: Fifteen miRNAs differed across control and concussion participants (FDR < 0.05). Within concussion participants, all 15 miRNAs trended back toward control levels by 30-60 days post injury. A regression algorithm employing 6 of the 15 miRNAs differentiated control and concussion participants with an area under the curve (AUC) of 0.78 in a training set (n = 244) and 0.84 in a naïve test set (n = 24). Similarly, 6 miRNAs were able to differentiate symptomatic (SCAT-5 symptom score > 7) and asymptomatic concussion participants with an AUC of 0.73 in a training set (n = 219) and 0.76 in a naïve test set (n = 44). Furthermore, 5 miRNAs showed significant (R > 0.3; FDR < 0.05) associations with subjective and/or objective measures of concussion-related symptoms. DISCUSSION/SIGNIFICANCE OF IMPACT: Saliva miRNAs levels are altered in children with concussion, and display predictable longitudinal trends following injury. Saliva miRNA measurement represents a non-invasive, objective tool that could be rapidly assessed to provide biologic evidence for clinicians managing pediatric concussion. CONFLICT OF INTEREST DESCRIPTION: I serve as a paid consultant and scientific advisory board member for Quadrant Biosciences, who has funded a portion of this work and licensed the findings from the Penn State College of Medicine.

Published

2020

10. Overuse Apophyseal Injuries

Author

Jayson Loeffert and Cayce Onks

Subjects

medicine.medical_specialty, business.industry, Ossification, Chronic pain, Sever's disease, Microtrauma, Anatomy, medicine.disease, Surgery, Medial epicondyle apophysitis, Avulsion, Fibrous nonunion, medicine, medicine.symptom, business, Apophysitis

Abstract

Apophysitis is an injury secondary to overuse, seen in young, skeletally immature athletes. It is believed to result from repetitive microtrauma from forceful contractions by surrounding musculature. In the immature athlete, the area surrounding the growth plate, or apophysis, is relatively weak compared to attached tendons. Chronic tension from these attachments causes bony disruption, and may lead to avulsion of the secondary ossification centers. As this area continues to grow, ossify, and enlarge, fibrous nonunion or union with bony enlargement may result. These areas of bony disruption may become painful and persist during an athlete’s growing years. Pain will generally resolve after growth completes in an athlete; however, occasional individuals may complain of chronic pain into adulthood. Many areas of the body can be affected, and they are discussed separately in this chapter.

Published

2018

11. Contributors

Author

Ayesha Abid, Spencer A. Adoff, Tabassum F. Ali, Siraj Amanullah, Adae Amoako, Jennifer F. Anders, Nadine Aprahamian, Jeffrey R. Avner, Michael C. Bachman, Richard G. Bachur, Jennifer Bellis, Craig F. Betchart, Harsh Bhakta, Toral Bhakta, Lauren E. Borowski, Jodi Brady-Olympia, Kathryn S. Brigham, Jeffrey I. Campbell, Therese L. Canares, Steven Chan, Bradley Chappell, Joel M. Clingenpeel, Jeff Cloyd, Ariel Cohen, Douglas Comeau, Ryan Cudahy, Kaynan Doctor, Jennifer Dunnick, Michele J. Fagan, Daniel M. Fein, Fidel Garcia Fernandez, Jennifer Fishe, Sylvia E. Garcia, Timothy J. Gill, Scott Goldstein, Bryan Greenfield, Vernne W. Greiner, Maya Haasz, Selena Hariharan, Kristin Herbert, Bruce E. Herman, Sixtine Valdelièvre Herold, Crystal M. Higginson, Toni Clare Hogencamp, Bret C. Jacobs, Leah Kaye, Abbie Kelley, Alicia Kenton, Brian Kipe, Steven J. Kleinman, Atsuko Koyama, Karen Y. Kwan, Mark E. Lavallee, Duron A. Lee, Susannah Lichtenstein, Laura J. Lintner, Jayson Loeffert, Todd Mastrovitch, Sarah D. Meskill, Christopher M. Miles, Mark H. Mirabelli, Ariella Nadler, Ariel Nassim, Yashas Nathani, Chadd E. Nesbit, Anne M. O’Connor, Robert P. Olympia, Rory M. O’Neill, Cayce Onks, John A. Park, Jay Pershad, Nicholas Pfeifer, Christopher M. Pruitt, George G.A. Pujalte, Joni E. Rabiner, Eric Requa, Lilia Reyes, Ruby F. Rivera, Jeffrey A. Rixe, Emily Rose, Jerri A. Rose, Timothy Salkauskis, Esther Maria Sampayo, Jennifer E. Sanders, Sandra K. Schumacher, Kara K. Seaton, Peter H. Seidenberg, Alexander Y. Sheng, Matthew L. Silvis, Samantha F. Singer, Lindsay A. Smith, Joseph Spinell, Ee Tein Tay, Heath C. Thornton, Thomas H. Trojian, Peggy Tseng, Bryan D. Upham, Michelle N. Vazquez, Jeffrey A. Waskin, Robert D. Wilkinson, Robert B. Windsor, and Daniel Ta Yo Yu

Published

2018