Your search keyword '"Nicole M. Sekel"' showing total 16 results

1. Skeletal muscle adaptations to high‐intensity, low‐volume concurrent resistance and interval training in recreationally active men and women

Author

Adam J. Sterczala, Nathaniel Rodriguez‐Ortiz, Evan D. Feigel, Kellen T. Krajewski, Brian J. Martin, Nicole M. Sekel, Mita Lovalekar, Christopher K. Kargl, Kristen J. Koltun, Carola Van Eck, Shawn D. Flanagan, Christopher Connaboy, Sophie L. Wardle, Thomas J. O'Leary, Julie P. Greeves, and Bradley C. Nindl

Subjects

capillarization, concurrent training, fiber type, hypertrophy, resistance training, Physiology, QP1-981

Abstract

Abstract This study compared the structural and cellular skeletal muscle factors underpinning adaptations in maximal strength, power, aerobic capacity, and lean body mass to a 12‐week concurrent resistance and interval training program in men and women. Recreationally active women and men completed three training sessions per week consisting of high‐intensity, low‐volume resistance training followed by interval training performed using a variety upper and lower body exercises representative of military occupational tasks. Pre‐ and post‐training vastus lateralis muscle biopsies were analyzed for changes in muscle fiber type, cross‐sectional area, capillarization, and mitochondrial biogenesis marker content. Changes in maximal strength, aerobic capacity, and lean body mass (LBM) were also assessed. Training elicited hypertrophy of type I (12.9%; p = 0.016) and type IIa (12.7%; p = 0.007) muscle fibers in men only. In both sexes, training decreased type IIx fiber expression (1.9%; p = 0.046) and increased total PGC‐1α (29.7%, p

Published

2024

2. Effect of acute resistance exercise on bone turnover in young adults before and after concurrent resistance and interval training

Author

Kristen J. Koltun, Adam J. Sterczala, Nicole M. Sekel, Kellen T. Krajewski, Brian J. Martin, Mita Lovalekar, Christopher Connaboy, Shawn D. Flanagan, Sophie L. Wardle, Thomas J. O'Leary, Julie P. Greeves, and Bradley C. Nindl

Subjects

adaptive bone formation, bone turnover, muscle‐bone crosstalk, sex differences, Physiology, QP1-981

Abstract

Abstract Weight‐bearing physical activity can stimulate bone adaptation. This investigation explored the effect of an acute bout of resistance exercise before and after resistance+interval training on circulating biomarkers of bone metabolism and muscle‐bone crosstalk. Healthy young male and female participants (n = 21 male, 28 ± 4 years; n = 17 female, 27 ± 5 years) performed a 6 × 10 squat test (75% 1RM) before and after a 12‐week resistance+interval training program. Before and after completion of the training program, blood samples were collected at rest, immediately postexercise, and 2 h postexercise. Blood samples were analyzed for βCTX, P1NP, sclerostin, osteocalcin, IGF‐1, and irisin. Significant effects of acute exercise (main effect of time) were observed as increases in concentrations of IGF‐1, irisin, osteocalcin, and P1NP from rest to postexercise. A sex*time interaction indicated a greater decline in βCTX concentration from rest to 2 h postexercise and a greater increase in sclerostin concentration from rest to immediately postexercise in male compared with female participants. Sex differences (main effect of sex) were also observed for irisin and P1NP concentrations. In summary, changes in concentrations of biochemical markers of bone metabolism and muscle‐bone crosstalk were observed in males and females after an acute bout of resistance exercise and following 12 weeks of resistance+interval training.

Published

2024

3. Utility of HR-pQCT in detecting training-induced changes in healthy adult bone morphology and microstructure

Author

Nicole M. Sekel, Julie M. Hughes, Adam J. Sterczala, Kelly H. Mroz, Mita Lovalekar, Jane Cauley, Julie P. Greeves, and Bradley C. Nindl

Subjects

high-resolution pQCT, X-ray, imaging, exercise training, short-term changes, Physiology, QP1-981

Abstract

Healthy bone adjusts its traits in an exceptionally coordinated, compensatory process. Recent advancements in skeletal imaging via High-Resolution Peripheral Quantitative Computed Tomography (HR-pQCT) allows for the in vivo 3-dimensional and longitudinal quantification of bone density, microarchitecture, geometry, and parameters of mechanical strength in response to varying strain stimuli including those resulting from exercise or military training. Further, the voxel size of 61 microns has the potential to capture subtle changes in human bone in as little as 8 weeks. Given the typical time course of bone remodeling, short-term detection of skeletal changes in bone microstructure and morphology is indicative of adaptive bone formation, the deposition of new bone formation, uncoupled from prior resorption, that can occur at mechanistically advantageous regions. This review aims to synthesize existing training-induced HR-pQCT data in three distinct populations of healthy adults excluding disease states, pharmacological intervention and nutritional supplementation. Those included are: 1) military basic or officer training 2) general population and 3) non-osteoporotic aging. This review aims to further identify similarities and contrasts with prior modalities and cumulatively interpret results within the scope of bone functional adaptation.

Published

2023

4. Military tactical adaptive decision making during simulated military operational stress is influenced by personality, resilience, aerobic fitness, and neurocognitive function

Author

Nicole M. Sekel, Meaghan E. Beckner, William R. Conkright, Alice D. LaGoy, Felix Proessl, Mita Lovalekar, Brian J. Martin, Leslie R. Jabloner, Alaska L. Beck, Shawn R. Eagle, Michael Dretsch, Peter G. Roma, Fabio Ferrarelli, Anne Germain, Shawn D. Flanagan, Christopher Connaboy, Amy J. Haufler, and Bradley C. Nindl

Subjects

military personnel, decision making, resilience, psychological, exercise, Psychology, BF1-990

Abstract

Laboratory-based studies designed to mimic combat or military field training have consistently demonstrated deleterious effects on warfighter’s physical, cognitive, and emotional performance during simulated military operational stress (SMOS).PurposeThe present investigation sought to determine the impact of a 48-h simulated military operational stress (SMOS) on military tactical adaptive decision making, and the influence of select psychological, physical performance, cognitive, and physiological outcome measures on decision making performance.MethodsMale (n = 48, 26.2 ± 5.5 years, 177.7 ± 6.6 cm, 84.7 ± 14.1 kg.) subjects currently serving in the U.S. military were eligible to participate in this study. Eligible subjects completed a 96-h protocol that occurred over five consecutive days and four nights. Day 2 (D2) and day 3 (D3) consisted of 48-h of SMOS wherein sleep opportunity and caloric needs were reduced to 50%. Differences in SPEAR total block score from baseline to peak stress (D3 minus D1) were calculated to assess change in military tactical adaptive decision making and groups were stratified based on increase (high adaptors) or decrease (low adaptors) of the SPEAR change score.ResultsOverall, military tactical decision-making declined 1.7% from D1 to D3 (p

Published

2023

5. Tibial Bone Geometry Is Associated With Bone Stress Injury During Military Training in Men and Women

Author

Kristen J. Koltun, Nicole M. Sekel, Matthew B. Bird, Mita Lovalekar, Qi Mi, Brian J. Martin, and Bradley C. Nindl

Subjects

stress fracture, peripheral quantitative computed tomography (pQCT), volumetric bone mineral density (vBMD), musculoskeletal injury risk factor, running, bone imaging, Physiology, QP1-981

Abstract

Bone stress injuries (BSI) are a common musculoskeletal condition among exercising and military populations and present a major burden to military readiness. The purpose of this investigation was to determine whether baseline measures of bone density, geometry, and strength, as assessed via peripheral quantitative computed tomography (pQCT), are predictive of tibial BSI during Marine Officer Candidates School training. Tibial pQCT scans were conducted prior to the start of physical training (n = 504; Male n = 382; Female n = 122) to measure volumetric bone mineral density (vBMD), geometry, robustness, and estimates of bone strength. Bone parameters were assessed at three tibial sites including the distal metaphysis (4% of tibial length measured from the distal endplate), mid-diaphysis (38% of tibial length measured from the distal endplate), and proximal diaphysis (66% of tibial length measured from the distal endplate). Injury surveillance data was collected throughout training. Four percent (n = 21) of the sample were diagnosed with a BSI at any anatomical site during training, 10 injuries were of the tibia. Baseline bone parameters were then tested for associations with the development of a tibial BSI during training and it was determined that cortical bone measures at diaphyseal (38 and 66%) sites were significant predictors of a prospective tibial BSI. At the mid-diaphysis (38% site), in a simple model and after adjusting for sex, age, and body size, total area [Odds Ratio (OR): 0.987, 0.983], endosteal circumference (OR: 0.853, 0.857), periosteal circumference (OR: 0.863, 0.824), and estimated bending strength (SSI; OR: 0.998, 0.997) were significant predictors of a BSI during training, respectively, such that lower values were associated with an increased likelihood of injury. Similarly, at the proximal diaphysis (66% site), total area (OR: 0.989, 0.985), endosteal circumference (OR: 0.855, 0.854), periosteal circumference (OR: 0.867, 0.823), robustness (OR: 0.007, 0.003), and SSI (OR: 0.998, 0.998) were also significant predictors of BSI in the simple and adjusted models, respectively, such that lower values were associated with an increased likelihood of injury. Results from this investigation support that narrower bones, with reduced circumference, lower total area, and lower estimated strength are associated with increased risk for tibial BSI during military training.

Published

2022

6. Neuromuscular Performance and Hormonal Responses to Military Operational Stress in Men and Women

Author

Aaron M. Sinnott, Bradley C. Nindl, William R. Conkright, Felix Proessl, Brian J. Martin, Phil Agostinelli, Shawn R. Eagle, Meaghan E. Beckner, Mita Lovalekar, Nicole M. Sekel, Chris Connaboy, Anne Germain, Tim L. A. Doyle, Alice D. LaGoy, and Shawn D. Flanagan

Subjects

Male, business.industry, media_common.quotation_subject, Physiology, Physical Therapy, Sports Therapy and Rehabilitation, General Medicine, Anger, Negative mood, Military Personnel, Sex Factors, Mood, Physical performance, Humans, Medicine, Endocrine system, Female, Orthopedics and Sports Medicine, business, Stress, Psychological, Depression (differential diagnoses), Morning, media_common, Hormone

Abstract

Conkright, WR, Beckner, ME, Sinnott, AM, Eagle, SR, Martin, BJ, Lagoy, AD, Proessl, F, Lovalekar, M, Doyle, TLA, Agostinelli, P, Sekel, NM, Flanagan, SD, Germain, A, Connaboy, C, and Nindl, BC. Neuromuscular performance and hormonal responses to military operational stress in men and women. J Strength Cond Res XX(X): 000-000, 2021-Women have recently been integrated into ground close combat positions; however, there are limited data in women in these roles. We aimed to test the hypothesis that there would be no sex-specific neuromuscular responses, but hormonal signaling would be differentially impacted when exposed to simulated military operational stress (SMOS). Neuromuscular performance was assessed daily using a tactical mobility test (TMT) in 54 male and 15 female military members. Blood was drawn before/after TMT. Mood states were assessed each morning. Unloaded 300-m shuttle time increased 6% in both sexes and remained 7% higher after 1 day of recovery compared with baseline (p 0.05). Growth hormone increased in men, but not women, before to after TMT (p < 0.001 vs. p = 0.086). Women experienced a greater decline in insulin-like growth factor-I across days compared with men (ηp2 = 0.778 vs. 0.209, respectively, p < 0.001). Brain-derived neurotrophic factor increased significantly in men only from before to after TMT on day 1 (men: +107% vs. women: +10%) but no difference on days 3 or 4. Cortisol increased 69% from before to after TMT when averaged by sex and day. Negative mood states (depression, tension, and anger) and altered hormonal concentrations were associated with poorer TMT performance. Acute SMOS differentially impacted circulating hormonal milieu in men and women, but no differences in physical performance responses. Unloaded 300-m shuttle was negatively impacted while other fitness domains were maintained. Relationships between performance and mood/endocrine signaling highlight the potential for self-report measures and biomarkers to serve as indicators of performance change.

Published

2021

7. Less daytime sleepiness and slow wave activity during sleep predict better physical readiness in military personnel

Author

Alice D. LaGoy, William R. Conkright, Felix Proessl, Aaron M. Sinnott, Meaghan E. Beckner, Leslie Jabloner, Shawn R. Eagle, Nicole M. Sekel, Peter G. Roma, Michael N. Dretsch, Shawn D. Flanagan, Qi Mi, Bradley C. Nindl, Anne Germain, Christopher Connaboy, and Fabio Ferrarelli

Subjects

Behavioral Neuroscience

Abstract

Military personnel must maintain physical performance despite exposure to operational stressors such as sleep loss, caloric restriction and high cognitive load. Habitual sleep and specific sleep features are positively associated with fitness and may contribute to physical performance in operational settings. Further, by affecting muscle recovery, sleep may contribute to the ability to maintain performance across multiple days of exposure to operational stressors.We examined the role of individual differences in baseline sleep on baseline physical performance and on change in physical performance throughout exposure to simulated military operational stress (SMOS).Military personnel (36 male, 9 female, 26.3 ± 5.3 years) completed a 5-day SMOS protocol during which they completed a tactical mobility test daily. Sleep questionnaires were administered at intake and sleep was monitored each night with polysomnography. Lasso regressions were used to identify meaningful predictors of physical performance at baseline and of change in physical performance across SMOS.Better aerobic fitness, lower daytime sleepiness (Epworth Sleepiness Scale), and lower absolute slow wave activity (0.5-4 Hz) predicted better physical performance at baseline (66.1% of variance explained), but did not relate to changes in performance.Collectively, higher daytime sleepiness and slow wave activity may reflect more chronic exposure to insufficient sleep and higher baseline sleep drive, which in turn led to compromised physical performance. The findings suggest that low self-report sleepiness and low objective slow wave activity may reflect two quantifiable markers of healthy sleep behaviors that have implications for operational performance.

Published

2022

8. Slow Wave Activity Sleep Is Significantly Associated With Decision-making During Simulated Military Operational Stress

Author

Nicole M. Sekel, William R. Conkright, Meaghan E. Beckner, Alice D. LaGoy, Felix Proessl, Leslie R. Jabloner, Alaska L. Beck, Shawn Eagle, Mita Lovalekar, Amy Haufler, Fabio Ferrarelli, Anne Germain, Michael Dretsch, Shawn D. Flanagan, Christopher Connaboy, and Bradley C. Nindl

Subjects

Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine

Published

2022

9. 12-weeks Of Resistance Training Elicits Varying Sex Responses In Strength In Military Recruit-aged Adults

Author

Patrick Adam Peterson, Kellen T. Krajewski, Adam J. Sterczala, David N. Mowery, Nicole M. Sekel, Mita Lovalekar, Sophie L. Wardle, Thomas J. O'Leary, Julie P. Greeves, Shawn D. Flanagan, Chris Connaboy, and Bradley C. Nindl

Subjects

Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine

Published

2022

10. Twelve Weeks Of Resistance Training And High Intensity Interval Training Improves Physical Employment Standards Performance

Author

Adam J. Sterczala, Kellen T. Krajewski, Patrick A. Peterson, Nicole M. Sekel, Mita Lovalekar, Sophie L. Wardle, Thomas J. O'Leary, Julie P. Greeves, Shawn D. Flanagan, Chris Connaboy, and Bradley C. Nindl

Subjects

Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine

Published

2022

11. Sex-differences In Bone Density, Geometry, And Estimated Strength Adaptations To 10-weeks Of Military Officer Training

Author

Kristen J. Koltun, Matthew B. Bird, Nicole M. Sekel, Mita Lovalekar, Qi Mi, Brian J. Martin, and Bradley C. Nindl

Subjects

Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine

Published

2022

12. The Effects of Cholecalciferol Supplementation on Vitamin D Status Among a Diverse Population of Collegiate Basketball Athletes: A Quasi-Experimental Trial

Author

Jennifer B. Fields, Sina Gallo, Andrew R. Jagim, Tammy Wagner, Nicole M. Sekel, and Margaret T. Jones

Subjects

Vitamin, Male, Basketball, Non-Randomized Controlled Trials as Topic, Physiology, lcsh:TX341-641, 25-hydroxyvitamin d, vitamin D deficiency, 03 medical and health sciences, chemistry.chemical_compound, Young Adult, 0302 clinical medicine, Vitamin D and neurology, medicine, Prevalence, Humans, 030212 general & internal medicine, Students, basketball, Cholecalciferol, Nutrition and Dietetics, High prevalence, biology, Athletes, business.industry, Brief Report, vitamin d, 030229 sport sciences, biology.organism_classification, medicine.disease, Vitamin D Deficiency, collegiate athletes, United States, Diverse population, Treatment Outcome, chemistry, Dietary Supplements, supplementation, Female, skin pigmentation, business, lcsh:Nutrition. Foods and food supply, Food Science

Abstract

Vitamin D may play a role in performance and injury risk, yet the required supplementation dosage for collegiate athletes is unclear. The objective of this study was to define the dosage of vitamin D3 supplementation required to beneficially affect serum 25-hydroxyvitamin D (25(OH)D) among a sample of collegiate basketball athletes. This was a quasi-experimental trial, participants were allocated to one of three groups of vitamin D3 daily at the beginning of pre-season training and dependent upon their baseline vitamin D status as follows: insufficient (125 nmol/L) to no supplementation. Follow-up assessments were completed ~ 5 months later in post season. The majority (n = 13) were allocated to 10,000 IU vs. n = 5 to 5000 IU and n = 2 to no supplementation. The 10,000 IU group showed the greatest change (35.0 ± 27.0 nmol/L) vs. the 5000 IU group (−9.3 ± 9.6 nmol/L) and no supplementation group (−41.6 ± 11.7 nmol/L, p < 0.01). Only 1 participant reached optimal status in the 10,000 IU group. In conclusion, a daily dosage of 10,000 IU vitamin D3 supplementation mitigated the high prevalence of vitamin D deficiency among collegiate basketball players but was insufficient for all to reach sufficient levels.

Published

2020

13. Association Between DXA And HR-pQCT Measurements Of BMD In Active, Recruit-aged Men And Women

Author

Qi Mi, Kellen T. Krajewski, Sophie L. Wardle, Leslie R. Jabloner, Shawn D. Flanagan, Adam J. Sterczala, Thomas J. O'Leary, Nicole M. Sekel, Nizam Uddin Ahamed, Julie P. Greeves, Chris Connaboy, Brian J. Martin, and Bradley C. Nindl

Subjects

medicine.medical_specialty, business.industry, Internal medicine, medicine, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, business

Published

2021

14. Sex-specific Differences In Eating Pathology And Body Composition Changes In Military Personnel During Training

Author

Mita Lovalekar, Matthew B. Bird, Bradley C. Nindl, Brian J. Martin, Nicole M. Sekel, Kristen J. Koltun, and Qi Mi

Subjects

Military personnel, business.industry, Eating pathology, Medicine, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, business, Sex specific, Composition (language), Clinical psychology

Published

2021

15. Higher Baseline Aerobic Fitness Influences Jumping Performance During Military Operational Stress

Author

Matthew B. Bird, Bradley C. Nindl, Mita Lovalekar, Nicole M. Sekel, William R. Conkright, Meaghan E. Beckner, Tim L. A. Doyle, Shawn D. Flanagan, Chris Connaboy, and Brian J. Martin

Subjects

Stress (mechanics), medicine.medical_specialty, Jumping, Physical medicine and rehabilitation, business.industry, Aerobic exercise, Medicine, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, business, Baseline (configuration management), medicine.disease_cause

Published

2021

16. Relationship Between Bone Mineral Density And Irisin, At Rest And In Response To Exercise

Author

Thomas J. O'Leary, Bradley C. Nindl, Shawn D. Flanagan, Brian J. Martin, Sophie L. Wardle, Carola Van Eck, Adam J. Sterczala, Kellen T. Krajewski, Julie P. Greeves, Nicole M. Sekel, and Chris Connaboy

Subjects

Bone mineral, medicine.medical_specialty, Endocrinology, business.industry, Internal medicine, medicine, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, business, Rest (music)