Your search keyword '"McKenzie, Jennifer"' showing total 409 results

201. Collection of Aerosolized Human Cytokines Using Teflon® Filters

Author

Hwang, Grace M., McKenzie, Jennifer Helen, McDevitt, James J, Fabian, Maria Patricia, and Milton, Donald Kirby

Subjects

Biology, Anatomy and Physiology, Immune Physiology, Cytokines, Respiratory System, Immunology, Immunologic Techniques, Immunoassays, Chemistry, Physical Chemistry, Mixtures, Aerosols, Medicine, Clinical Immunology, Diagnostic Medicine, Clinical Laboratory Sciences, Pathology, General Pathology, Biomarkers

Abstract

Background: Collection of exhaled breath samples for the analysis of inflammatory biomarkers is an important area of research aimed at improving our ability to diagnose, treat and understand the mechanisms of chronic pulmonary disease. Current collection methods based on condensation of water vapor from exhaled breath yield biomarker levels at or near the detection limits of immunoassays contributing to problems with reproducibility and validity of biomarker measurements. In this study, we compare the collection efficiency of two aerosol-to-liquid sampling devices to a filter-based collection method for recovery of dilute laboratory generated aerosols of human cytokines so as to identify potential alternatives to exhaled breath condensate collection. Methodology/Principal Findings: Two aerosol-to-liquid sampling devices, the SKC® Biosampler and Omni 3000™, as well as Teflon® filters were used to collect aerosols of human cytokines generated using a HEART nebulizer and single-pass aerosol chamber setup in order to compare the collection efficiencies of these sampling methods. Additionally, methods for the use of Teflon® filters to collect and measure cytokines recovered from aerosols were developed and evaluated through use of a high-sensitivity multiplex immunoassay. Our results show successful collection of cytokines from pg/m3 aerosol concentrations using Teflon® filters and measurement of cytokine levels in the sub-picogram/mL concentration range using a multiplex immunoassay with sampling times less than 30 minutes. Significant degradation of cytokines was observed due to storage of cytokines in concentrated filter extract solutions as compared to storage of dry filters. Conclusions: Use of filter collection methods resulted in significantly higher efficiency of collection than the two aerosol-to-liquid samplers evaluated in our study. The results of this study provide the foundation for a potential new technique to evaluate biomarkers of inflammation in exhaled breath samples.

Published

2012

202. Mass Properties and Inertial Loading Effects of Head Encumbering Devices

Author

SYSTEMS RESEARCH LABS INC DAYTON OH, Settecerri, Jeffrey J., Mckenzie, Jennifer, Privitzer, Eberhardt, Beecher, Robert M., SYSTEMS RESEARCH LABS INC DAYTON OH, Settecerri, Jeffrey J., Mckenzie, Jennifer, Privitzer, Eberhardt, and Beecher, Robert M.

Abstract

The purpose of this investigation is to provide data relevant to the analytical and experimental assessment of the severity of head-neck system loading induced by the protective and performance enhancing equipment worn by today's aviator. Mass properties of various head encumbering devices (e.g., helmets, gas masks, night vision goggles, etc.) have been measured using the automated mass properties measurement system of the U.S. Air Force Armstrong Aerospace Medical Research Laboratory (AAMRL). By using a Hybrid III anthropomorphic manikin head, results were expressed within a standard head anatomical coordinate system. Dynamic tests were conducted on the Air Force 6-inch HYGE vertical impact facility. The repeatable half-sine carriage acceleration for the tests was a profile of 20 G peak acceleration and 50 millisecond duration. Head encumbering devices were mounted onto the Hybrid III manikin head-neck assembly to evaluate inertial loading effects. The procedure for measuring the mass properties is presented along with locations of encumbrance centers of gravity, and principal moments and directions defined within a head anatomical coordinate system for eight different ensembles. HYGE test results of both unencumbered and eight encumbered configurations are also presented. Comparisons are made between two specific fighter gear and chemical defense configurations., Presented at the Annual SAFE Symposium (24th) held in San Antonio, TX on 11-13 Dec 1986. Pub. in the Proceedings of the Annual SAFE Symposium (24th), p276-282, Dec 1986.

Published

1986

203. Brisket with A Beat.

Author

McKenzie, Jennifer L.

Subjects

ENTERTAINING, FIRE departments

Abstract

Relates the experience of celebrating a barbecue and music party with the Austin Fire Department in Texas. Availability of the spicy sausage and tender pork; Features of the popular rock bands and county crooners; Venue of the event.

Published

2003

204. Go-Go.

Author

McKenzie, Jennifer

Abstract

The article advises nightclub operators on hiring of go-go dancers/entertainers to improve their establishments' revenues. It cites that go-go dancers are hired to entertain guests and create a fun-filled, energetic atmosphere. It mentions that there are important considerations when selecting the right dancers who will effectively contribute to business growth. It says that operators should consider dancing ability and talent, personal-, interactive- and group-dynamic abilities and appearance.

Published

2011

205. Winter Ride.

Author

McKenzie, Jennifer

Subjects

FIRST person narrative, CARRIAGES & carts

Abstract

A personal narrative is presented which explores the author's experience riding the Threejays Carriages at the Highland Park in Dallas, Texas.

Published

2008

206. Houston's Best Fest.

Author

McKenzie, Jennifer L.

Subjects

FESTIVALS, HOTELS, DANCE, CONCERTS, COOKING, TEXTILES

Abstract

Highlights the Houston International Festival in Texas. Rates offered at The Magnolia Hotel; Performance of dance, concerts and cooking demonstrations; Availability of several exotic fabrics.

Published

2004

207. Big-City Surprise.

Author

Mckenzie, Jennifer L.

Subjects

TOURISM, ZOOS, GARDENS

Abstract

Highlights the attractions of Houston, Texas. Houston Zoo in Hermann Park; Cockrell Butterfly Center; Miller Outdoor Theatre; Bistro Vino; Robin's Nest Bed and Breakfast Inn; Bayou Bend Collection and Gardens.

Published

2003

208. Ranch Retreat.

Author

McKenzie, Jennifer L.

Subjects

DUDE ranches, IN-house services (Business)

Abstract

Features the Cibolo Creek Ranch in Marfa, Texas. Physical description of the facility; Ranch amenities; Contact information.

Published

2002

209. One Hot Ticket.

Author

Mckenzie, Jennifer L.

Subjects

TELEVISION programs

Abstract

Presents tips for getting tickets to watch the taping of the television program `Austin City Limits' (ACL). Information on the show's ticket hot line; Overview free tours of the ACL studio.

Published

2001

210. DALLAS--A CITY OF ENDLESS POSSIBILITIES.

Author

McKenzie, Jennifer L.

Subjects

RESTAURANTS

Abstract

Presents a selection of shopping, dining and entertainment options in Dallas, Texas.

Published

2001

211. Cultural renewal.

Author

McKenzie, Jennifer and Koenig, Will

Subjects

INDUSTRIAL management

Abstract

Discusses why the dynamic of constant change requires cultural renewal to strengthen organizational cohesiveness and responsiveness. Seven steps to renewal; Importance of having a clear vision and strategy; Creation of short-term wins; Need to measure and monitor results.

Published

1997

212. A Great Family Beach.

Author

McKenzie, Jennifer L.

Subjects

BEACHES, TOURISM, SERVICE industries, TRAVELERS

Abstract

Features Navarre Beach in Florida. Location of the tourist spot; Amenities offered; Features and other facilities; Activities offered to travelers; Facility rental per day.

Published

2004

213. Stylish, Affordable Hotel.

Author

McKenzie, Jennifer L.

Subjects

HOTELS

Abstract

Features the Hotel Derek, a boutique hotel in Houston, Texas. Total number of rooms available; Average accommodation rate; Amenities.

Published

2003

214. Florida's Catch of Day.

Author

Mckenzie, Jennifer L.

Subjects

MARKETS, SEAFOOD, WEBSITES

Abstract

Features the Joe Patti's Seafood Company in Pensacola, Florida. Availability of different seafood; Information of the seafood market through its Web site; History of market.

Published

2003

215. Calling All Cowgirls.

Author

Mckenzie, Jennifer L.

Subjects

ART museums, SCULPTURE

Abstract

Features the National Cowgirl Museum and Hall of Fame in Fort Worth, Texas. Presentation of the sculpture “Mamie”, an Arabian horse; Contact information; Description of the museum.

Published

2003

216. Truly Smashing.

Author

Mckenzie, Jennifer L.

Subjects

RETAIL stores

Abstract

Focuses on Dallas, Texas-based mosaic shop Smashing Times. Purposes that the shop serves; Projects that customers can work on at the shop; Kind of things that the shop sells.

Published

2003

217. A Second Shot.

Author

Mckenzie, Jennifer L.

Subjects

ROW houses, DOMESTIC architecture

Abstract

Cites the efforts of artist Rick Lowe to restore the old row houses of the Third Ward neighborhood in Houston, Texas. Changes and improvements which Lowe and other artists made to the houses; Purpose of the restoration effort; Description of the neighborhood.

Published

2001

218. How To Recognize Success and Failure: Practical Assessment of an Evolving, First-Semester Laboratory Program Using Simple, Outcome-Based Tools.

Author

Gron, Liz U., Bradley, Shelly B., McKenzie, Jennifer R., Shinn, Sara E., and Warfield Teague, M.

Subjects

*CHEMICAL laboratories, *CHEMISTRY education in universities & colleges, *STAKEHOLDERS, *LEARNING, *DATA

Abstract

This paper presents the use of simple, outcome-based assessment tools to design and evaluate the first semester of a new introductory laboratory program created to teach green analytical chemistry using environmental samples. This general chemistry laboratory program, like many introductory courses, has a wide array of stakeholders within and beyond the major. Among the stakeholders, there was low-level yet widespread apprehension that changes in the introductory level content would weaken student preparation. Because of this unease, it was important to prove to faculty and students alike that the new laboratory program could effectively help students reach the new laboratory learning goals without sacrificing technical content. A set of simple assessment tools, student precision and accuracy data from experiments during the semester, and a laboratory practical and a student survey from the end of the semester were used as both formative and summative program assessments. This article establishes the power of these simple, course-embedded tools to yield insights into program strengths and weaknesses and, ultimately, to demonstrate to all faculty and students the effectiveness of this first-semester program. [ABSTRACT FROM AUTHOR]

Published

2013

219. Healing of non-displaced fractures produced by fatigue loading of the mouse ulna

Author

Martinez, Mario D., Schmid, Gregory J., McKenzie, Jennifer A., Ornitz, David M., and Silva, Matthew J.

Subjects

*ANIMAL models of wound healing, *BONE fractures, *BONE injuries, *STRESS fractures (Orthopedics), *ULNA, *HYPOXEMIA, *CELLULAR signal transduction, *LABORATORY mice

Abstract

Abstract: We developed a fatigue loading protocol in mice to produce a non-displaced ulnar fracture in vivo, and characterized the early healing response. Using adult (5month) C57Bl/6 mice, we first determined that cyclic compression of the forelimb under load-control leads to increasing applied displacement and, eventually, complete fracture. We then subjected the right forelimbs of 80 mice to cyclic loading (2Hz; peak force ∼4N) and limited the displacement increase to 0.75mm (60% of the average displacement increase at complete fracture). This fatigue protocol created a partial, non-displaced fracture through the medial cortex near the ulnar mid-shaft, and reduced ulnar strength and stiffness by >50%. Within 1day, there was significant upregulation of genes related to hypoxia (Hif1a) and osteogenesis (Bmp2, Bsp) in loaded ulnae compared to non-loaded, contralateral controls. The gene expression response peaked in magnitude near day 7 (e.g., Osx upregulated 8-fold), and included upregulation of FGF-family genes (e.g., Fgfr3 up 6-fold). Histologically, a localized periosteal response was seen at the site of the fracture; by day 7 there was abundant periosteal woven bone surrounding a region of cartilage. From days 7 to 14, the woven bone became denser but did not increase in area. By day 14, the woven-bone response resulted in complete recovery of ulnar strength and stiffness, restoring mechanical properties to normal levels. In the future, the fatigue loading approach can be used create non-displaced bone fractures in transgenic and knockout mice to study the mechanisms by which the skeleton rapidly repairs damage. [Copyright &y& Elsevier]

Published

2010

220. Ecosystem engineering by a gall-forming wasp indirectly suppresses diversity and density of herbivores on oak trees.

Author

Wetzel, William C., Screen, Robyn M., Li, Ivana, McKenzie, Jennifer, Phillips, Kyle A., Cruz, Melissa, Zhang, Wenbo, Greene, Austin, Lee, Esther, Singh, Nuray, Tran, Carolyn, and Yang, Louie H.

Subjects

*ECOSYSTEMS, *WASPS, *HABITATS, *SPIDERS, *ARTHROPODA

Abstract

Ecosystem engineers, organisms that modify the physical environment, are generally thought to increase diversity by facilitating species that benefit from engineered habitats. Recent theoretical work, however, suggests that ecosystem engineering could initiate cascades of trophic interactions that shape community structure in unexpected ways, potentially having negative indirect effects on abundance and diversity in components of the community that do not directly interact with the habitat modifications. We tested the indirect effects of a gall-forming wasp on arthropod communities in surrounding unmodified foliage. We experimentally removed all senesced galls from entire trees during winter and sampled the arthropod community on foliage after budburst. Gall removal resulted in 59% greater herbivore density, 26% greater herbivore richness, and 27% greater arthropod density five weeks after budburst. Gall removal also reduced the differences in community composition among trees (i.e., reduced beta diversity), even when accounting for differences in richness. The community inside galls during winter and through the growing season was dominated by jumping spiders (Salticidae; 0.87 ± 0.12 spiders per gall). We suggest that senesced galls provided habitat for spiders, which suppressed herbivorous arthropods and increased beta diversity by facilitating assembly of unusual arthropod communities. Our results demonstrate that the effects of habitat modification by ecosystem engineers can extend beyond merely providing habitat for specialists; the effects can propagate far enough to influence the structure of communities that do not directly interact with habitat modifications. [ABSTRACT FROM AUTHOR]

Published

2016

221. A Comparison of Functional Behavioral Assessment and Functional Analysis Methodology among Students with Mild Disabilities.

Author

Lewis, Timothy J., Mitchell, Barbara S., Harvey, Kristin, Green, Ambra, and McKenzie, Jennifer

Subjects

*AUTISM, *BEHAVIOR disorders in children, *STUDENTS with disabilities, *RESEARCH methodology, *QUESTIONNAIRES, *STATISTICAL sampling, *SCHOOL health services, *SPECIAL education, *TEACHERS, *FUNCTIONAL assessment, *DIAGNOSIS

Abstract

Functional behavioral assessment (FBA) and functional analyses (FA) are grounded in the applied behavior analysis principle that posits problem behavior is functionally related to the environment in which it occurs and is maintained by either providing access to reinforcing outcomes or allowing the individual to avoid or escape that which they find aversive. Previous research has pointed to the limitations across FBA methodologies in comparison to the direct experimental trials used in FA. The purpose of this study was to evaluate the degree to which hypotheses generated by common FBA strategies (i.e., interview, rating scale, and direct observation) match hypotheses generated through FA trials. Results of a multiphase descriptive study indicated that traditional school personnel with behavioral expertise were able to generate FBA hypotheses that were later confirmed by independent review and largely aligned with FA outcomes. The impact of the findings for the field and implications for future research and practice are discussed. [ABSTRACT FROM AUTHOR]

Published

2015

222. Multichamber multipotentiostat system for cellular microphysiometry.

Author

Lima, Eduardo A., Snider, Rachel M., Reiserer, Ronald S., McKenzie, Jennifer R., Kimmel, Danielle W., Eklund, Sven E., Wikswo, John P., and Cliffel, David E.

Subjects

*POTENTIOSTAT, *CELL metabolism, *CONDUCTOMETRIC analysis, *POTENTIOMETRY, *METABOLIC flux analysis

Abstract

Multianalyte microphysiometry is a powerful technique for studying cellular metabolic flux in real time. Monitoring several analytes concurrently in a number of individual chambers, however, requires specific instrumentation that is not available commercially in a single, compact, benchtop form at an affordable cost. We developed a multipotentiostat system capable of performing simultaneous amperometric and potentiometric measurements in up to eight individual chambers. The modular design and custom LabVIEW™ control software provide flexibility and allow for expansion and modification to suit different experimental conditions. Superior accuracy is achieved when operating the instrument in a standalone configuration; however, measurements performed in conjunction with a previously developed multianalyte microphysiometer have shown low levels of crosstalk as well. Calibrations and experiments with primary and immortalized cell cultures demonstrate the performance of the instrument and its capabilities. [ABSTRACT FROM AUTHOR]

Published

2014

223. A bistable, multiport valve enables microformulators creating microclinical analyzers that reveal aberrant glutamate metabolism in astrocytes derived from a tuberous sclerosis patient.

Author

Miller, Dusty R., Schaffer, David K., Neely, M. Diana, McClain, Ethan S., Travis, Adam R., Block III, Frank E., McKenzie, Jennifer R., Werner, Erik M., Armstrong, Laura, Markov, Dmitry A., Bowman, Aaron B., Ess, Kevin C., Cliffel, David E., and Wikswo, John P.

Subjects

*TUBEROUS sclerosis, *GLUTAMIC acid, *PLURIPOTENT stem cells, *VALVES, *ELECTROCHEMICAL sensors

Abstract

• Design, fabrication and validation of a new class of microfluidic pumps and valves. • Precise control of both flow rate and faithful selection of microscale solutions. • Automated, real-time inline electrochemical monitoring of cellular microphysiology. • Astrocyte differentiation from hiPSCs for both a control subject and a TSC patient. • First report of altered glutamate metabolism in human astrocytes. There is a need for valves and pumps that operate at the microscale with precision and accuracy, are versatile in their application, and are easily fabricated. To that end, we developed a new rotary planar multiport valve to faithfully select solutions (contamination = 5.22 ± 0.06 ppb) and a rotary planar peristaltic pump to precisely control fluid delivery (flow rate = 2.4 ± 1.7–890 ± 77 μL/min). Both the valve and pump were implemented in a planar format amenable to single-layer soft lithographic fabrication. These planar microfluidics were actuated by a rotary motor controlled remotely by custom software. Together, these two devices constitute an innovative microformulator that was used to prepare precise, high-fidelity mixtures of up to five solutions (deviation from prescribed mixture = ±|0.02 ± 0.02| %). This system weighed less than a kilogram, occupied around 500 cm3, and generated pressures of 255 ± 47 kPa. This microformulator was then combined with an electrochemical sensor creating a microclinical analyzer (μCA) for detecting glutamate in real time. Using the chamber of the μCA as an in-line bioreactor, we compared glutamate homeostasis in human astrocytes differentiated from human-induced pluripotent stem cells (hiPSCs) from a control subject (CC-3) and a Tuberous Sclerosis Complex (TSC) patient carrying a pathogenic TSC2 mutation. When challenged with glutamate, TSC astrocytes took up less glutamate than control cells. These data validate the analytical power of the μCA and the utility of the microformulator by leveraging it to assess disease-related alterations in cellular homeostasis. [ABSTRACT FROM AUTHOR]

Published

2021

224. Correction: Preferences Elicited and Respected for Seriously Ill Veterans through Enhanced Decision-Making (PERSIVED): a protocol for an implementation study in the Veterans Health Administration.

Author

Ersek M, Sales A, Keddem S, Ayele R, Haverhals LM, Magid KH, Kononowech J, Murray A, Carpenter JG, Foglia MB, Potter L, McKenzie J, Davis D, and Levy C

Published

2023

225. Postnatal Osterix but not DMP1 lineage cells significantly contribute to intramembranous ossification in three preclinical models of bone injury.

Author

Buettmann EG, Yoneda S, Hu P, McKenzie JA, and Silva MJ

Abstract

Murine models of long-bone fracture, stress fracture, and cortical defect are used to discern the cellular and molecular mediators of intramembranous and endochondral bone healing. Previous work has shown that Osterix (Osx + ) and Dentin Matrix Protein-1 (DMP1 + ) lineage cells and their progeny contribute to injury-induced woven bone formation during femoral fracture, ulnar stress fracture, and tibial cortical defect repair. However, the contribution of pre-existing versus newly-derived Osx + and DMP1 + lineage cells in these murine models of bone injury is unclear. We addressed this knowledge gap by using male and female 12-week-old, tamoxifen-inducible Osx Cre_ERT2 and DMP1 Cre_ERT2 mice harboring the Ai9 TdTomato reporter allele. To trace pre-existing Osx + and DMP1 + lineage cells, tamoxifen (TMX: 100 mg/kg gavage) was given in a pulse manner (three doses, 4 weeks before injury), while to label pre-existing and newly-derived lineage Osx + and DMP1 + cells, TMX was first given 2 weeks before injury and continuously (twice weekly) throughout healing. TdTomato positive (TdT + ) cell area and cell fraction were quantified from frozen histological sections of injured and uninjured contralateral samples at times corresponding with active woven bone formation in each model. We found that in uninjured cortical bone tissue, Osx Cre_ERT2 was more efficient than DMP1 Cre_ERT2 at labeling the periosteal and endosteal surfaces, as well as intracortical osteocytes. Pulse-labeling revealed that pre-existing Osx + lineage and their progeny, but not pre-existing DMP1 + lineage cells and their progeny, significantly contributed to woven bone formation in all three injury models. In particular, these pre-existing Osx + lineage cells mainly lined new woven bone surfaces and became embedded as osteocytes. In contrast, with continuous dosing, both Osx + and DMP1 + lineage cells and their progeny contributed to intramembranous woven bone formation, with higher TdT + tissue area and cell fraction in Osx + lineage versus DMP1 + lineage calluses (femoral fracture and ulnar stress fracture). Similarly, Osx + and DMP1 + lineage cells and their progeny significantly contributed to endochondral callus regions with continuous dosing only, with higher TdT + chondrocyte fraction in Osx + versus DMP1 + cell lineages. In summary, pre-existing Osx + but not DMP1 + lineage cells and their progeny make up a significant amount of woven bone cells (particularly osteocytes) across three preclinical models of bone injury. Therefore, Osx + cell lineage modulation may prove to be an effective therapy to enhance bone regeneration., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Buettmann, Yoneda, Hu, McKenzie and Silva.)

Published

2023

226. VEGFA from osteoblasts is not required for lamellar bone formation following tibial loading.

Author

McKenzie JA, Galbreath IM, Coello AF, Hixon KR, and Silva MJ

Subjects

Animals, Bone and Bones, Female, Male, Mice, Tibia, Vascular Endothelial Growth Factor A genetics, Osteoblasts metabolism, Osteogenesis, Vascular Endothelial Growth Factor A metabolism

Abstract

The relationship between osteogenesis and angiogenesis is complex. Normal bone development requires angiogenesis, mediated by vascular endothelial growth factor A (VEGFA). Studies have demonstrated through systemic inhibition or genetic modification that VEGFA is indispensable for several types of bone repair, presumably via its role in supporting angiogenesis. But a direct role for VEGFA within osteoblasts, in the absence of angiogenesis, has also been suggested. To address the question of whether VEGFA from osteoblasts supports bone formation directly, we applied anabolic loading to induce lamellar bone formation in mice, a process shown to be independent of angiogenesis. We hypothesized that VEGFA from osteoblasts is required for lamellar bone formation. To test this hypothesis, we applied axial tibial compression to inducible Cre/LoxP mice from three lines. Vegfa fl/fl mice were crossed with Ubiquitin C (UBC), Osterix (Osx) and Dentin-Matrix Protein 1 (DMP1) Cre-ERT2 mice to target all cells, (pre)osteoblast-lineage cells, and mature osteoblasts and osteocytes, respectively. Genotype effects were determined by comparing control (Vegfa fl/fl ) and Cre+ (VegfaΔ) mice for each line. At 5 months of age tamoxifen was injected for 5 days followed by a 3-week clearance prior to loading. Female and male mice (N = 100) were loaded for 5 days to peak forces to engender -3100 με peak compressive strain and processed for dynamic histomorphometry (day 12). Percent MS/BS increased 20-70 % as a result of loading, with no effect of genotype in Osx or Dmp1 lines. In contrast, the UBC groups had a significant decrease in relative periosteal BFR/BS in VegfaΔ vs. Vegfa fl/fl mice. The UBC line did not have any cortical bone phenotype in non-loaded femurs. In summary, dynamic histomorphometry data confirmed that tibial loading induces lamellar bone formation. Contrary to our hypothesis, there was no decrease in loading-induced bone formation in the Osx or Dmp1 lines in the absence of VEGFA. There was a decrease in bone formation in the UBC line where all cells were targeted. This result indicates that VEGFA from a non-osteoblast cell source supports loading-induced lamellar bone formation, although osteoblast/osteocyte VEGFA is dispensable. These findings support a paracrine model whereby non-osteoblast VEGFA supports lamellar bone formation, independent of angiogenesis., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

227. Preferences Elicited and Respected for Seriously Ill Veterans through Enhanced Decision-Making (PERSIVED): a protocol for an implementation study in the Veterans Health Administration.

Author

Ersek M, Sales A, Keddem S, Ayele R, Haverhals LM, Magid KH, Kononowech J, Murray A, Carpenter JG, Foglia MB, Potter L, McKenzie J, Davis D, and Levy C

Abstract

Background: Empirical evidence supports the use of structured goals of care conversations and documentation of life-sustaining treatment (LST) preferences in durable, accessible, and actionable orders to improve the care for people living with serious illness. As the largest integrated healthcare system in the USA, the Veterans Health Administration (VA) provides an excellent environment to test implementation strategies that promote this evidence-based practice. The Preferences Elicited and Respected for Seriously Ill Veterans through Enhanced Decision-Making (PERSIVED) program seeks to improve care outcomes for seriously ill Veterans by supporting efforts to conduct goals of care conversations, systematically document LST preferences, and ensure timely and accurate communication about preferences across VA and non-VA settings., Methods: PERSIVED encompasses two separate but related implementation projects that support the same evidence-based practice. Project 1 will enroll 12 VA Home Based Primary Care (HBPC) programs and Project 2 will enroll six VA Community Nursing Home (CNH) programs. Both projects begin with a pre-implementation phase during which data from diverse stakeholders are gathered to identify barriers and facilitators to adoption of the LST evidence-based practice. This baseline assessment is used to tailor quality improvement activities using audit with feedback and implementation facilitation during the implementation phase. Site champions serve as the lynchpin between the PERSIVED project team and site personnel. PERSIVED teams support site champions through monthly coaching sessions. At the end of implementation, baseline site process maps are updated to reflect new steps and procedures to ensure timely conversations and documentation of treatment preferences. During the sustainability phase, intense engagement with champions ends, at which point champions work independently to maintain and improve processes and outcomes. Ongoing process evaluation, guided by the RE-AIM framework, is used to monitor Reach, Adoption, Implementation, and Maintenance outcomes. Effectiveness will be assessed using several endorsed clinical metrics for seriously ill populations., Discussion: The PERSIVED program aims to prevent potentially burdensome LSTs by consistently eliciting and documenting values, goals, and treatment preferences of seriously ill Veterans. Working with clinical operational partners, we will apply our findings to HBPC and CNH programs throughout the national VA healthcare system during a future scale-out period., (© 2022. The Author(s).)

Published

2022

228. Cryogel Scaffold-Mediated Delivery of Adipose-Derived Stem Cells Promotes Healing in Murine Model of Atrophic Non-Union.

Author

Hixon KR, Katz DB, McKenzie JA, Miller AN, Guilak F, and Silva MJ

Abstract

Non-union is defined as the permanent failure of a bone to heal and occurs clinically in 5% of fractures. Atrophic non-unions, characterized by absent/minimal callus formation, are poorly understood and difficult to treat. We recently demonstrated a novel murine model of atrophic non-union in the 3.6Col1A1-tk (Col1-tk) mouse, wherein dosing with the nucleoside analog ganciclovir (GCV) was used to deplete proliferating osteoprogenitor cells, leading to a radiographic and biomechanical non-union after the mid-shaft femur fracture. Using this Col1-tk atrophic non-union model, we hypothesized that the scaffold-mediated lentiviral delivery of doxycycline-inducible BMP-2 transgenes would induce osteogenesis at the fracture site. Cryogel scaffolds were used as a vehicle for GFP+ and BMP-2+ cell delivery to the site of non-union. Cryogel scaffolds were biofabricated through the cross-linking of a chitosan-gelatin polymer solution at subzero temperatures, which results in a macroporous, spongy structure that may be advantageous for a bone regeneration application. Murine adipose-derived stem cells were seeded onto the cryogel scaffolds, where they underwent lentiviral transduction. Following the establishment of atrophic non-unions in the femurs of Col1-tk mice (4 weeks post-fracture), transduced, seeded scaffolds were surgically placed around the site of non-union, and the animals were given doxycycline water to induce BMP-2 production. Controls included GFP+ cells on the cryogel scaffolds, acellular scaffolds, and sham (no scaffold). Weekly radiographs were taken, and endpoint analysis included micro-CT and histological staining. After 2 weeks of implantation, the BMP-2+ scaffolds were infiltrated with cartilage and woven bone at the non-union site, while GFP+ scaffolds had woven bone formation. Later, timepoints of 8 weeks had woven bone and vessel formation within the BMP-2+ and GFP + scaffolds with cortical bridging of the original fracture site in both groups. Overall, the cell-seeded cryogels promoted osseous healing. However, while the addition of BMP-2 promoted the endochondral ossification, it may provide a slower route to healing. This proof-of-concept study demonstrates the potential for cellularized cryogel scaffolds to enhance the healing of non-unions., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Hixon, Katz, McKenzie, Miller, Guilak and Silva.)

Published

2022

229. Ablation of Proliferating Osteoblast Lineage Cells After Fracture Leads to Atrophic Nonunion in a Mouse Model.

Author

Hixon KR, McKenzie JA, Sykes DAW, Yoneda S, Hensley A, Buettmann EG, Zheng H, Skouteris D, McAlinden A, Miller AN, and Silva MJ

Subjects

Animals, Bony Callus diagnostic imaging, Disease Models, Animal, Mice, Osteoblasts, X-Ray Microtomography, Femoral Fractures diagnostic imaging, Fracture Healing

Abstract

Nonunion is defined as the permanent failure of a fractured bone to heal, often necessitating surgical intervention. Atrophic nonunions are a subtype that are particularly difficult to treat. Animal models of atrophic nonunion are available; however, these require surgical or radiation-induced trauma to disrupt periosteal healing. These methods are invasive and not representative of many clinical nonunions where osseous regeneration has been arrested by a "failure of biology". We hypothesized that arresting osteoblast cell proliferation after fracture would lead to atrophic nonunion in mice. Using mice that express a thymidine kinase (tk) "suicide gene" driven by the 3.6Col1a1 promoter (Col1-tk), proliferating osteoblast lineage cells can be ablated upon exposure to the nucleoside analog ganciclovir (GCV). Wild-type (WT; control) and Col1-tk littermates were subjected to a full femur fracture and intramedullary fixation at 12 weeks age. We confirmed abundant tk+ cells in fracture callus of Col-tk mice dosed with water or GCV, specifically many osteoblasts, osteocytes, and chondrocytes at the cartilage-bone interface. Histologically, we observed altered callus composition in Col1-tk mice at 2 and 3 weeks postfracture, with significantly less bone and more fibrous tissue. Col1-tk mice, monitored for 12 weeks with in vivo radiographs and micro-computed tomography (μCT) scans, had delayed bone bridging and reduced callus size. After euthanasia, ex vivo μCT and histology showed failed union with residual bone fragments and fibrous tissue in Col1-tk mice. Biomechanical testing showed a failure to recover torsional strength in Col1-tk mice, in contrast to WT. Our data indicates that suppression of proliferating osteoblast-lineage cells for at least 2 weeks after fracture blunts the formation and remodeling of a mineralized callus leading to a functional nonunion. We propose this as a new murine model of atrophic nonunion. © 2021 American Society for Bone and Mineral Research (ASBMR)., (© 2021 American Society for Bone and Mineral Research (ASBMR).)

Published

2021

230. Type 1 diabetic Akita mice have low bone mass and impaired fracture healing.

Author

Hu P, McKenzie JA, Buettmann EG, Migotsky N, Gardner MJ, and Silva MJ

Subjects

Animals, Bony Callus diagnostic imaging, Femur diagnostic imaging, Fracture Healing, Mice, Diabetes Mellitus, Type 1 genetics, Femoral Fractures diagnostic imaging

Abstract

Type 1 diabetes (T1DM) impairs bone formation and fracture healing in humans. Akita mice carry a mutation in one allele of the insulin-2 (Ins2) gene, which leads to pancreatic beta cell dysfunction and hyperglycemia by 5-6 weeks age. We hypothesized that T1DM in Akita mice is associated with decreased bone mass, weaker bones, and impaired fracture healing. Ins2 ± (Akita) and wildtype (WT) males were subjected to femur fracture at 18-weeks age and healing assessed 3-21 days post-fracture. Non-fractured left femurs were assessed for morphology (microCT) and strength (bending or torsion) at 19-21 weeks age. Fractured right femurs were assessed for callus mechanics (torsion), morphology and composition (microCT and histology) and gene expression (qPCR). Both Akita and WT mice gained weight from 3 to 18 weeks age, but Akita mice weighed less starting at 5 weeks (-5.2%, p < 0.05). At 18-20 weeks age Akita mice had reduced serum osteocalcin (-30%), cortical bone area (-16%), and thickness (-17%) compared to WT, as well as reduced cancellous BV/TV (-39%), trabecular thickness (-23%) and vBMD (-31%). Mechanical testing of non-fractured femurs showed decreased structural (stiffness, ultimate load) and material (ultimate stress) properties of Akita bones. At 14 and 21 days post fracture Akita mice had a significantly smaller callus than WT mice (~30%), with less cartilage and bone area. Assessment of torsional strength showed a weaker callus in Akita mice with lower stiffness (-42%), maximum torque (-44%) and work to fracture (-44%). In summary, cortical and cancellous bone mass were reduced in Akita mice, with lower bone mechanical properties. Fracture healing in Akita mice was impaired by T1DM, with a smaller, weaker fracture callus due to decreased cartilage and bone formation. In conclusion, the Akita mouse mimics some of the skeletal features of T1DM in humans, including osteopenia and impaired fracture healing, and may be useful to test interventions., (Copyright © 2021. Published by Elsevier Inc.)

Published

2021

231. Effects of snake fungal disease on short-term survival, behavior, and movement in free-ranging snakes.

Author

McKenzie JM, Price SJ, Connette GM, Bonner SJ, and Lorch JM

Subjects

Animals, Animals, Wild, Bayes Theorem, Movement, Mycoses, Snakes

Abstract

Pathogenic fungi are increasingly associated with epidemics in wildlife populations. Snake fungal disease (SFD, also referred to as Ophidiomycosis) is an emerging threat to snakes, taxa that are elusive and difficult to sample. Thus, assessments of the effects of SFD on populations have rarely occurred. We used a field technique to enhance detection, Passive Integrated Transponder (PIT) telemetry, and a multi-state capture-mark-recapture model to assess SFD effects on short-term (within-season) survival, movement, and surface activity of two wild snake species, Regina septemvittata (Queensnake) and Nerodia sipedon (Common Watersnake). We were unable to detect an effect of disease state on short-term survival for either species. However, we estimated Bayesian posterior probabilities of >0.99 that R. septemvittata with SFD spent more time surface-active and were less likely to permanently emigrate from the study area. We also estimated probabilities of 0.98 and 0.87 that temporary immigration and temporary emigration rates, respectively, were lower in diseased R. septemvittata. We found evidence of elevated surface activity and lower temporary immigration rates in diseased N. sipedon, with estimated probabilities of 0.89, and found considerably less support for differences in permanent or temporary emigration rates. This study is the first to yield estimates for key demographic and behavioral parameters (survival, emigration, surface activity) of snakes in wild populations afflicted with SFD. Given the increase in surface activity of diseased snakes, future surveys of snake populations could benefit from exploring longer-term demographic consequences of SFD and recognize that disease prevalence in surface-active animals may exceed that of the population as a whole., (© 2020 Ecological Society of America. This article has been contributed to by US Government employees and their work is in the public domain in the USA.)

Published

2021

232. Interleukin-6 (IL-6) deficiency enhances intramembranous osteogenesis following stress fracture in mice.

Author

Coates BA, McKenzie JA, Yoneda S, and Silva MJ

Subjects

Animals, Bony Callus, Fracture Healing, Interleukin-6, Mice, Mice, Knockout, Fractures, Stress, Osteogenesis

Abstract

Interleukin-6 (IL-6) is highly upregulated in response to skeletal injury, suggesting it plays a role in the inflammatory phase of fracture repair. However, the impact of IL-6 on successful repair remains incompletely defined. Therefore, we investigated the role of IL-6 in two models of fracture repair (full fracture and stress fracture) using 12-week old IL-6 global knockout mice (IL-6 KO) and wild type (WT) littermate controls. Callus morphology and mineral density 14 days after full femur fracture did not differ between IL-6 knockout mice and controls. In contrast, IL-6 KO mice had an enhanced bone response 7 days after ulnar stress fracture compared to WT, with increased total callus volume (p = 0.020) and callus bone volume (p = 0.045). IL-6 KO did not alter the recruitment of immune cells (Gr-1 or F4/80 positive) to the stress fracture callus. IL-6 KO also did not alter the number of osteoclasts in the stress fracture callus. Using RNA-seq, we identified differentially expressed genes in stress fracture vs. contralateral control ulnae, and observed that IL-6 KO resulted in only modest alterations to the gene expression response to stress fracture (SFx). Wnt1 was more highly upregulated in IL-6 KO SFx callus at both day 1 (fold change 12.5 in KO vs. 5.7 in WT) and day 3 (fold change 4.7 in KO vs. 1.9 in WT). Finally, using tibial compression to induce bone formation without bone injury, we found that IL-6 KO directly impacted osteoblast function, increasing the propensity for woven bone formation. In summary, we report that IL-6 knockout enhanced formation of callus and bone following stress fracture injury, likely through direct action on the osteoblast's ability to produce woven bone. This suggests a novel role of IL-6 as a suppressor of intramembranous bone formation., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

233. Prevalence of exposure to multiple occupational carcinogens among exposed workers in Australia.

Author

McKenzie JF, El-Zaemey S, and Carey RN

Abstract

Objectives: Workers can be exposed to a range of different carcinogenic agents in the workplace. However, previous studies have often focused on prevalence of exposure to a single carcinogen, resulting in substantial knowledge gaps regarding the extent of multiple exposures in the workplace. This study aims to investigate the current prevalence of occupational exposure to multiple carcinogens among exposed workers in Australia., Methods: The data for this study come from the Australian Work Exposures Study, a nationwide cross-sectional telephone survey of Australian workers aged between 18 and 65. Information was collected about the respondents' current employment and numerous demographic factors using a web-based application (Occupational Integrated Database Exposure Assessment System) to conduct the interview, with predefined algorithms used to automatically assign exposures to carcinogens based on the respondents' job tasks., Results: The majority (81%) of exposed respondents were assessed as being probably exposed to more than one carcinogen, and 26% reported exposure to five or more carcinogens. We found that after adjusting for occupation, exposure to multiple carcinogens was more likely among male respondents, while older workers (aged between 55 and 65) were less likely to be exposed to multiple carcinogens., Conclusions: This study provides information on the prevalence of exposure to multiple carcinogens in the general population that has not previously been reported. This information could be useful for the intervention and control of occupational exposures to the prioritised carcinogens identified in this study., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2020. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2020

234. Transcriptional profiling of intramembranous and endochondral ossification after fracture in mice.

Author

Coates BA, McKenzie JA, Buettmann EG, Liu X, Gontarz PM, Zhang B, and Silva MJ

Subjects

Animals, Bony Callus pathology, Disease Progression, Female, Fracture Healing genetics, Fractures, Stress pathology, Gene Expression Regulation, Gene Ontology, Membranes, Mice, Inbred C57BL, Phenotype, Principal Component Analysis, RNA-Seq, Reproducibility of Results, Fractures, Bone genetics, Gene Expression Profiling, Osteogenesis genetics, Transcription, Genetic

Abstract

Bone fracture repair represents an important clinical challenge with nearly 1 million non-union fractures occurring annually in the U.S. Gene expression differs between non-union and healthy repair, suggesting there is a pattern of gene expression that is indicative of optimal repair. Despite this, the gene expression profile of fracture repair remains incompletely understood. In this work, we used RNA-seq of two well-established murine fracture models to describe gene expression of intramembranous and endochondral bone formation. We used top differentially expressed genes, enriched gene ontology terms and pathways, callus cellular phenotyping, and histology to describe and contrast these bone formation processes across time. Intramembranous repair, as modeled by ulnar stress fracture, and endochondral repair, as modeled by femur full fracture, exhibited vastly different transcriptional profiles throughout repair. Stress fracture healing had enriched differentially expressed genes associated with bone repair and osteoblasts, highlighting the strong osteogenic repair process of this model. Interestingly, the PI3K-Akt signaling pathway was one of only a few pathways uniquely enriched in stress fracture repair. Full fracture repair involved a higher level of inflammatory and immune cell related genes than did stress fracture repair. Full fracture repair also differed from stress fracture in a robust downregulation of ion channel genes following injury, the role of which in fracture repair is unclear. This study offers a broad description of gene expression in intramembranous and endochondral ossification across several time points throughout repair and suggests several potentially intriguing genes, pathways, and cells whose role in fracture repair requires further study., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

235. Osteocyte Death and Bone Overgrowth in Mice Lacking Fibroblast Growth Factor Receptors 1 and 2 in Mature Osteoblasts and Osteocytes.

Author

McKenzie J, Smith C, Karuppaiah K, Langberg J, Silva MJ, and Ornitz DM

Subjects

Alleles, Animals, Biomechanical Phenomena, Bone Remodeling, Cell Death, Cell Survival, Cortical Bone pathology, Extracellular Matrix Proteins metabolism, Female, Gene Expression Regulation, Male, Mice, Inbred C57BL, Mice, Knockout, Organ Size, Osteoblasts pathology, Osteocytes metabolism, Receptor, Fibroblast Growth Factor, Type 1 metabolism, Receptor, Fibroblast Growth Factor, Type 2 metabolism, Wnt Signaling Pathway, Bone Development, Osteoblasts metabolism, Osteocytes pathology, Receptor, Fibroblast Growth Factor, Type 1 deficiency, Receptor, Fibroblast Growth Factor, Type 2 deficiency

Abstract

Fibroblast growth factor (FGF) signaling pathways have well-established roles in skeletal development, with essential functions in both chondrogenesis and osteogenesis. In mice, previous conditional knockout studies suggested distinct roles for FGF receptor 1 (FGFR1) signaling at different stages of osteogenesis and a role for FGFR2 in osteoblast maturation. However, the potential for redundancy among FGFRs and the mechanisms and consequences of stage-specific osteoblast lineage regulation were not addressed. Here, we conditionally inactivate Fgfr1 and Fgfr2 in mature osteoblasts with an Osteocalcin (OC)-Cre or Dentin matrix protein 1 (Dmp1)-CreER driver. We find that young mice lacking both receptors or only FGFR1 are phenotypically normal. However, between 6 and 12 weeks of age, OC-Cre Fgfr1/Fgfr2 double- and Fgfr1 single-conditional knockout mice develop a high bone mass phenotype with increased periosteal apposition, increased and disorganized endocortical bone with increased porosity, and biomechanical properties that reflect increased bone mass but impaired material properties. Histopathological and gene expression analyses show that this phenotype is preceded by a striking loss of osteocytes and accompanied by activation of the Wnt/β-catenin signaling pathway. These data identify a role for FGFR1 signaling in mature osteoblasts/osteocytes that is directly or indirectly required for osteocyte survival and regulation of bone mass during postnatal bone growth. © 2019 American Society for Bone and Mineral Research., (© 2019 American Society for Bone and Mineral Research.)

Published

2019

236. VEGFA From Early Osteoblast Lineage Cells (Osterix+) Is Required in Mice for Fracture Healing.

Author

Buettmann EG, McKenzie JA, Migotsky N, Sykes DA, Hu P, Yoneda S, and Silva MJ

Subjects

Animals, Bony Callus pathology, Cell Proliferation, Extracellular Matrix Proteins metabolism, Fractures, Stress pathology, Gene Deletion, Integrases metabolism, Mice, Neovascularization, Physiologic, Osteogenesis, Periosteum metabolism, Cell Lineage, Fracture Healing, Osteoblasts metabolism, Sp7 Transcription Factor metabolism, Vascular Endothelial Growth Factor A metabolism

Abstract

Bone formation via intramembranous and endochondral ossification is necessary for successful healing after a wide range of bone injuries. The pleiotropic cytokine, vascular endothelial growth factor A (VEGFA) has been shown, via nonspecific pharmacologic inhibition, to be indispensable for angiogenesis and ossification following bone fracture and cortical defect repair. However, the importance of VEGFA expression by different cell types during bone healing is not well understood. We sought to determine the role of VEGFA from different osteoblast cell subsets following clinically relevant models of bone fracture and cortical defect. Ubiquitin C (UBC), Osterix (Osx), or Dentin matrix protein 1 (Dmp1) Cre-ERT2 mice (male and female) containing floxed VEGFA alleles (VEGFA fl/fl ) were either given a femur full fracture, ulna stress fracture, or tibia cortical defect at 12 weeks of age. All mice received tamoxifen continuously starting 2 weeks before bone injury and throughout healing. UBC Cre-ERT2 VEGFA fl/fl (UBC cKO) mice, which were used to mimic nonspecific inhibition, had minimal bone formation and impaired angiogenesis across all bone injury models. UBC cKO mice also exhibited impaired periosteal cell proliferation during full fracture, but not stress fracture repair. Osx Cre-ERT2 VEGFA fl/fl (Osx cKO) mice, but not Dmp1 Cre-ERT2 VEGFA fl/fl (Dmp1 cKO) mice, showed impaired periosteal bone formation and angiogenesis in models of full fracture and stress fracture. Neither Osx cKO nor Dmp1 cKO mice demonstrated significant impairments in intramedullary bone formation and angiogenesis following cortical defect. These data suggest that VEGFA from early osteolineage cells (Osx+), but not mature osteoblasts/osteocytes (Dmp1+), is critical at the time of bone injury for rapid periosteal angiogenesis and woven bone formation during fracture repair. Whereas VEGFA from another cell source, not from the osteoblast cell lineage, is necessary at the time of injury for maximum cortical defect intramedullary angiogenesis and osteogenesis. © 2019 American Society for Bone and Mineral Research., (© 2019 American Society for Bone and Mineral Research.)

Published

2019

237. Experimental removal of introduced slider turtles offers new insight into competition with a native, threatened turtle.

Author

Lambert MR, McKenzie JM, Screen RM, Clause AG, Johnson BB, Mount GG, Shaffer HB, and Pauly GB

Abstract

The red-eared slider turtle ( Trachemys scripta elegans ; RES) is often considered one of the world's most invasive species. Results from laboratory and mesocosm experiments suggest that introduced RES outcompete native turtles for key ecological resources, but such experiments can overestimate the strength of competition. We report on the first field experiment with a wild turtle community, involving introduced RES and a declining native species of conservation concern, the western pond turtle ( Emys marmorata ; WPT). Using a before/after experimental design, we show that after removing most of an introduced RES population, the remaining RES dramatically shifted their spatial basking distribution in a manner consistent with strong intraspecific competition. WPT also altered their spatial basking distribution after the RES removal, but in ways inconsistent with strong interspecific competition. However, we documented reduced levels of WPT basking post-removal, which may reflect a behavioral shift attributable to the lower density of the turtle community. WPT body condition also increased after we removed RES, consistent with either indirect or direct competition between WPT and RES and providing the first evidence that RES can compete with a native turtle in the wild. We conclude that the negative impacts on WPT basking by RES in natural contexts are more limited than suggested by experiments with captive turtles, although wild WPT do appear to compete for food with introduced RES. Our results highlight the importance of manipulative field experiments when studying biological invasions, and the potential value of RES removal as a management strategy for WPT., Competing Interests: The authors declare there are no competing interests.

Published

2019

238. Imaging characteristics and treatment of a penetrating brain injury caused by an oropharyngeal foreign body in a dog.

Author

McKenzie J, Cooper Murphy M, Broome C, Tayari H, and Gutierrez-Quintana R

Subjects

Animals, Diagnosis, Differential, Foreign Bodies diagnostic imaging, Head Injuries, Penetrating diagnostic imaging, Magnetic Resonance Imaging veterinary, Male, Tomography, X-Ray Computed veterinary, Brain Injuries diagnostic imaging, Dogs injuries, Foreign Bodies veterinary, Head Injuries, Penetrating veterinary, Oropharynx diagnostic imaging

Abstract

A 4-year-old Border collie was presented with one episode of collapse, altered mentation, and a suspected pharyngeal stick injury. Magnetic resonance imaging (MRI) and computed tomography showed a linear foreign body penetrating the right oropharynx, through the foramen ovale and the brain parenchyma. The foreign body was surgically removed and medical treatment initiated. Complete resolution of clinical signs was noted at recheck 8 weeks later. Repeat MRI showed chronic secondary changes in the brain parenchyma. To the authors' knowledge, this is the first report of the advanced imaging findings and successful treatment of a penetrating oropharyngeal intracranial foreign body in a dog., (© 2017 American College of Veterinary Radiology.)

Published

2019

239. Field Diagnostics and Seasonality of Ophidiomyces ophiodiicola in Wild Snake Populations.

Author

McKenzie JM, Price SJ, Fleckenstein JL, Drayer AN, Connette GM, Bohuski E, and Lorch JM

Subjects

Animals, Kentucky epidemiology, Polymerase Chain Reaction, Dermatomycoses veterinary, Onygenales isolation & purification, Snakes microbiology

Abstract

Snake fungal disease (SFD) is an emerging disease caused by the fungal pathogen, Ophidiomyces ophiodiicola. Clinical signs of SFD include dermal lesions, including regional and local edema, crusts, and ulcers. Snake fungal disease is widespread in the Eastern United States, yet there are limited data on how clinical signs of SFD compare with laboratory diagnostics. We compared two sampling methods for O. ophiodiicola, scale clip collection and swabbing, to evaluate whether collection method impacted the results of polymerase chain reaction (PCR). In addition, we evaluated the use of clinical signs to predict the presence of O. ophiodiicola across seasons, snake habitat affiliation (aquatic or terrestrial) and study sites. We found no significant difference in PCR results between sampling methods. Clinical signs were a strong predictor of O. ophiodiicola presence in spring and summer seasons. Snakes occupying terrestrial environments had a lower overall probability of testing positive for O. ophiodiicola compared to snakes occupying aquatic environments. Although our study indicates that both clinical signs of SFD and prevalence of O. ophiodiicola vary seasonally and based on habitat preferences of the host, our analysis suggests that clinical signs can serve as a reliable indicator of O. ophiodiicola presence, especially during spring and summer.

Published

2019

240. Activation of hedgehog signaling by systemic agonist improves fracture healing in aged mice.

Author

McKenzie JA, Maschhoff C, Liu X, Migotsky N, Silva MJ, and Gardner MJ

Subjects

Age Factors, Animals, Bony Callus diagnostic imaging, Bony Callus drug effects, Chondrogenesis drug effects, Drug Evaluation, Preclinical, Female, Femoral Fractures drug therapy, Gene Expression drug effects, Mice, Inbred C57BL, Molecular Targeted Therapy, Neovascularization, Physiologic drug effects, X-Ray Microtomography, Fracture Healing drug effects, Hedgehog Proteins agonists

Abstract

Fracture healing is a complex process of many coordinated biological pathways. This system can go awry resulting in nonunion, which leads to significant patient morbidity. The Hedgehog (Hh) signaling pathway is upregulated in fracture healing. We hypothesized that the Hh signaling pathway can be pharmacologically modulated to positively affect fracture healing. Diaphyseal femur fractures were created in elderly mice (18 months, C57BL/6 females), which have a blunted and delayed healing response compared to younger mice, and were stabilized with intramedullary pins. To activate the Hh pathway we targeted the receptor Smoothened using an agonist (Hh-Ag1.5 [Hh-Ag]) and compared this to a vehicle control. Expression of Hh target genes were significantly increased in the fracture callus of the agonist group compared to controls, indicating pathway activation. Expression of osteogenic and chondrogenic-related genes was greatly upregulated in fracture callus versus intact femora, although Hh agonist treatment did not consistently enhance this response. Blindly graded, radiographic callus healing scores were significantly higher in the Hh-Ag groups at post operative day (POD) 14, indicating earlier callus bridging. On microCT, Hh-Ag treatment led to greater callus volume (+40%) and bone volume (+25%) at POD21. By day 14, callus vascularity, as assessed by 3D microCT angiography vessel volume, was 85% greater in the Hh-Ag group. Finally, mechanical strength of the calluses in the Hh-Ag groups was significantly greater than in the control groups at POD21. In conclusion, systemic administration of a Hh agonist appears to improve the osseous and vascular healing responses in a mouse fracture healing-impaired model. © 2018 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res., (© 2018 Orthopaedic Research Society. Published by Wiley Periodicals, Inc.)

Published

2019

241. Gli1 identifies osteogenic progenitors for bone formation and fracture repair.

Author

Shi Y, He G, Lee WC, McKenzie JA, Silva MJ, and Long F

Subjects

Adipogenesis, Animals, Chondrocytes cytology, Chondrocytes metabolism, Fracture Healing, Fractures, Bone genetics, Mesenchymal Stem Cells cytology, Mice, Mice, Knockout, Mice, Transgenic, Osteoblasts cytology, Receptor, Platelet-Derived Growth Factor alpha genetics, Receptor, Platelet-Derived Growth Factor alpha metabolism, Zinc Finger Protein GLI1 genetics, beta Catenin genetics, beta Catenin metabolism, Fractures, Bone metabolism, Mesenchymal Stem Cells metabolism, Osteoblasts metabolism, Osteogenesis, Zinc Finger Protein GLI1 metabolism

Abstract

Bone formation in mammals requires continuous production of osteoblasts throughout life. A common molecular marker for all osteogenic mesenchymal progenitors has not been identified. Here, by lineage-tracing experiments in fetal or postnatal mice, we discover that Gli1 + cells progressively produce osteoblasts in all skeletal sites. Most notably, in postnatal growing mice, the Gli1 + cells residing immediately beneath the growth plate, termed here "metaphyseal mesenchymal progenitors" (MMPs), are essential for cancellous bone formation. Besides osteoblasts, MMPs also give rise to bone marrow adipocytes and stromal cells in vivo. RNA-seq reveals that MMPs express a number of marker genes previously assigned to mesenchymal stem/progenitor cells, including CD146/Mcam, CD44, CD106/Vcam1, Pdgfra, and Lepr. Genetic disruption of Hh signaling impairs proliferation and osteoblast differentiation of MMPs. Removal of β-catenin causes MMPs to favor adipogenesis, resulting in osteopenia coupled with increased marrow adiposity. Finally, postnatal Gli1 + cells contribute to both chondrocytes and osteoblasts during bone fracture healing. Thus Gli1 marks mesenchymal progenitors responsible for both normal bone formation and fracture repair.

Published

2017

242. Exogenous hedgehog antagonist delays but does not prevent fracture healing in young mice.

Author

Liu X, McKenzie JA, Maschhoff CW, Gardner MJ, and Silva MJ

Subjects

Aging, Animals, Female, Mice, Mice, Inbred C57BL, Signal Transduction drug effects, Anilides pharmacology, Fracture Healing drug effects, Fracture Healing physiology, Hedgehog Proteins antagonists & inhibitors, Pyridines pharmacology

Abstract

Fracture healing recapitulates many aspects of developmental osteogenesis. The hedgehog (Hh) signaling pathway, essential to skeletal development, is upregulated during fracture healing, although its importance is unclear. Our goal was to assess the functional importance of Hh signaling in endochondral fracture healing. We created closed, transverse diaphyseal femur fractures in mice, stabilized with an intramedullary pin, and administered a systemic Hh inhibitor or vehicle. Because Hh pathway activation is mediated by the receptor Smoothened (Smo), we used the Smo antagonist GDC-0449 (GDC, 50mg/kg, twice daily) to target the pathway. First, in vehicle-treated 10-wk. female C57BL/6 mice we confirmed that Hh signaling was increased in fracture callus compared to intact bone, with >5-fold upregulation of target genes Ptch1 and Gli1. Additionally, using 10-wk. male and female Gli1 reporter mice, we saw a strong activation of the reporter in the osseous regions of the fracture callus 7-10days after fracture. GDC treatment significantly blunted these responses, indicating effective inhibition of fracture-induced Hh signaling in bone. Moreover, microCT analysis revealed that GDC treatment significantly reduced cancellous and cortical bone volume at non-fracture sites (tibial metaphysis and diaphysis), suggesting that the drug inhibited normal bone formation. GDC treatment had a modest effect on fracture healing, with evidence of delayed callus mineralization radiographically (significantly lower Goldberg score at day 14) and by microCT (reduced callus vBMD at 14days), and a delay in the recovery of torsional rotation to normal (elevated rotation-at-peak torque at 21days). On the other hand, GDC treatment did not inhibit qPCR or morphological measures of chondrogenesis or angiogenesis, and did not impair the recovery of failure torque (at day 14 or 21), a measure of biomechanical competence. In summary, GDC treatment inhibited Hh signaling, which delayed but did not prevent fracture healing in young mice. We conclude that Hh signaling is strongly induced after fracture and may play a role in early callus mineralization, although it does not appear to be required for eventual healing., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

243. Analysis of a Nitroreductase-Based Hypoxia Sensor in Primary Neuronal Cultures.

Author

Lizama-Manibusan BN, Klein S, McKenzie JR, Cliffel DE, and McLaughlin B

Subjects

Animals, Basic Helix-Loop-Helix Transcription Factors pharmacology, Cell Count, Cell Hypoxia drug effects, Cells, Cultured, Embryo, Mammalian, Glucose deficiency, Microtubule-Associated Proteins metabolism, Neuroglia drug effects, Neuroglia metabolism, Neurons drug effects, Oxygen, Prosencephalon cytology, Rats, Rats, Sprague-Dawley, Subcellular Fractions metabolism, Tubulin metabolism, Cell Hypoxia physiology, Neurons metabolism, Nitroreductases metabolism

Abstract

The ability to assess oxygenation within living cells is much sought after to more deeply understand normal and pathological cell biology. Hypoxia Red manufactured by Enzo Life Sciences is advertised as a novel hypoxia detector dependent on nitroreducatase activity. We sought to use Hypoxia Red in primary neuronal cultures to test cell-to-cell metabolic variability in response to hypoxic stress. Neurons treated with 90 min of hypoxia were labeled with Hypoxia Red. We observed that, even under normoxic conditions neurons expressed fluorescence robustly. Analysis of the chemical reactions and biological underpinnings of this method revealed that the high uptake and reduction of the dye is due to active nitroreductases in normoxic cells that are independent of oxygen availability.

Published

2016

244. Hedgehog signaling mediates woven bone formation and vascularization during stress fracture healing.

Author

Kazmers NH, McKenzie JA, Shen TS, Long F, and Silva MJ

Subjects

Anilides pharmacology, Animals, Bone Resorption pathology, Bone Resorption physiopathology, Cell Proliferation drug effects, Fracture Healing drug effects, Fracture Healing genetics, Fractures, Stress genetics, Hedgehog Proteins antagonists & inhibitors, Hedgehog Proteins genetics, Male, Osteogenesis drug effects, Osteogenesis genetics, Pyridines pharmacology, Rats, Rats, Inbred F344, Signal Transduction drug effects, Up-Regulation drug effects, Fracture Healing physiology, Fractures, Stress pathology, Fractures, Stress physiopathology, Hedgehog Proteins physiology, Neovascularization, Physiologic drug effects, Neovascularization, Physiologic genetics, Osteogenesis physiology

Abstract

Hedgehog (Hh) signaling is critical in developmental osteogenesis, and recent studies suggest it may also play a role in regulating osteogenic gene expression in the post-natal setting. However, there is a void of studies directly assessing the effect of Hh inhibition on post-natal osteogenesis. This study utilized a cyclic loading-induced ulnar stress fracture model to evaluate the hypothesis that Hh signaling contributes to osteogenesis and angiogenesis during stress fracture healing. Immediately prior to loading, adult rats were given GDC-0449 (Vismodegib - a selective Hh pathway inhibitor; 50mg/kg orally twice daily), or vehicle. Hh signaling was upregulated in response to stress fracture at 3 days (Ptch1, Gli1 expression), and was markedly inhibited by GDC-0449 at 1 day and 3 days in the loaded and non-loaded ulnae. GDC-0449 did not affect Hh ligand expression (Shh, Ihh, Dhh) at 1 day, but decreased Shh expression by 37% at 3 days. GDC-0449 decreased woven bone volume (-37%) and mineral density (-17%) at 7 days. Dynamic histomorphometry revealed that the 7 day callus was composed predominantly of woven bone in both groups. The observed reduction in woven bone occurred concomitantly with decreased expression of Alpl and Ibsp, but was not associated with differences in early cellular proliferation (as determined by callus PCNA staining at 3 days), osteoblastic differentiation (Osx expression at 1 day and 3 days), chondrogenic gene expression (Acan, Sox9, and Col2α1 expression at 1 day and 3 days), or bone resorption metrics (callus TRAP staining at 3 days, Rankl and Opg expression at 1 day and 3 days). To evaluate angiogenesis, vWF immunohistochemistry showed that GDC-0449 reduced fracture callus blood vessel density by 55% at 3 days, which was associated with increased Hif1α gene expression (+30%). Dynamic histomorphometric analysis demonstrated that GDC-0449 also inhibited lamellar bone formation. Lamellar bone analysis of the loaded limb (directly adjacent to the woven bone callus) showed that GDC-0449 significantly decreased mineral apposition rate (MAR) and bone formation rate (BFR/BS) (-17% and -20%, respectively). Lamellar BFR/BS in the non-loaded ulna was also significantly decreased (-37%), indicating that Hh signaling was required for normal bone modeling. In conclusion, Hh signaling plays an important role in post-natal osteogenesis in the setting of stress fracture healing, mediating its effects directly through regulation of bone formation and angiogenesis., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

245. Bmp2 conditional knockout in osteoblasts and endothelial cells does not impair bone formation after injury or mechanical loading in adult mice.

Author

McBride-Gagyi SH, McKenzie JA, Buettmann EG, Gardner MJ, and Silva MJ

Subjects

Animals, Bone Morphogenetic Protein 2 genetics, Bone Morphogenetic Protein 2 physiology, Endothelial Cells physiology, Female, Fracture Healing genetics, Fractures, Stress genetics, Fractures, Stress pathology, Fractures, Stress physiopathology, Gene Expression, Male, Mice, Mice, Knockout, Osteoblasts physiology, Osteogenesis genetics, Stress, Mechanical, Bone Morphogenetic Protein 2 deficiency, Fracture Healing physiology, Osteogenesis physiology

Abstract

Post-natal osteogenesis after mechanical trauma or stimulus occurs through either endochondral healing, intramembranous healing or lamellar bone formation. Bone morphogenetic protein 2 (BMP2) is up-regulated in each of these osteogenic processes and is expressed by a variety of cells including osteoblasts and vascular cells. It is known that genetic knockout of Bmp2 in all cells or in osteo-chondroprogenitor cells completely abrogates endochondral healing after full fracture. However, the importance of BMP2 from differentiated osteoblasts and endothelial cells is not known. Moreover, the importance of BMP2 in non-endochondral bone formation such as intramembranous healing or lamellar bone formation is not known. Using inducible and tissue-specific Cre-lox mediated targeting of Bmp2 in adult (10-24 week old) mice, we assessed the role of BMP2 expression globally, by osteoblasts, and by vascular endothelial cells in endochondral healing, intramembranous healing and lamellar bone formation. These three osteogenic processes were modeled using full femur fracture, ulnar stress fracture, and ulnar non-damaging cyclic loading, respectively. Our results confirmed the requirement of BMP2 for endochondral fracture healing, as mice in which Bmp2 was knocked out in all cells prior to fracture failed to form a callus. Targeted deletion of Bmp2 in osteoblasts (osterix-expressing) or vascular endothelial cells (vascular endothelial cadherin-expressing) did not impact fracture healing in any way. Regarding non-endochondral bone formation, we found that BMP2 is largely dispensable for intramembranous bone formation after stress fracture and also not required for lamellar bone formation induced by mechanical loading. Taken together our results indicate that osteoblasts and endothelial cells are not a critical source of BMP2 in endochondral fracture healing, and that non-endochondral bone formation in the adult mouse is not as critically dependent on BMP2., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

246. Design and Outcome of a Certification Preparation Program for Outpatient Nurses.

Author

Johnson T, Ferguson S, McKenzie J, and Brassil KJ

Subjects

Ambulatory Care methods, Ambulatory Care organization & administration, Breast Neoplasms genetics, Breast Neoplasms prevention & control, Cancer Care Facilities organization & administration, Certification methods, Certification standards, Education, Nursing, Continuing methods, Education, Nursing, Continuing organization & administration, Education, Nursing, Continuing standards, Educational Measurement methods, Educational Measurement standards, Female, Humans, Job Satisfaction, Models, Educational, Oncology Nursing standards, Patient Education as Topic methods, Patient Education as Topic standards, Program Evaluation, Quality Assurance, Health Care methods, Staff Development methods, Staff Development organization & administration, Staff Development standards, Workforce, Ambulatory Care standards, Breast Neoplasms nursing, Cancer Care Facilities standards, Oncology Nursing education, Quality Assurance, Health Care standards

Abstract

This article presents the design, implementation, and outcomes of a certification preparation program for nurses working in an outpatient clinic. A nurse educator designed curriculum using the Certified Breast Care Nurse test blueprint. Nurse administrators provided the resources and the staff coverage to allow all staff members to attend the sessions without disruption to patient care. This outpatient center has achieved and sustained 100% certification among eligible nurses over the past 5 years.

Published

2015

247. Angiogenesis is required for stress fracture healing in rats.

Author

Tomlinson RE, McKenzie JA, Schmieder AH, Wohl GR, Lanza GM, and Silva MJ

Subjects

Animals, Immunohistochemistry, Male, Rats, Rats, Inbred F344, Fracture Healing, Fractures, Stress physiopathology, Neovascularization, Physiologic

Abstract

Although angiogenesis and osteogenesis are critically linked, the importance of angiogenesis for stress fracture healing is unknown. In this study, mechanical loading was used to create a non-displaced stress fracture in the adult rat forelimb. Fumagillin, an anti-angiogenic agent, was used as the water soluble analogue TNP-470 (25mg/kg) as well as incorporated into lipid-encapsulated α(v)β(3) integrin targeted nanoparticles (0.25mg/kg). In the first experiment, TNP-470 was administered daily for 5 days following mechanical loading, and changes in gene expression, vascularity, and woven bone formation were quantified. Although no changes in vascularity were detected 3 days after loading, treatment-related downregulation of angiogenic (Pecam1) and osteogenic (Bsp, Osx) genes was observed at this early time point. On day 7, microCT imaging of loaded limbs revealed diminished woven bone formation in treated limbs compared to vehicle treated limbs. In the second experiment, α(v)β(3) integrin targeted fumagillin nanoparticles were administered as before, albeit with a 100-fold lower dose, and changes in vascularity and woven bone formation were determined. There were no treatment-related changes in vessel count or volume 3 days after loading, although fewer angiogenic (CD105 positive) blood vessels were present in treated limbs compared to vehicle treated limbs. This result manifested on day 7 as a reduction in total vascularity, as measured by histology (vessel count) and microCT (vessel volume). Similar to the first experiment, treated limbs had diminished woven bone formation on day 7 compared to vehicle treated limbs. These results indicate that angiogenesis is required for stress fracture healing, and may have implications for inducing rapid repair of stress fractures., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

248. Sniff nasal inspiratory pressure and sleep disordered breathing in childhood neuromuscular disorders.

Author

Anderson VB, McKenzie JA, Seton C, Fitzgerald DA, Webster RI, North KN, Joffe DA, and Young HK

Subjects

Adolescent, Case-Control Studies, Child, Child, Preschool, Female, Humans, Male, Neuromuscular Diseases physiopathology, Polysomnography, Respiratory Function Tests, Sleep Apnea Syndromes physiopathology, Neuromuscular Diseases complications, Respiratory Muscles physiopathology, Sleep Apnea Syndromes complications, Sleep Apnea Syndromes diagnosis

Abstract

The ease of sniff nasal inspiratory pressure testing may extend application of respiratory muscle assessment to younger and cognitively-impaired children. We sought to quantify sniff nasal inspiratory pressure in childhood neuromuscular disorders, and to correlate this measure with conventional pulmonary function tests and overnight polysomnography. Thirty children (mean 9.7 ± 3.8 years, range 4.3-16.5 years) with diagnosed neuromuscular disorders (Duchenne muscular dystrophy, spinal muscular atrophy, Becker muscular dystrophy, congenital myopathy, facioscapulohumeral muscular dystrophy, myotonic dystrophy, multi-minicore disease) underwent assessment. Thirty-seven percent displayed cognitive impairment. Those with neuromuscular disorders were then compared with 32 volunteer age- and gender-matched controls (mean 10.9 ± 2.9 years, range 6.6-17.2 years) with normal respiratory function. Twenty-three children with neuromuscular disorders also underwent overnight polysomnography. Children with neuromuscular disorders demonstrated significantly impaired sniff nasal inspiratory pressure, maximal inspiratory pressure, FEV(1) and FVC (p<0.05). A positive correlation was identified between daytime sniff nasal inspiratory pressure and maximal inspiratory pressure (r=0.58), FEV(1) (r=0.55) and FVC (r=0.46), though not with polysomnography variables (respiratory disturbance index, nadir SpO(2), peak CO(2)). Moderate prevalence of nocturnal hypoxia was observed, and 32% of children demonstrated sleep disordered breathing. Sniff nasal inspiratory pressure assessment was well tolerated, representing a promising surrogate measure for assessment of respiratory function in childhood neuromuscular disorders., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

249. A printed superoxide dismutase coated electrode for the study of macrophage oxidative burst.

Author

Hiatt LA, McKenzie JR, Deravi LF, Harry RS, Wright DW, and Cliffel DE

Subjects

Animals, Calibration, Cells, Cultured, Electrochemical Techniques, Electrodes, Mice, Reproducibility of Results, Tetradecanoylphorbol Acetate pharmacology, Biosensing Techniques methods, Macrophages metabolism, Microfluidic Analytical Techniques, Respiratory Burst, Superoxide Dismutase chemistry

Abstract

The miniaturization of electrochemical sensors allows for the minimally invasive and cost effective examination of cellular responses at a high efficacy rate. In this work, an ink-jet printed superoxide dismutase electrode was designed, characterized, and utilized as a novel microfluidic device to examine the metabolic response of a 2D layer of macrophage cells. Since superoxide production is one of the first indicators of oxidative burst, macrophage cells were exposed within the microfluidic device to phorbol myristate acetate (PMA), a known promoter of oxidative burst, and the production of superoxide was measured. A 46 ± 19% increase in current was measured over a 30 min time period demonstrating successful detection of sustained macrophage oxidative burst, which corresponds to an increase in the superoxide production rate by 9 ± 3 attomoles/cell/s. Linear sweep voltammetry was utilized to show the selectivity of this sensor for superoxide over hydrogen peroxide. This novel controllable microfluidic system can be used to study the impact of multiple effectors from a large number of bacteria or other invaders along a 2D layer of macrophages, providing an in vitro platform for improved electrochemical studies of metabolic responses., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

250. AKT1 G205T genotype influences obesity-related metabolic phenotypes and their responses to aerobic exercise training in older Caucasians.

Author

McKenzie JA, Witkowski S, Ludlow AT, Roth SM, and Hagberg JM

Subjects

Absorptiometry, Photon methods, Adipose Tissue metabolism, Age Factors, Cohort Studies, Female, Genotype, Humans, Male, Middle Aged, Obesity ethnology, Obesity metabolism, Phenotype, Polymorphism, Genetic, Proto-Oncogene Proteins c-akt metabolism, Retrospective Studies, Sex Factors, Exercise physiology, Obesity genetics, Proto-Oncogene Proteins c-akt genetics, White People genetics

Abstract

As part of the insulin signalling pathway, Akt influences growth and metabolism. The AKT1 gene G205T (rs1130214) polymorphism has potential functional effects. Thus, we determined whether the G205T polymorphism influences metabolic variables and their responses to aerobic exercise training. Following dietary stabilization, healthy, sedentary, 50- to 75-year-old Caucasian men (n = 51) and women (n = 58) underwent 6 months of aerobic exercise training. Before and after completing the intervention, dual-energy X-ray absorptiometry was used to measure percentage body fat, computed tomography to measure visceral and subcutaneous fat, and oral glucose tolerance testing to measure glucose total area under the curve (AUC), insulin AUC and insulin sensitivity. Taqman assay was used to determine AKT1 G205T genotypes. At baseline, men with the GG genotype (n = 29) had lower maximal oxygen consumption (VO2 max) values (P = 0.026) and higher percentage body fat (P = 0.046), subcutaneous fat (P = 0.021) and insulin AUC (P = 0.003) values than T allele carriers (n = 22). Despite their rather disadvantageous starting values, men with the GG genotype seemed to respond to exercise training more robustly than men with the T allele, highlighted by significantly greater fold change improvements in insulin AUC (P = 0.012) and glucose AUC (P = 0.035). Although the GG group also significantly improved VO2 max with training, the change in VO2 max was not as great as that of the T allele carriers (P = 0.037). In contrast, after accounting for hormone replacement therapy use, none of the variables differed in the women at baseline. As a result of exercise training, women with the T allele (n = 20) had greater fold change improvements in fasting glucose (P = 0.011), glucose AUC (P = 0.017) and insulin sensitivity (P = 0.044) than GG genotype women (n = 38). Our results suggest that the AKT1 G205T polymorphism influences metabolic variables and their responses to aerobic exercise training in older, previously sedentary individuals.

Published

2011