Your search keyword '"Lomneth C"' showing total 8 results

1. 344: Focused Training of Emergency Medicine Residents in Bedside Thoracic Ultrasound: Assessment for Pneumothorax

Author

Adhikari, S., primary, Zeger, W., additional, Lomneth, C., additional, and Meza, J., additional

Published

2007

2. A preliminary review of a pilot curriculum to teach open surgical skills during general surgery residency with initial feedback.

Author

Are C, Lomneth C, Stoddard H, Azarow K, and Thompson JS

Published

2012

3. Stent Design Affects Femoropopliteal Artery Deformation.

Author

MacTaggart J, Poulson W, Seas A, Deegan P, Lomneth C, Desyatova A, Maleckis K, and Kamenskiy A

Subjects

Aged, Aged, 80 and over, Biomechanical Phenomena, Female, Femoral Artery diagnostic imaging, Humans, Male, Middle Aged, Popliteal Artery diagnostic imaging, Prosthesis Failure adverse effects, Tomography, X-Ray Computed, Atherosclerosis therapy, Femoral Artery physiology, Popliteal Artery physiology, Prosthesis Design, Prosthesis Failure etiology, Self Expandable Metallic Stents

Abstract

Background: Poor durability of femoropopliteal artery (FPA) stenting is multifactorial, and severe FPA deformations occurring with limb flexion are likely involved. Different stent designs result in dissimilar stent-artery interactions, but the degree of these effects in the FPA is insufficiently understood., Objectives: To determine how different stent designs affect limb flexion-induced FPA deformations., Methods: Retrievable markers were deployed into n = 28 FPAs of lightly embalmed human cadavers. Bodies were perfused and CT images were acquired with limbs in the standing, walking, sitting, and gardening postures. Image analysis allowed measurement of baseline FPA foreshortening, bending, and twisting associated with each posture. Markers were retrieved and 7 different stents were deployed across the adductor hiatus in the same limbs. Markers were then redeployed in the stented FPAs, and limbs were reimaged. Baseline and stented FPA deformations were compared to determine the influence of each stent design., Results: Proximal to the stent, Innova, Supera, and SmartFlex exacerbated foreshortening, SmartFlex exacerbated twisting, and SmartControl restricted bending of the FPA. Within the stent, all devices except Viabahn restricted foreshortening; Supera, SmartControl, and AbsolutePro restricted twisting; SmartFlex and Innova exacerbated twisting; and Supera and Viabahn restricted bending. Distal to the stents, all devices except AbsolutePro and Innova exacerbated foreshortening, and Viabahn, Supera, Zilver, and SmartControl exacerbated twisting. All stents except Supera were pinched in flexed limb postures., Conclusions: Peripheral self-expanding stents significantly affect limb flexion-induced FPA deformations, but in different ways. Although certain designs seem to accommodate some deformation modes, no device was able to match all FPA deformations.

Published

2019

4. Limb flexion-induced axial compression and bending in human femoropopliteal artery segments.

Author

Poulson W, Kamenskiy A, Seas A, Deegan P, Lomneth C, and MacTaggart J

Subjects

Activities of Daily Living, Aged, Aged, 80 and over, Biomechanical Phenomena, Cadaver, Female, Fiducial Markers, Humans, Male, Middle Aged, Models, Cardiovascular, Posture, Radiographic Image Interpretation, Computer-Assisted, Regional Blood Flow, Stress, Mechanical, Computed Tomography Angiography instrumentation, Femoral Artery diagnostic imaging, Popliteal Artery diagnostic imaging

Abstract

Background: High failure rates of femoropopliteal artery (FPA) interventions are often attributed in part to severe mechanical deformations that occur with limb movement. Axial compression and bending of the FPA likely play significant roles in FPA disease development and reconstruction failure, but these deformations are poorly characterized. The goal of this study was to quantify axial compression and bending of human FPAs that are placed in positions commonly assumed during the normal course of daily activities., Methods: Retrievable nitinol markers were deployed using a custom-made catheter system into 28 in situ FPAs of 14 human cadavers. Contrast-enhanced, thin-section computed tomography images were acquired with each limb in the standing (180 degrees), walking (110 degrees), sitting (90 degrees), and gardening (60 degrees) postures. Image segmentation and analysis allowed relative comparison of spatial locations of each intra-arterial marker to determine axial compression and bending using the arterial centerlines., Results: Axial compression in the popliteal artery (PA) was greater than in the proximal superficial femoral artery (SFA) or the adductor hiatus (AH) segments in all postures (P = .02). Average compression in the SFA, AH, and PA ranged from 9% to 15%, 11% to 19%, and 13% to 25%, respectively. The FPA experienced significantly more acute bending in the AH and PA segments compared with the proximal SFA (P < .05) in all postures. In the walking, sitting, and gardening postures, average sphere radii in the SFA, AH, and PA ranged from 21 to 27 mm, 10 to 18 mm, and 8 to 19 mm, whereas bending angles ranged from 150 to 157 degrees, 136 to 147 degrees, and 137 to 148 degrees, respectively., Conclusions: The FPA experiences significant axial compression and bending during limb flexion that occur at even modest limb angles. Moreover, different segments of the FPA appear to undergo significantly different degrees of deformation. Understanding the effects of limb flexion on axial compression and bending might assist with reconstructive device selection for patients requiring peripheral arterial disease intervention and may also help guide the development of devices with improved characteristics that can better adapt to the dynamic environment of the lower extremity vasculature., (Copyright © 2017 Society for Vascular Surgery. Published by Elsevier Inc. All rights reserved.)

Published

2018

5. The choice of a constitutive formulation for modeling limb flexion-induced deformations and stresses in the human femoropopliteal arteries of different ages.

Author

Desyatova A, MacTaggart J, Poulson W, Deegan P, Lomneth C, Sandip A, and Kamenskiy A

Subjects

Age Factors, Arteries diagnostic imaging, Computer Simulation, Femur diagnostic imaging, Humans, Joints blood supply, Joints diagnostic imaging, Tomography, X-Ray Computed, Arteries physiology, Femur blood supply, Models, Biological, Stress, Mechanical

Abstract

Open and endovascular treatments for peripheral arterial disease are notorious for high failure rates. Severe mechanical deformations experienced by the femoropopliteal artery (FPA) during limb flexion and interactions between the artery and repair materials play important roles and may contribute to poor clinical outcomes. Computational modeling can help optimize FPA repair, but these simulations heavily depend on the choice of constitutive model describing the arterial behavior. In this study finite element model of the FPA in the standing (straight) and gardening (acutely bent) postures was built using computed tomography data, longitudinal pre-stretch and biaxially determined mechanical properties. Springs and dashpots were used to represent surrounding tissue forces associated with limb flexion-induced deformations. These forces were then used with age-specific longitudinal pre-stretch and mechanical properties to obtain deformed FPA configurations for seven age groups. Four commonly used invariant-based constitutive models were compared to determine the accuracy of capturing deformations and stresses in each age group. The four-fiber FPA model most accurately portrayed arterial behavior in all ages, but in subjects younger than 40 years, the performance of all constitutive formulations was similar. In older subjects, Demiray (Delfino) and classic two-fiber Holzapfel-Gasser-Ogden formulations were better than the Neo-Hookean model for predicting deformations due to limb flexion, but both significantly overestimated principal stresses compared to the FPA or Neo-Hookean models.

Published

2017

6. Limb flexion-induced twist and associated intramural stresses in the human femoropopliteal artery.

Author

Desyatova A, Poulson W, Deegan P, Lomneth C, Seas A, Maleckis K, MacTaggart J, and Kamenskiy A

Subjects

Female, Humans, Male, Femoral Artery physiology, Lower Extremity blood supply, Models, Cardiovascular, Stress, Mechanical

Abstract

High failure rates of femoropopliteal artery (FPA) interventions are often attributed to severe mechanical deformations that occur with limb movement. Torsion of the FPA likely plays a significant role, but is poorly characterized and the associated intramural stresses are currently unknown. FPA torsion in the walking, sitting and gardening postures was characterized in n = 28 in situ FPAs using intra-arterial markers. Principal mechanical stresses and strains were quantified in the superficial femoral artery (SFA), adductor hiatus segment (AH) and the popliteal artery (PA) using analytical modelling. The FPA experienced significant torsion during limb flexion that was most severe in the gardening posture. The associated mechanical stresses were non-uniformly distributed along the length of the artery, increasing distally and achieving maximum values in the PA. Maximum twist in the SFA ranged 10-13° cm -1 , at the AH 8-16° cm -1 , and in the PA 14-26° cm -1 in the walking, sitting and gardening postures. Maximum principal stresses were 30-35 kPa in the SFA, 27-37 kPa at the AH and 39-43 kPa in the PA. Understanding torsional deformations and intramural stresses in the FPA can assist with device selection for peripheral arterial disease interventions and may help guide the development of devices with improved characteristics., (© 2017 The Author(s).)

Published

2017

7. Assessment of a human cadaver model for training emergency medicine residents in the ultrasound diagnosis of pneumothorax.

Author

Adhikari S, Zeger W, Wadman M, Walker R, and Lomneth C

Subjects

Cadaver, Cross-Sectional Studies, Humans, Sensitivity and Specificity, Ultrasonography, Emergency Medicine education, Lung diagnostic imaging, Models, Biological, Pneumothorax diagnostic imaging

Abstract

Objectives: To assess a human cadaver model for training emergency medicine residents in the ultrasound diagnosis of pneumothorax., Methods: Single-blinded observational study using a human cadaveric model at an academic medical center. Three lightly embalmed cadavers were used to create three "normal lungs" and three lungs modeling a "pneumothorax." The residents were blinded to the side and number of pneumothoraces, as well as to each other's findings. Each resident performed an ultrasound examination on all six lung models during ventilation of cadavers. They were evaluated on their ability to identify the presence or absence of the sliding-lung sign and seashore sign., Results: A total of 84 ultrasound examinations (42-"normal lung," 42-"pneumothorax") were performed. A sliding-lung sign was accurately identified in 39 scans, and the seashore sign was accurately identified in 34 scans. The sensitivity and specificity for the sliding-lung sign were 93% (95% CI, 85-100%) and 90% (95% CI, 81-99%), respectively. The sensitivity and specificity for the seashore sign were 80% (95% CI, 68-92%) and 83% (95% CI, 72-94%), respectively., Conclusions: Lightly embalmed human cadavers may provide an excellent model for mimicking the sonographic appearance of pneumothorax.

Published

2014

8. Quantitative immunoassay of total cellular GAP junction protein connexin32 during liver regeneration using antibodies specific to the COOH-terminus.

Author

Hendrix EM, Lomneth CS, Wilfinger WW, Hertzberg EL, Mao SJ, Chen L, and Larsen WJ

Subjects

Animals, Cell Membrane chemistry, Cell Membrane ultrastructure, Connexins, Enzyme-Linked Immunosorbent Assay, Hepatectomy, Immune Sera, Immunoassay, Immunoblotting, Immunohistochemistry, Intercellular Junctions physiology, Intercellular Junctions ultrastructure, Liver chemistry, Liver cytology, Liver physiology, Male, Radioimmunoassay, Rats, Rats, Inbred Strains, Intercellular Junctions chemistry, Liver Regeneration physiology, Membrane Proteins analysis

Abstract

A radioimmunoassay (RIA) and enzyme-linked immunosorbent assay (ELISA) were used to determine relative concentrations of liver connexin32 (CX32) in rats. The RIA and ELISA utilize synthetic peptides corresponding to regions of the carboxyl-terminus and antibodies raised in rabbits against these peptides. Assuming that affinities of antisera are similar for peptide and native CX32, total cellular CX32 was found to exceed the amount of gap junction protein at the cell surface calculated from morphometric analyses by 1.5-2.0 fold. This finding raises the possibility that some of the protein is present in cytoplasmic compartments or as occult precursors in the plasma membrane. Studies of CX32 content in regenerating rat liver support this conclusion and show a time course of loss and recovery of CX32 that agrees with those reported in studies using other techniques.

Published

1992