Your search keyword '"Glen A. Laine"' showing total 155 results

1. Dichotomous effects of in vivo and in vitro ionizing radiation exposure on lymphatic function

Author

Reetu Singh, Cristine L. Heaps, Mariappan Muthuchamy, Michael A. Deveau, Randolph H. Stewart, Glen A. Laine, and Ranjeet M. Dongaonkar

Subjects

Physiology, Physiology (medical), Cardiology and Cardiovascular Medicine

Abstract

On the one hand, lymphatic dysfunction induces interstitial edema and inflammation. On the other hand, the formation of edema and inflammation induce lymphatic dysfunction. However, informed by the earlier reports of undetected apoptosis of irradiated lymphatic endothelial cells (LECs) in vivo, lymphatic vessels are commonly considered inconsequential to ionizing radiation (IR)-induced inflammatory injury to normal tissues. Due primarily to the lack of understanding of the acute effects of IR exposure on lymphatic function, acute edema and inflammation-common sequelae of IR exposure-have been ascribed solely to blood vessel damage. Therefore, in the present study, the lymphatic acute responses to IR exposure were quantified to evaluate the hypothesis that IR exposure impairs lymphatic pumping. Rat mesenteric lymphatic vessels were irradiated in vivo or in vitro, and changes in pumping were quantified in isolated vessels in vitro. Compared to sham-treated vessels, pumping was lowered in lymphatic vessels irradiated in vivo but increased in vessels irradiated in vitro. Furthermore, unlike in blood vessels, the acute effects of IR exposure in lymphatic vessels were not mediated by nitric oxide-dependent pathways in either in vivo or in vitro irradiated vessels. After cyclooxygenase blockade, pumping was partially restored in lymphatic vessels irradiated in vitro but not in vessels irradiated in vivo. Taken together, these findings demonstrated that lymphatic vessels are radiosensitive, and LEC apoptosis alone may not account for all the effects of IR exposure on the lymphatic system.

Published

2022

2. Myocardial Edema Provides a Link Between Pulmonary Arterial Hypertension and Pericardial Effusion

Author

Randolph H. Stewart, Charles S. Cox, Steven J. Allen, and Glen A. Laine

Subjects

Pulmonary Arterial Hypertension, Hypertension, Pulmonary, Physiology (medical), Edema, Humans, Familial Primary Pulmonary Hypertension, Cardiology and Cardiovascular Medicine, Pericardial Effusion

Published

2022

3. The DeBakey Executive Research Leadership Program Bridges the Depth of Experienced Leaders with the Breadth of Emerging Leaders

Author

Trudy K. Bennett, Christopher M. Quick, Andrew C. McNeely, and Glen A. Laine

Subjects

Genetics, Molecular Biology, Biochemistry, Biotechnology

Published

2022

4. In Vitro Irradiation of Lymphatic Vessels Enhances Lymphatic Pump Function

Author

Reetu Singh, Michael A. Deveau, Randolph H. Stewart, Glen A. Laine, and Ranjeet M. Dongaonkar

Subjects

Genetics, Molecular Biology, Biochemistry, Biotechnology

Published

2022

5. Effects of Acetate on Mesenteric Lymphatic Pump Function

Author

Reetu Singh, Randolph H. Stewart, Glen A. Laine, and Ranjeet M. Dongaonkar

Subjects

Genetics, Molecular Biology, Biochemistry, Biotechnology

Published

2022

6. Adaptation of the hepatic transudation barrier to sinusoidal hypertension

Author

Charles S. Cox, Christopher M. Quick, Ranjeet M. Dongaonkar, Karen Uray, Glen A. Laine, and Randolph H. Stewart

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Physiology, Constriction, Pathologic, Chronic liver disease, Inferior vena cava, 03 medical and health sciences, Dogs, 0302 clinical medicine, Interstitial fluid, Physiology (medical), Internal medicine, Ascites, medicine, Animals, Fibrous capsule of Glisson, business.industry, Peritoneal fluid, Exudates and Transudates, medicine.disease, Adaptation, Physiological, 030104 developmental biology, Liver, Congestive hepatopathy, medicine.vein, Hypertension, Cardiology, 030211 gastroenterology & hepatology, Barrier permeability, medicine.symptom, business

Abstract

The role of the hepatic transudation barrier in determining ascites volume and protein content in chronic liver disease is poorly understood. Therefore, the purpose of the present study was to characterize how chronic sinusoidal hypertension impacts hepatic transudation barrier properties and the transudation rate. The suprahepatic inferior vena cava was surgically constricted, and animals were exposed to either short-term (SVH; 2–3 wk) or long-term venous hypertension (LVH; 5–6 wk). Compared with SVH, LVH resulted in lower peritoneal fluid pressure, ascites volume, and ascites protein concentration. The transudation barrier protein reflection coefficient was significantly higher, and the transudation barrier hydraulic conductivity, transudation rate, and transudate-to-lymph protein concentration ratio were significantly lower in LVH animals compared with SVH animals. The sensitivity of transudation rates to acute changes in interstitial fluid pressures was also significantly lower in LVH animals compared with SVH animals. In contrast, there was no detectable difference in hepatic lymph flow rate or sensitivity of lymph flow to acute changes in interstitial fluid pressures between SVH and LVH animals. Taken together, these data suggest that decreased hepatic transudation barrier permeability to fluid and protein and increased reflection coefficient led to a decrease in the hepatic contribution to ascites volume. The present work, to the best of our knowledge, is the first to quantify an anti-ascites adaptation of the hepatic transudation barrier in response to chronic hepatic sinusoidal hypertension.

Published

2020

7. Resolving the hemodynamic inverse problem.

Author

Christopher M. Quick, David S. Berger, Randolph H. Stewart, Glen A. Laine, Craig J. Hartley, and Abraham Noordergraaf

Published

2006

8. Mesenteric lymphatic vessels adapt to mesenteric venous hypertension by becoming weaker pumps

Author

Randolph H. Stewart, Glen A. Laine, Emily Wilson, Ranjeet M. Dongaonkar, Tam L. Nguyen, Cristine L. Heaps, Christopher M. Quick, and Joanne Hardy

Subjects

medicine.medical_specialty, Fluid and Electrolyte Homeostasis, Time Factors, Physiology, Biological Transport, Active, Mesenteric Veins, Physiology (medical), Internal medicine, Edema, Pressure, medicine, Animals, Venous hypertension, Lymphatic Vessels, business.industry, Muscle, Smooth, Anatomy, Adaptation, Physiological, Disease Models, Animal, Transmural pressure, Lymphatic system, Lymph flow, Cardiology, Calcium, Cattle, Female, Lymph, medicine.symptom, business, Venous Pressure, Muscle Contraction

Abstract

Lymphangions, the segments of lymphatic vessels between two adjacent lymphatic valves, actively pump lymph. Acute changes in transmural pressure and lymph flow have profound effects on lymphatic pump function in vitro. Chronic changes in pressure and flow in vivo have also been reported to lead to significant changes in lymphangion function. Because changes in pressure and flow are both cause and effect of adaptive processes, characterizing adaptation requires a more fundamental analysis of lymphatic muscle properties. Therefore, the purpose of the present work was to use an intact lymphangion isovolumetric preparation to evaluate changes in mesenteric lymphatic muscle mechanical properties and the intracellular Ca2+ in response to sustained mesenteric venous hypertension. Bovine mesenteric veins were surgically occluded to create mesenteric venous hypertension. Postnodal mesenteric lymphatic vessels from mesenteric venous hypertension (MVH; n = 6) and sham surgery (Sham; n = 6) animals were isolated and evaluated 3 days after the surgery. Spontaneously contracting MVH vessels generated end-systolic active tension and end-diastolic active tension lower than the Sham vessels. Furthermore, steady-state active tension and intracellular Ca2+ concentration levels in response to KCl stimulation were also significantly lower in MVH vessels compared with those of the Sham vessels. There was no significant difference in passive tension in lymphatic vessels from the two groups. Taken together, these results suggest that following 3 days of mesenteric venous hypertension, postnodal mesenteric lymphatic vessels adapt to become weaker pumps with decreased cytosolic Ca2+ concentration.

Published

2015

9. Functional adaptation of bovine mesenteric lymphatic vessels to mesenteric venous hypertension

Author

Anatoliy A. Gashev, Randolph H. Stewart, John C. Criscione, Glen A. Laine, Joanne Hardy, Emily Wilson, Ranjeet M. Dongaonkar, Christopher M. Quick, and Akhilesh A. Kotiya

Subjects

medicine.medical_specialty, Time Factors, Fluid and Electrolyte Homeostasis, Physiology, Mesenteric Vein, Microcirculation, Lymphatic System, Mesenteric Veins, Interstitial fluid, Physiology (medical), Internal medicine, medicine, Animals, Mesentery, Lymphatic Vessels, business.industry, Sham surgery, Anatomy, Water-Electrolyte Balance, Adaptation, Physiological, Disease Models, Animal, medicine.anatomical_structure, Lymphatic system, Hypertension, Cardiology, Cattle, Female, Lymph, business, Lymphangion

Abstract

Lymph flow is the primary mechanism for returning interstitial fluid to the blood circulation. Currently, the adaptive response of lymphatic vessels to mesenteric venous hypertension is not known. This study sought to determine the functional responses of postnodal mesenteric lymphatic vessels. We surgically occluded bovine mesenteric veins to create mesenteric venous hypertension to elevate mesenteric lymph flow. Three days after surgery, postnodal mesenteric lymphatic vessels from mesenteric venous hypertension (MVH; n = 7) and sham surgery (Sham; n = 6) group animals were evaluated and compared. Contraction frequency (MVH: 2.98 ± 0.75 min−1; Sham: 5.42 ± 0.81 min−1) and fractional pump flow (MVH: 1.14 ± 0.30 min−1; Sham: 2.39 ± 0.32 min−1) were significantly lower in the venous occlusion group. These results indicate that postnodal mesenteric lymphatic vessels adapt to mesenteric venous hypertension by reducing intrinsic contractile activity.

Published

2014

10. AWARD ARTICLE: Microcirculatory Society Award for Excellence in Lymphatic ResearchTime Course of Myocardial Interstitial Edema Resolution and Associated Left Ventricular Dysfunction

Author

Glen A. Laine, Ranjeet M. Dongaonkar, Christopher M. Quick, Randolph H. Stewart, Charles S. Cox, and Karen L. Uray

Subjects

Cardiac function curve, medicine.medical_specialty, Physiology, business.industry, Lymphatic system, Interstitial edema, Blood pressure, Physiology (medical), Internal medicine, Edema, Time course, medicine, Cardiology, Diastolic stiffness, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Molecular Biology, Coronary sinus

Abstract

Please cite this paper as: Dongaonkar RM, Stewart RH, Quick CM, Uray KL, Cox CS, Laine GA. Time course of myocardial interstitial edema resolution and associated left ventricular dysfunction. Microcirculation 19: 714–722, 2012. Abstract Objective: Although the causal relationship between acute myocardial edema and cardiac dysfunction has been established, resolution of myocardial edema and subsequent recovery of cardiac function have not been established. The time to resolve myocardial edema and the degree that cardiac function is depressed after edema resolves are not known. We therefore characterized temporal changes in cardiac function as acute myocardial edema formed and resolved. Methods: Acute myocardial edema was induced in the canine model by elevating coronary sinus pressure for three hours. Myocardial water content and cardiac function were determined before and during coronary sinus pressure elevation, and after coronary sinus pressure restoration. Results: Although no change in systolic properties was detected, accumulation of water in myocardial interstitium was associated with increased diastolic stiffness. When coronary sinus pressure was relieved, myocardial edema resolved within 180 minutes. Diastolic stiffness, however, remained significantly elevated compared with baseline values, and cardiac function remained compromised. Conclusions: The present work suggests that the cardiac dysfunction caused by the formation of myocardial edema may persist after myocardial edema resolves. With the advent of new imaging techniques to quantify myocardial edema, this insight provides a new avenue for research to detect and treat a significant cause of cardiac dysfunction.

Published

2012

11. Peritoneal fluid: a potential mechanism of systemic neutrophil priming in experimental intra-abdominal sepsis

Author

Hasen Xue, Karen S. Uray, Randolph H. Stewart, Kenneth C. Norbury, Fernando Jimenez, Peter A. Walker, Glen A. Laine, Teri D. Feeley, Shinil K. Shah, and Charles S. Cox

Subjects

Neutrophils, Swine, Priming (immunology), Enzyme-Linked Immunosorbent Assay, Inflammation, Systemic inflammation, Article, Proinflammatory cytokine, Sepsis, Superoxides, medicine, Animals, Ascitic Fluid, Humans, L-Selectin, CD11b Antigen, Interleukin-6, Tumor Necrosis Factor-alpha, business.industry, Peritoneal fluid, General Medicine, Flow Cytometry, medicine.disease, Disease Models, Animal, CD18 Antigens, Immunology, Intraabdominal Infections, Female, Surgery, Tumor necrosis factor alpha, medicine.symptom, business, Selectin

Abstract

Background Recent studies suggest that peritoneal fluid (PF) may be an important mediator of inflammation. The aim of this study was to test the hypothesis that PF may drive systemic inflammation in intra-abdominal sepsis by representing a priming agent for neutrophils. Methods PF was collected 12 hours after the initiation of intra-abdominal sepsis in swine. Naive human neutrophils were primed with PF before treatment with N -formyl-Met-Leu-Phe or phorbol 12-myristate 13-acetate to elucidate receptor-dependent and receptor-independent mechanisms of neutrophil activation. Flow cytometry was used to quantify neutrophil surface adhesion marker expression of integrins and selectins and superoxide anion production. Additionally, proinflammatory cytokines were quantified in PF. Results PF primed neutrophils via receptor-dependent and receptor-independent mechanisms. There were significant increases in the proinflammatory cytokines interleukin-6 and tumor necrosis factor–α in PF correlating with the development of intra-abdominal sepsis. Conclusions PF represents a priming agent for naive polymorphonuclear cells in intra-abdominal sepsis. This may be secondary to increased levels of proinflammatory cytokines. Strategies to reduce the amount of PF may decrease the systemic inflammatory response by reducing a priming agent for neutrophils.

Published

2012

12. Hydrostatic intestinal edema induced signaling pathways: Potential role of mechanical forces

Author

Fernando Jimenez, Randolph H. Stewart, Lindsey N. Fogle, Peter A. Walker, Shinil K. Shah, Glen A. Laine, Stacey D. Moore-Olufemi, Kevin Aroom, Charles S. Cox, Brijesh S. Gill, and Karen S. Uray

Subjects

Male, STAT3 Transcription Factor, Cytoplasm, medicine.medical_specialty, Myosin Light Chains, Myosin light-chain kinase, Hydrostatic pressure, Nitric Oxide Synthase Type II, Biology, Laryngeal Edema, Polymerase Chain Reaction, Article, Rats, Sprague-Dawley, Internal medicine, Edema, Intestine, Small, Hydrostatic Pressure, medicine, Animals, Phosphorylation, DNA Primers, Cell Nucleus, Hemostasis, NF-kappa B, Muscle, Smooth, Biomechanical Phenomena, Rats, Cell biology, Nitric oxide synthase, Intestinal Diseases, Cell nucleus, Endocrinology, medicine.anatomical_structure, biology.protein, Surgery, Stress, Mechanical, Signal transduction, medicine.symptom, Muscle Contraction, Signal Transduction

Abstract

Background Hydrostatic intestinal edema initiates a signal transduction cascade that results in smooth muscle contractile dysfunction. Given the rapid and concurrent alterations in the mechanical properties of edematous intestine observed with the development of edema, we hypothesize that mechanical forces may serve as a stimulus for the activation of certain signaling cascades. We sought to examine whether isolated similar magnitude mechanical forces induced the same signal transduction cascades associated with edema. Methods The distal intestine from adult male Sprague Dawley rats was stretched longitudinally for 2 h to 123% its original length, which correlates with the interstitial stress found with edema. We compared wet-to-dry ratios, myeloperoxidase activity, nuclear signal transduction and activator of transcription (STAT)-3 and nuclear factor (NF)-kappa B DNA binding, STAT-3 phosphorylation, myosin light chain phosphorylation, baseline and maximally stimulated intestinal contractile strength, and inducible nitric oxide synthase (iNOS) and sodium hydrogen exchanger 1–3 messenger RNA (mRNA) in stretched and adjacent control segments of intestine. Results Mechanical stretch did not induce intestinal edema or an increase in myeloperoxidase activity. Nuclear STAT-3 DNA binding, STAT-3 phosphorylation, and nuclear NF-kappa B DNA binding were significantly increased in stretched seromuscular samples. Increased expression of sodium hydrogen exchanger 1 was found but not an increase in iNOS expression. Myosin light chain phosphorylation was significantly decreased in stretched intestine as was baseline and maximally stimulated intestinal contractile strength. Conclusion Intestinal stretch, in the absence of edema/inflammatory/ischemic changes, leads to the activation of signaling pathways known to be altered in intestinal edema. Edema may initiate a mechanotransductive cascade that is responsible for the subsequent activation of various signaling cascades known to induce contractile dysfunction.

Published

2010

13. A Novel Physiologic Model for the Study of Abdominal Compartment Syndrome (ACS)

Author

Kenneth C. Norbury, Uwe M. Fischer, Peter A. Walker, Kevin Aroom, Randolph H. Stewart, Fernando Jimenez, Shinil K. Shah, Glen A. Laine, Hasen Xue, Karen S. Uray, and Charles S. Cox

Subjects

medicine.medical_specialty, Resuscitation, Mean arterial pressure, Abdominal compartment syndrome, Swine, Decompression, Multiple Organ Failure, Blood Pressure, Peak inspiratory pressure, Shock, Hemorrhagic, Critical Care and Intensive Care Medicine, Compartment Syndromes, Internal medicine, medicine.artery, medicine, Animals, business.industry, Central venous pressure, Reproducibility of Results, Abdominal Cavity, Decompression, Surgical, medicine.disease, Surgery, Disease Models, Animal, Pulmonary artery, Cardiology, Fluid Therapy, Female, Base excess, business

Abstract

BACKGROUND : Current abdominal compartment syndrome (ACS) models rely on intraperitoneal instillation of fluid, air, and other space-occupying substances. Although this allows for the study of the effects of increased abdominal pressure, it poorly mimics its pathogenesis. We have developed the first reported large animal model of ACS incorporating hemorrhagic shock/resuscitation. METHODS : Hemorrhagic shock was induced and maintained (1 hour) in 12 Yorkshire swine by bleeding to a mean arterial pressure (MAP) of 50 mm Hg. The collected blood plus two additional volumes of crystalloid was then reinfused. Mesenteric venous hypertension was induced by tightening a previously placed portal vein snare in a nonocclusive manner to mimic the effects of abdominal packing. Crystalloids were infused to maintain MAP. Hemodynamic measurements, abdominal pressure, peak inspiratory pressures, urine output, and blood chemistries were measured sequentially. Animals were studied for 36 hours after decompression. RESULTS : ACS (intra-abdominal pressure of > or =20 mm Hg with new organ dysfunction) developed in all animals. There were significant increases in peak inspiratory pressure, central venous pressure, and pulmonary artery pressure and decreases in MAP upon development of ACS. Urine output was significantly decreased before decompression. Mean blood lactate decreased and base excess increased significantly after decompression. CONCLUSIONS : We have created the first reported physiologic animal ACS model incorporating hemorrhagic shock/resuscitation and the effects of damage control surgery.

Published

2010

14. Hepatic transudation barrier properties

Author

Randolph H. Stewart, Ranjeet M. Dongaonkar, Charles S. Cox, Karen L. Uray, Glen A. Laine, and Christopher M. Quick

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Physiology, 030204 cardiovascular system & hematology, Capillary Permeability, 03 medical and health sciences, 0302 clinical medicine, Peritoneum, Interstitial matrix, Physiology (medical), Ascites, medicine, Animals, Humans, Molecular Biology, Chemistry, Venous pressure, Peritoneal fluid, Exudates and Transudates, Transudate, Kinetics, 030104 developmental biology, medicine.anatomical_structure, Liver, Entire liver, medicine.symptom, Cardiology and Cardiovascular Medicine, Venous Pressure

Abstract

OBJECTIVE Fluid and protein continuously transude from the surface of the liver. Despite a common understanding that transudation plays a critical role in hepatic interstitial and peritoneal fluid balance, transudation from the entire liver has not been studied. Therefore, the goal of the present work was to provide the first direct measurement of the hepatic transudation rate and transudation barrier properties. METHODS Transudation rates were determined by collecting transudate from the entire liver. Hydraulic conductivity, and fluid transudation and protein reflection coefficients of the transudation barrier (formed by the subscapular interstitial matrix, capsule, and peritoneum) were determined from changes in fluid and protein transudation rates in response to hepatic venous pressure elevation. RESULTS Following hepatic venous pressure elevation from 6.1 ± 0.9 to 11.1 ± 0.6 mm Hg, transudation rate increased from 0.13 ± 0.03 to 0.37 ± 0.03 mL/min·100 g. Transudation barrier hydraulic conductivity, fluid transudation and protein reflection coefficients (3.9 × 10-4 ± 5.7 × 10-5 mL/min·mm Hg·cm2 , 0.36 ± 0.04 mL/min·mm Hg, and 0.09 ± 0.03, respectively) were comparable to those reported for hepatic sinusoids. CONCLUSIONS Taken together, these findings suggest that the hepatic transudation barrier is highly permeable at elevated sinusoidal pressures. These fundamental studies provide a better understanding of the hepatic transudation barrier properties and transudation under conditions that are physiologically and clinically relevant to ascites formation.

Published

2018

15. Intestinal Edema: Effect of Enteral Feeding on Motility and Gene Expression

Author

Stacey D. Moore-Olufemi, Hasen Xue, Glen A. Laine, Frederick A. Moore, Randy Stewart, S.J. Allen, Dwight H Oliver, Charles S. Cox, Ravi S. Radhakrishnan, Shodimu Emmanuel Olufemi, and Jeff Padalecki

Subjects

Male, medicine.medical_specialty, Apoptosis, Ileum, Biology, Inflammatory bowel disease, Enteral administration, Gastroenterology, Article, Rats, Sprague-Dawley, Enteral Nutrition, Internal medicine, Edema, Gene expression, medicine, Animals, Intestinal Mucosa, Cytoskeleton, Oligonucleotide Array Sequence Analysis, Regulation of gene expression, Gene Expression Profiling, Dextrans, medicine.disease, Actin cytoskeleton, Actins, Rats, Intestines, Disease Models, Animal, Intestinal Diseases, medicine.anatomical_structure, Endocrinology, Parenteral nutrition, Gene Expression Regulation, Surgery, medicine.symptom, Gastrointestinal Motility, Fluorescein-5-isothiocyanate, Signal Transduction

Abstract

Objective Edema formation, inflammation, and ileus in the intestine are commonly seen in conditions like gastroschisis, inflammatory bowel disease, and cirrhosis. We hypothesized that early enteral feeding would improve intestinal transit. We also wanted to study the impact of early enteral feeding on global gene expression in the intestine. Design Rats were divided into Sham or Edema ± immediate enteral nutrition (IEN). At 12 h, small intestinal transit via FITC-Dextran and tissue water were measured. Ileum was harvested for total RNA to analyze gene expression using cDNA microarray with validation using real-time PCR. Data are expressed as mean ± SEM, n = 4–6 and ∗, ∗∗ = P Results IEN markedly improved intestinal transit with minimal genetic alterations in Edema animals. Major alterations in gene expression were detected in primary, cellular and macromolecular metabolic activities. Edema also altered more genes involved with the regulation of the actin cytoskeleton. Conclusions Intestinal edema results in impaired small intestinal transit and globally increased gene expression. Early enteral nutrition improves edema-induced impaired transit and minimizes gene transcriptional activity.

Published

2009

16. Balance point characterization of interstitial fluid volume regulation

Author

Randolph H. Stewart, Christopher M. Quick, Glen A. Laine, and Ranjeet M. Dongaonkar

Subjects

Osmosis, Physiology, Blood Pressure, Models, Biological, Microcirculation, law.invention, Capillary Permeability, Lymphatic System, Dogs, Balance point, law, Interstitial fluid, Physiology (medical), Edema, medicine, Animals, Filtration, Sheep, Chemistry, Reproducibility of Results, Extracellular Fluid, Blood Proteins, Anatomy, Water-Electrolyte Balance, Lymphatic system, Protein regulation, Interstitial volume, Microvessels, Innovative Methodology, Biophysics, Vascular Resistance, Lymph, medicine.symptom, Compliance

Abstract

The individual processes involved in interstitial fluid volume and protein regulation (microvascular filtration, lymphatic return, and interstitial storage) are relatively simple, yet their interaction is exceedingly complex. There is a notable lack of a first-order, algebraic formula that relates interstitial fluid pressure and protein to critical parameters commonly used to characterize the movement of interstitial fluid and protein. Therefore, the purpose of the present study is to develop a simple, transparent, and general algebraic approach that predicts interstitial fluid pressure ( P i) and protein concentrations ( C i) that takes into consideration all three processes. Eight standard equations characterizing fluid and protein flux were solved simultaneously to yield algebraic equations for P i and C i as functions of parameters characterizing microvascular, interstitial, and lymphatic function. Equilibrium values of P i and C i arise as balance points from the graphical intersection of transmicrovascular and lymph flows (analogous to Guyton's classical cardiac output-venous return curves). This approach goes beyond describing interstitial fluid balance in terms of conservation of mass by introducing the concept of inflow and outflow resistances. Algebraic solutions demonstrate that P i and C i result from a ratio of the microvascular filtration coefficient (1/inflow resistance) and effective lymphatic resistance (outflow resistance), and P i is unaffected by interstitial compliance. These simple algebraic solutions predict P i and C i that are consistent with reported measurements. The present work therefore presents a simple, transparent, and general balance point characterization of interstitial fluid balance resulting from the interaction of microvascular, interstitial, and lymphatic function.

Published

2009

17. Pulmonary Passage is a Major Obstacle for Intravenous Stem Cell Delivery: The Pulmonary First-Pass Effect

Author

Charles S. Cox, Sean I Savitz, Werner Otoniel Monzon-Posadas, Hasen Xue, Fernando Jimenez, Glen A. Laine, Uwe M. Fischer, and Matthew T. Harting

Subjects

Pathology, medicine.medical_specialty, Seminal Report, Infrared Rays, Spleen, Biology, Mesenchymal Stem Cell Transplantation, Flow cytometry, Rats, Sprague-Dawley, medicine, Animals, Progenitor cell, Infusions, Intravenous, Lung, Cell Size, medicine.diagnostic_test, Mesenchymal stem cell, Mesenchymal Stem Cells, Arteries, Cell Biology, Hematology, Flow Cytometry, Neural stem cell, Rats, medicine.anatomical_structure, Organ Specificity, Injections, Intravenous, Immunology, Sample collection, Stem cell, Developmental Biology

Abstract

Intravenous (IV) stem cell delivery for regenerative tissue therapy has been increasingly used in both experimental and clinical trials. However, recent data suggest that the majority of administered stem cells are initially trapped in the lungs. We sought to investigate variables that may affect this pulmonary first-pass effect. In anesthetized Sprague-Dawley rats, silicone tubing catheters were placed in the left internal jugular vein and common carotid artery. We investigated four different cell types: mesenchymal stromal cells (MSC), multipotent adult progenitor cells (MAPCs), bone marrow–derived mononuclear cells (BMMC), and neural stem cells (NSC). Cells were co-labeled with Qtracker® 655 (for flow cytometry) and Qtracker® 800 (for infrared imaging) and infused intravenously with continual arterial sample collection. Samples were analyzed via flow cytometry to detect labeled cells reaching the arterial circulation. Following sampling and exsanguination, heart, lungs, spleen, kidney, and liver were harvested and placed on an infrared imaging system to identify the presence of labeled cells. The majority of MSCs were trapped inside the lungs following intravenous infusion. NSC and MAPC pulmonary passage was 2-fold and BMMC passage was 30-fold increased as compared to MSCs. Inhibition of MSC CD49d significantly increased MSC pulmonary passage. Infusion via two boluses increased pulmonary MSC passage as compared to single bolus administration. Infrared imaging revealed stem cells evenly distributed over all lung fields. Larger stem and progenitor cells are initially trapped inside the lungs following intravenous administration with a therapeutically questionable number of cells reaching the arterial system acutely.

Published

2009

18. Optimal postnodal lymphatic network structure that maximizes active propulsion of lymph

Author

Randolph H. Stewart, Arun M. Venugopal, Glen A. Laine, and Christopher M. Quick

Subjects

Models, Anatomic, Time Factors, Physiology, Network structure, Propulsion, Models, Biological, Interstitial fluid, Physiology (medical), Pressure, Animals, Mesentery, Lymphatic Vessels, Physics, Viscosity, Reproducibility of Results, Articles, Anatomy, Elasticity, Fractals, Lymphatic system, Orders of magnitude (luminous flux), Cattle, Lymph, Lymph Nodes, Stress, Mechanical, Cardiology and Cardiovascular Medicine, Muscle Contraction

Abstract

The lymphatic system acts to return lower-pressured interstitial fluid to the higher-pressured veins by a complex network of vessels spanning more than three orders of magnitude in size. Lymphatic vessels consist of lymphangions, segments of vessels between two unidirectional valves, which contain smooth muscle that cyclically pumps lymph against a pressure gradient. Whereas the principles governing the optimal structure of arterial networks have been identified by variations of Murray's law, the principles governing the optimal structure of the lymphatic system have yet to be elucidated, although lymph flow can be identified as a critical parameter. The reason for this deficiency can be identified. Until recently, there has been no algebraic formula, such as Poiseuille's law, that relates lymphangion structure to its function. We therefore employed a recently developed mathematical model, based on the time-varying elastance model conventionally used to describe ventricular function, that was validated by data collected from postnodal bovine mesenteric lymphangions. From this lymphangion model, we developed a model to determine the structure of a lymphatic network that optimizes lymph flow. The model predicted that there is a lymphangion length that optimizes lymph flow and that symmetrical networks optimize lymph flow when the lymphangions downstream of a bifurcation are 1.26 times the length of the lymphangions immediately upstream. Measured lymphangion lengths (1.14 ± 0.5 cm, n = 74) were consistent with the range of predicted optimal lengths (0.1–2.1 cm). This modeling approach was possible, because it allowed a structural parameter, such as length, to be treated as a variable.

Published

2009

19. Effects of exercise training and hypercholesterolemia on adenosine activation of voltage-dependent K+ channels in coronary arterioles

Author

Cristine L. Heaps, Glen A. Laine, Douglas K. Bowles, Elmer M. Price, and Elise C. Jeffery

Subjects

medicine.medical_specialty, Adenosine, Patch-Clamp Techniques, Swine, Physiology, Hypercholesterolemia, Vasodilation, Stimulation, Muscle, Smooth, Vascular, Microcirculation, Cholesterol, Dietary, Arteriole, Physical Conditioning, Animal, Physiology (medical), Internal medicine, medicine.artery, Potassium Channel Blockers, Animals, Medicine, RNA, Messenger, Patch clamp, 4-Aminopyridine, Reverse Transcriptase Polymerase Chain Reaction, business.industry, Colforsin, Tetraethylammonium, Potassium channel blocker, Articles, Coronary Vessels, Arterioles, Endocrinology, Potassium Channels, Voltage-Gated, Circulatory system, Swine, Miniature, business, medicine.drug

Abstract

Coronary arterioles from hypercholesterolemic swine display attenuated adenosine-mediated vasodilatation that is attributable to the elimination of voltage-dependent K+ (Kv) channel stimulation. For the present study, we tested the hypotheses that exercise training would correct impaired adenosine-induced dilatation in coronary arterioles from hypercholesterolemic pigs through restoration of adenosine activation of Kv channels and that vasodilatation to the receptor-independent adenylyl cyclase activator, forskolin, would also be attenuated in arterioles from hypercholesterolemic pigs. Pigs were randomly assigned to a control (NC) or high-fat, high-cholesterol (HC) diet for 20 wk. Four weeks after the diet was initiated, pigs from both groups were assigned to exercise training (Ex; 5 days/wk for 16 wk) or sedentary (Sed) protocols, resulting in four groups of pigs: NC-Sed, NC-Ex, HC-Sed, and HC-Ex. Arterioles (∼150 μm) from both HC-Sed and HC-Ex pigs displayed impaired adenosine-mediated dilatation that was attributable to the elimination of 4-aminopyridine (4-AP; 1 mM)-sensitive Kv channel activation compared with NC counterparts. Arteriolar smooth muscle whole cell Kv currents were significantly reduced in HC-Sed compared with NC-Sed, although HC-Ex and NC-Ex did not differ. Forskolin-mediated dilatation was attenuated by 4-AP (1 mM) and in a concentration-dependent manner by tetraethylammonium (TEA; 0.1–1 mM) in NC-Sed but not HC-Sed. Further, TEA-sensitive Kv currents were diminished in cells of HC-Sed compared with NC-Sed pigs. Quantitative RT-PCR revealed similar expression levels of Kv3.1 and 3.3 in arterioles of NC-Sed and HC-Sed swine with undetectable expression of Kv1.1, 3.2, and 3.4. Taken together, these results suggest that hypercholesterolemia-mediated attenuation of adenosine-induced vasodilatation in coronary arterioles is not corrected by exercise training and is likely attributable to an impairment in the pathway coupling adenylyl cyclase with a highly TEA-sensitive Kv channel isoform(s).

Published

2008

20. Neuropilin-1 Is Essential for Enhanced VEGF165-Mediated Vasodilatation in Collateral-Dependent Coronary Arterioles of Exercise-Trained Pigs

Author

Cristine L. Heaps, Michael D. Delp, Judy M. Muller-Delp, Glen A. Laine, Jennifer A. Fogarty, and Janet L. Parker

Subjects

medicine.medical_specialty, Physiology, business.industry, fungi, Vasodilation, medicine.disease, Microcirculation, Coronary artery disease, Vascular endothelial growth factor, chemistry.chemical_compound, Coronary circulation, medicine.anatomical_structure, chemistry, Arteriole, medicine.artery, Internal medicine, Circulatory system, Neuropilin 1, medicine, Cardiology, Cardiology and Cardiovascular Medicine, business

Abstract

Background/Aims: Exercise training enhances vasodilatation to vascular endothelial growth factor (VEGF165) in collateral-dependent coronary arterioles. Interaction of VEGF receptor 2 (VEGFR-2) and the non-tyrosine-kinase receptor, neuropilin-1 has been reported to potentiate VEGF165-mediated signaling. In the current study, we tested the hypotheses that neuropilin-1 mediates the exercise-enhanced VEGF165-mediated vasodilatation in collateral-dependent arterioles and that neuropilin-1 and/or VEGFR-2 protein levels are increased in these arterioles. Methods: Ameroid occluders were surgically placed around the proximal left circumflex coronary artery of miniature swine. Eight weeks after surgery, the animals were randomized into sedentary or exercise training (treadmill run; 5 days/week; 14 weeks) protocols. Coronary arterioles (∼100 μm diameter) were isolated from both collateral-dependent and control (left anterior descending) myocardial regions and studied by in vitro videomicroscopy or frozen for immunoblot analysis. Results: Exercise-enhanced VEGF165-mediated vasodilatation in collateral-dependent arterioles was reversed by inhibition of the VEGF165-neuropilin-1 interaction. VEGF121, which does not interact with neuropilin-1, induced similar vasodilatation in arterioles from all treatment groups. Immunoblot revealed significantly elevated VEGFR-1, VEGFR-2 and neuropilin-1 protein levels in collateral-dependent arterioles of exercise-trained pigs. Conclusions: Neuropilin-1 plays a vital role in the exercise-enhanced VEGF165-mediated vasodilatation of collateral-dependent coronary arterioles and is associated with increased neuropilin-1 receptor protein levels.

Published

2008

21. Integrating research and education at research-extensive universities with research-intensive communities

Author

Ketaki V. Desai, Randolph H. Stewart, Glen A. Laine, Christopher M. Quick, Thomas W. Stiles, and Sarah N. Gatson

Subjects

Medical education, Universities, Higher education, Physiology, business.industry, Research, Teaching, Learning community, General Medicine, Research opportunities, Commission, Public relations, Faculty, Texas, Education, Graduate students, Undergraduate research, Political science, ComputingMilieux_COMPUTERSANDEDUCATION, Humans, Learning, Computer-mediated communication, Students, business

Abstract

Although the Boyer Commission (1998) lamented the lack of research opportunities for all undergraduates at research-extensive universities, it did not provide a feasible solution consistent with the mandate for faculty to maintain sustainable physiology research programs. The costs associated with one-on-one mentoring, and the lack of a sufficient number of faculty members to give intensive attention to undergraduate researchers, make one-on-one mentoring impractical. We therefore developed and implemented the “research-intensive community” model with the aim of aligning diverse goals of participants while simultaneously optimizing research productivity. The fundamental organizational unit is a team consisting of one graduate student and three undergraduates from different majors, supervised by a faculty member. Undergraduate workshops, Graduate Leadership Forums, and computer-mediated communication provide an infrastructure to optimize programmatic efficiency and sustain a multilevel, interdisciplinary community of scholars dedicated to research. While the model radically increases the number of undergraduates that can be supported by a single faculty member, the inherent resilience and scalability of the resulting complex adaptive system enables a research-intensive community program to evolve and grow.

Published

2008

22. First-order approximation for the pressure-flow relationship of spontaneously contracting lymphangions

Author

Randolph H. Stewart, Ranjeet M. Dongaonkar, Christopher M. Quick, Glen A. Laine, and Arun M. Venugopal

Subjects

medicine.medical_specialty, Physiology, Models, Biological, Physiology (medical), Pressure, medicine, Animals, Pressure gradient, Lymphatic Vessels, Viscosity, Reproducibility of Results, Muscle, Smooth, Anatomy, Elasticity, Surgery, Perfusion, Lymphatic system, Flow (mathematics), Orders of approximation, Lymph flow, Circulatory system, Cattle, Lymph, Rheology, Cardiology and Cardiovascular Medicine, Geology, Muscle Contraction

Abstract

To return lymph to the great veins of the neck, it must be actively pumped against a pressure gradient. Mean lymph flow in a portion of a lymphatic network has been characterized by an empirical relationship (Pin − Pout = −Pp + RLQL), where Pin − Pout is the axial pressure gradient and QL is mean lymph flow. RL and Pp are empirical parameters characterizing the effective lymphatic resistance and pump pressure, respectively. The relation of these global empirical parameters to the properties of lymphangions, the segments of a lymphatic vessel bounded by valves, has been problematic. Lymphangions have a structure like blood vessels but cyclically contract like cardiac ventricles; they are characterized by a contraction frequency ( f) and the slopes of the end-diastolic pressure-volume relationship [minimum value of resulting elastance ( Emin)] and end-systolic pressure-volume relationship [maximum value of resulting elastance ( Emax)]. Poiseuille's law provides a first-order approximation relating the pressure-flow relationship to the fundamental properties of a blood vessel. No analogous formula exists for a pumping lymphangion. We therefore derived an algebraic formula predicting lymphangion flow from fundamental physical principles and known lymphangion properties. Quantitative analysis revealed that lymph inertia and resistance to lymph flow are negligible and that lymphangions act like a series of interconnected ventricles. For a single lymphangion, Pp = Pin ( Emax − Emin)/ Emin and RL = Emax/ f. The formula was tested against a validated, realistic mathematical model of a lymphangion and found to be accurate. Predicted flows were within the range of flows measured in vitro. The present work therefore provides a general solution that makes it possible to relate fundamental lymphangion properties to lymphatic system function.

Published

2008

23. HYPERTONIC SALINE MODULATION OF INTESTINAL TISSUE STRESS AND FLUID BALANCE

Author

Randolph H. Stewart, Karen S. Uray, Ravi S. Radhakrishnan, Hasen Xue, Glen A. Laine, Charles S. Cox, Brijesh S. Gill, and Lindsey Villarrubia

Subjects

Male, medicine.medical_specialty, Resuscitation, Ileus, medicine.medical_treatment, Sodium, Myocytes, Smooth Muscle, chemistry.chemical_element, Sodium Chloride, Critical Care and Intensive Care Medicine, Models, Biological, Rats, Sprague-Dawley, Laparotomy, Edema, medicine, Animals, Intestinal Mucosa, Saline, business.industry, Muscle, Smooth, Models, Theoretical, Water-Electrolyte Balance, medicine.disease, Rats, Surgery, Hypertonic saline, Lymphatic system, chemistry, Anesthesia, Hypertension, Emergency Medicine, Salts, medicine.symptom, business

Abstract

Crystalloid-based resuscitation of severely injured trauma patients leads to intestinal edema. A potential mechanism of intestinal edema-induced ileus is a reduction of myosin light chain phosphorylation in intestinal smooth muscle. We sought to determine if the onset of edema initiated a measurable, early mechanotransductive signal and if hypertonic saline (HS) can modulate this early signal by changing intestinal fluid balance. An anesthetized rat model of acute interstitial intestinal edema was used. At laparotomy, the mesenteric lymphatic was cannulated to measure lymph flow and pressure, and a fluid-filled micropipette was placed in the intestinal submucosa to measure interstitial pressure. Rats were randomized into four groups (n=6 per group): sham, mesenteric venous hypertension+80 mL/kg 0.9% isotonic sodium chloride solution (ISCS 80), mesenteric venous hypertension+80 mL/kg 0.9% ISCS+4 mL/kg 7.5% saline (ISCS 80+HS), or 4 mL/kg 7.5% saline (HS alone) to receive the aforementioned intravenous fluid administered over 5 min. Measurements were made 30 min after completion of the preparation. Tissue water, lymph flow, and interstitial pressure were measured. Resultant applied volume induced stress on the smooth muscle (sigmaravi-muscularis) was calculated. Mesenteric venous hypertension and crystalloid resuscitation caused intestinal edema that was prevented by HS. Intestinal edema caused an early increase in intestinal interstitial pressure that was prevented by HS. Hypertonic saline did not augment lymphatic removal of intestinal edema. sigmaravi-muscularis was increased with onset of edema and prevented by HS, paralleling the interstitial pressure data. Intestinal edema causes an early increase in interstitial pressure that is prevented by HS. Prevention of the edema-induced increase in interstitial pressure serves to blunt the mechanotransductive signal of sigmaravi-muscularis.

Published

2008

24. Application of local heat induces capillary recruitment in the Pallid bat wing

Author

Missy F Young, Glen A. Laine, Christopher M. Quick, Robert J Widmer, Randolph H. Stewart, and Jennifer E. Laurinec

Subjects

Hot Temperature, Physiology, Hemodynamics, Microcirculation, Nitric oxide, chemistry.chemical_compound, Precapillary sphincter, Arteriole, Chiroptera, Physiology (medical), medicine.artery, medicine, Animals, Wings, Animal, biology, Pallid bat, Chemistry, Blood flow, Anatomy, biology.organism_classification, Capillaries, Vasodilation, Biophysics, Dilation (morphology), Blood Flow Velocity, Body Temperature Regulation

Abstract

Skin blood flow increases in response to local heat due to sensorineural and nitric oxide (NO)-mediated dilation. It has been previously demonstrated that arteriolar dilation is inhibited with NO synthase (NOS) blockade. Flow, nonetheless, increases with local heat. This implies that the previously unexamined nonarteriolar responses play a significant role in modulating flow. We thus hypothesized that local heating induces capillary recruitment. We heated a portion (3 cm2) of the Pallid bat wing from 25°C to 37°C for 20 min, and measured changes in terminal feed arteriole (∼25 μm) diameter and blood velocity to calculate blood flow ( n = 8). Arteriolar dilation was reduced with NOS and sensorineural blockade using a 1% (wt/vol) NG-nitro-l-arginine methyl ester (l-NAME) and 2% (wt/vol) lidocaine solution ( n = 8). We also measured changes in the number of perfused capillaries, and the time precapillary sphincters were open with ( n = 8) and without ( n = 8) NOS plus sensorineural blockade. With heat, the total number of perfused capillaries increased 92.7 ± 17.9% ( P = 0.011), and a similar increase occurred despite NOS plus sensorineural blockade 114.4 ± 30.0% ( P = 0.014). Blockade eliminated arteriolar dilation (−4.5 ± 2.1%). With heat, the percent time precapillary sphincters remained open increased 32.3 ± 6.0% ( P = 0.0006), and this increase occurred despite NOS plus sensorineural blockade (34.1 ± 5.8%, P = 0.0004). With heat, arteriolar blood flow increased (187.2 ± 28.5%, P = 0.00003), which was significantly attenuated with NOS plus sensorineural blockade (88.6 ± 37.2%, P = 0.04). Thus, capillary recruitment is a fundamental microvascular response to local heat, independent of arteriolar dilation and the well-documented sensorineural and NOS mechanisms mediating the response to local heat.

Published

2007

25. Characteristics of the Active Lymph Pump in Bovine Prenodal Mesenteric Lymphatics

Author

Anatoliy A. Gashev, Randolph H. Stewart, David C. Zawieja, Wei Wang, and Glen A. Laine

Subjects

Chronotropic, Lymphatic pump, business.industry, Anatomy, Lymphatic System, Contractility, Contraction amplitude, Lymphatic system, Transmural pressure, medicine.anatomical_structure, Pressure, Animals, Medicine, Cattle, Mesentery, Lymph, Lymph Nodes, Cardiology and Cardiovascular Medicine, business, Lymphatic Vessels

Abstract

The functional characteristics of the bovine mesenteric postnodal lymphatics are well-described. However there are no reports of pumping characteristics of the bovine mesenteric prenodal lymphatics. We propose that the prenodal lymphatics have adapted to the local conditions of lymph flow and are functioning differently than the postnodal vessels.To evaluate pumping in bovine prenodal mesenteric lymphatics, we observed their contractility in response to the changes in transmural pressure and imposed flow. Lymphatics (diameter approximately 460 microm) were isolated, cannulated, and pressurized. Lymphatic diameters were traced from video records; the lymphatic tone index, contraction amplitude and frequency, lymphatic pump indices were calculated. Increasing transmural pressure from 3 to 6 cm H2O produced a strong inotropic response, but did not induce a significant chronotropic response. Pumping reached its maximum at transmural pressures 6-9 cm H2O and was not significantly depressed up to 15 cm H2O, whereas pumping in postnodal lymphatics is typically depressed at transmural pressures higher than 10 cm H2O. Bovine prenodal mesenteric lymphatics also demonstrated very low sensitivity to the increases in imposed flow.We concluded that the functional heterogeneity exists on the intraregional levels in lymphatic nets.

Published

2007

26. Induction of cardioplegic arrest immediately activates the myocardial apoptosis signal pathway

Author

Wilhelm Bloch, Steven J. Allen, Uwe M. Fischer, Glen A. Laine, Uwe Mehlhorn, and Charles S. Cox

Subjects

Male, Physiology, Myocardial apoptosis, Ischemia, chemistry.chemical_element, Apoptosis, Myocardial Reperfusion Injury, Calcium, Pharmacology, Signal pathway, Rats, Sprague-Dawley, Physiology (medical), medicine, Animals, Cardioplegic Solutions, business.industry, Myocardium, Heart, medicine.disease, Apoptosis induction, Heart Arrest, Rats, Disease Models, Animal, chemistry, Anesthesia, Time course, Circulatory system, Heart Arrest, Induced, Cardiology and Cardiovascular Medicine, business, Signal Transduction

Abstract

Myocardial ischemia-reperfusion, including cardioplegic arrest (CA), has been associated with cardiac apoptosis induction. However, the time course of apoptosis activation and the trigger mechanisms are still unclear. Because apoptosis inhibition may represent a novel therapeutic strategy for long-term myocardial preservation, we sought to investigate the time course of apoptosis signal-pathway induction during CA. As to method, Sprague-Dawley rats (300–350 g) were anesthetized, intubated, and mechanically ventilated. CA was initiated by infusion of ice-cold crystalloid solution (Custodiol, 10 ml/kg) into the aortic root, and hearts were rapidly excised and stored for 0, 30, 60, and 120 min in 0.9% sodium chloride solution (28°C). In controls, no CA was initiated before removal and storage at 28°C. In another group, calcium-rich cardioplegia was used, and an additional group received a caspase-8 inhibitor before CA induction. Left ventricular cytosolic extracts were isolated and investigated for the activity of caspase-3 and -6 (effector caspases) and caspase-8 and -9 (involved in extrinsic and intrinsic pathways of apoptosis induction). Fluorometric activity assays were performed by using specific substrates. As a result, activities of all tested caspases were significantly increased immediately after CA induction compared with controls. Administration of the caspase-8 inhibitor significantly reduced activities of all caspases. With calcium-rich cardioplegia, caspase activities were significantly lower compared with low-calcium CA. Control hearts also showed an increase of caspase activities during cold-storage ischemia without CA but had significantly different time courses compared with hearts with CA. In conclusion, our data show rapid apoptosis signal-pathway induction immediately following CA exposure. Thus apoptosis signal-pathway inhibition as a potential strategy for improved myocardial preservation would have the greatest effect when applied before CA exposure.

Published

2007

27. Intestinal edema decreases intestinal contractile activity via decreased myosin light chain phosphorylation

Author

Glen A. Laine, Karen S. Uray, Steven J. Allen, Hasan Xue, and Charles S. Cox

Subjects

Male, medicine.medical_specialty, Resuscitation, Myosin Light Chains, Myosin light-chain kinase, Critical Care and Intensive Care Medicine, Intestinal edema, Rats, Sprague-Dawley, Random Allocation, Ileus, Edema, Internal medicine, Intensive care, Intestine, Small, medicine, Animals, Phosphorylation, Analysis of Variance, business.industry, Muscle, Smooth, Anatomy, Rats, Interstitial edema, Endocrinology, Cytokines, medicine.symptom, business, Muscle Contraction, Muscle contraction

Abstract

The purpose of this study was to investigate the effects of interstitial edema on intestinal contractile activity.Randomized animal study.University laboratory.Male Sprague-Dawley rats.Intestinal edema was induced in rats by a combination of fluid infusion and mesenteric venous hypertension. Rats were divided into four groups: CONTROL, sham; RESUS, saline infusion only; RESUS+VH, saline infusion and venous hypertension; and VH, venous hypertension only. Edema development, basal contractile activity, maximum agonist-induced contractile response (measured as total force generation during the first 2 mins after carbachol treatment), and myosin light chain phosphorylation were measured in the distal small intestine.The amount of interstitial fluid, indicated by the wet-to-dry ratio, increased significantly in both the RESUS and RESUS+VH groups as early as 30 mins after surgery compared with the CONTROL group. Whereas the tissue fluid remained significantly elevated in the RESUS+VH group up to 6 hrs after surgery, the RESUS group wet-to-dry ratios returned to CONTROL group levels by 2 hrs after surgery. Basal contractile activity was significantly less in the RESUS+VH group compared with either the RESUS group or the CONTROL group 6 hrs after surgery. Maximum contractile response decreased significantly in the RESUS+VH group compared with the RESUS group. Basal contractile activity and maximum contractile response did not change significantly in the VH group compared with the CONTROL group. The phosphorylated fraction of myosin light chain was significantly lower in the RESUS+VH group compared with the CONTROL group at 0.5, 2, and 6 hrs after surgery.We conclude that edema decreases myosin light chain phosphorylation, leading to decreased intestinal contractile activity.

Published

2006

28. Local heat produces a shear-mediated biphasic response in the thermoregulatory microcirculation of the Pallid bat wing

Author

Glen A. Laine, Robert J Widmer, Christopher M. Quick, Missy F Young, and Jennifer E. Laurinec

Subjects

Male, Hot Temperature, Physiology, Sensory system, Nitric Oxide, Microcirculation, Nitric oxide, chemistry.chemical_compound, Chiroptera, Physiology (medical), Shear stress, Animals, Wings, Animal, Wing, biology, Pallid bat, Skin blood flow, Anatomy, biology.organism_classification, chemistry, Shear (geology), Female, Endothelium, Vascular, Nitric Oxide Synthase, Body Temperature Regulation

Abstract

Investigators report that local heat causes an increase in skin blood flow consisting of two phases. The first is solely sensory neural, and the second is nitric oxide mediated. We hypothesize that mechanisms behind these two phases are causally linked by shear stress. Because microvascular blood flow, endothelial shear stress, and vessel diameters cannot be measured in humans, bat wing arterioles (26.6 ± 0.3, 42.0 ± 0.4, and 58.7 ± 2.2 μm) were visualized noninvasively on a transparent heat plate via intravital microscopy. Increasing plate temperature from 25 to 37°C increased flow in all three arterial sizes (137.1 ± 0.3, 251.9 ± 0.5, and 184.3 ± 0.6%) in a biphasic manner. With heat, diameter increased in large arterioles ( n = 6) by 8.7 ± 0.03% within 6 min, medium arterioles ( n = 8) by 19.7 ± 0.5% within 4 min, and small arterioles ( n = 8) by 31.6 ± 2.2% in the first minute. Lidocaine (0.2 ml, 2% wt/vol) and NG-nitro-l-arginine methyl ester (0.2 ml, 1% wt/vol) were applied topically to arterioles (∼40 μm) to block sensory nerves, modulate shear stress, and block nitric oxide generation. Local heat caused only a 10.4 ± 5.5% increase in diameter with neural blockade ( n = 8) and only a 7.5 ± 4.1% increase in diameter when flow was reduced ( n = 8), both significantly lower than control ( P < 0.001). Diameter and flow increases were significantly reduced with NG-nitro-l-arginine methyl ester application ( P < 0.05). Our novel thermoregulatory animal model illustrates 1) regulation of shear stress, 2) a nonneural component of the first phase, and 3) a shear-mediated second phase. The time course of dilation suggests that early dilation of small arterioles increases flow and enhances second-phase dilation of the large arterioles.

Published

2006

29. Impact of Acute Myocardial Edema on Left Ventricular Function

Author

Steven J. Allen, Charles S. Cox, Uwe M. Fischer, Randolph H. Stewart, and Glen A. Laine

Subjects

Male, medicine.medical_specialty, Systole, Diastole, Hemodynamics, Ventricular Function, Left, law.invention, Dogs, Body Water, law, Internal medicine, medicine.artery, Edema, medicine, Cardiopulmonary bypass, Animals, Coronary sinus, Edema, Cardiac, Aorta, business.industry, Extracellular Fluid, Myocardial Contraction, Preload, Anesthesia, Acute Disease, Cardiology, Female, Surgery, medicine.symptom, business

Abstract

Studies of the impact of myocardial edema on left ventricular (LV) systolic function show conflicting results. We sought to evaluate the impact of increased myocardial water content (MWC) on LV systolic and diastolic function. Anesthetized dogs (n = 12) were instrumented with myocardial ultrasonic crystals and an LV micromanometer. Systolic function was measured by preload recruitable stroke work (PRSW) and dP/dt(max). Diastolic function was measured by -dP/dt(max) and the isovolumic relaxation constant tau (t). Myocardial water content (MWC) was determined using microgravimetry. In six dogs (coronary sinus hypertension, CSH group) we produced myocardial edema by inflating a coronary sinus balloon for 2 h (30-40 mm Hg). In six other dogs (Plegisol, PLEG group) cardiopulmonary bypass (CPB) was initiated (12.3 +/- 0.8 min), the aorta was cross-clamped (117 +/- 19 s), and 700 mL 4 degrees C crystalloid, hyperkalemic cardioplegic solution (Plegisol) was administered into the aortic root (62 +/- 4 mm Hg). After declamping and reperfusion (7.2 +/- 1.0 min), the dogs were separated from CPB. Myocardial function parameters and MWC were measured for 2 h after edema generation. In the CSH group, MWC significantly increased from 75.9 +/- 0.3% to 77.6 +/- 0.3% (p < .05). In the PLEG group, MWC increased from 75.8 +/- 0.3% to 77.7 +/- 0.3% (p < .05). PRSW and dP/dt(max) did not decrease in either group. Diastolic parameters did not change significantly. We conclude that acute myocardial edema without myocardial injury does not impair LV function.

Published

2006

30. Inhibition of Intestinal Transit by Resuscitation-Induced Gut Edema is Reversed by L-NIL1,2

Author

Randolph H. Stewart, Frederick A. Moore, Steven J. Allen, Stacey D. Moore-Olufemi, Hasen Xue, Charles S. Cox, and Glen A. Laine

Subjects

medicine.medical_specialty, Pathology, Resuscitation, biology, business.industry, medicine.medical_treatment, digestive, oral, and skin physiology, Ischemia, Ileum, medicine.disease, Nitric oxide synthase, medicine.anatomical_structure, Endocrinology, Internal medicine, Edema, Shock (circulatory), medicine, biology.protein, Surgery, medicine.symptom, business, Saline, Reperfusion injury

Abstract

Background Post-resuscitation gut edema and associated gut dysfunction is a common and significant clinical problem that occurs after traumatic injury and shock. We have shown previously that gut edema without ischemia/reperfusion injury delays intestinal transit [1]. We hypothesized that gut edema increases expression of inducible nitric oxide synthase (iNOS) protein, and that selective iNOS inhibition using l -NIL reverses the delayed intestinal transit associated with gut edema. Materials and methods One hour prior to laparotomy, rats were pretreated with 10 mg/kg body weight of intraperitoneal l -NIL or saline vehicle and underwent 80 ml/kg body weight of 0.9% saline + superior mesenteric venous pressure elevation (Edema) or sham surgery (Sham). A duodenal catheter was placed to allow injection of a fluorescent dye for the measurement of intestinal transit. At 6 h, the small bowel was divided and the mean geometric center (MGC) of fluorescent dye was measured to determine transit. Ileum was harvested for histological assessment of mucosal injury, evaluation of iNOS protein expression by Western blotting, and MPO activity. Tissue water was determined using the wet-to-dry weight ratio to assess gut edema. Data are expressed as mean ± SEM, n = 3–6 and * = P Results Gut edema, expressed as increased wet-to-dry ratio, was associated with decreased intestinal transit and elevated iNOS protein expression. Pretreatment with l -NIL improved intestinal transit and decreased expression of iNOS protein without decreasing intestinal tissue water compared to edema animals. There was no difference in mucosal injury or MPO activity among groups. Conclusion Gut edema delays intestinal transit via an iNOS-mediated mechanism.

Published

2005

31. Resuscitation-Induced Gut Edema and Intestinal Dysfunction

Author

Norman W. Weisbrodt, Hasan Xue, Randolph H. Stewart, Uwe M. Fischer, Yael Harari, Frederick A. Moore, Glen A. Laine, Steven J. Allen, Stacey D. Moore-Olufemi, Dwight H Oliver, Charles S. Cox, and Bashir O. Attuwaybi

Subjects

Male, medicine.medical_specialty, Resuscitation, Ischemia, Shock, Hemorrhagic, Sodium Chloride, Critical Care and Intensive Care Medicine, digestive system, Gastroenterology, Rats, Sprague-Dawley, Random Allocation, Vena mesenterica superior, Internal medicine, Edema, Animals, Medicine, Superior mesenteric vein, Venous hypertension, Gastrointestinal Transit, Barrier function, Peroxidase, Ileal Diseases, business.industry, digestive, oral, and skin physiology, medicine.disease, Rats, Disease Models, Animal, medicine.anatomical_structure, Reperfusion Injury, Anesthesia, Abdomen, Surgery, medicine.symptom, business

Abstract

Mesenteric venous hypertension and subsequent gut edema play a pivotal role in the development of intra-abdominal hypertension. Although gut edema is one cause of intra-abdominal hypertension, its impact on gut function is unknown. The purpose of this study was to create a model of acute hydrostatic gut edema and to evaluate its effect on gut motility and barrier function.The first study, group A, evaluated the effect of gut edema on transit over time using 20 mL/kg 0.9% saline. The second study, group B, focused on the 12-hour time period using 80 mL/kg 0.9% saline. Rats were randomized to superior mesenteric vein partial occlusion (venous hypertension) or sham surgery. At 6, 12, and 24 hours, group A underwent intestinal transit and tissue water weight measurements. At 12 hours, group B underwent tissue water, transit, ileal permeability and resistance, lactate and myeloperoxidase activity, and mucosal injury measurements.Venous hypertension with fluid resuscitation caused acute hydrostatic gut edema, delayed intestinal transit, increased mucosal permeability to macromolecules, and decreased tissue resistance over time. Mucosal injury was minimal in mesenteric venous hypertension.Acute mesenteric venous hypertension and resuscitation-induced gut edema, in the absence of ischemia/reperfusion injury, is associated with delayed intestinal transit and altered gut barrier function.

Published

2005

32. Effect of Venous Air Embolization on Pulmonary Microvascular Protein Permeability

Author

D. A. Rohn, Charles S. Cox, Glen A. Laine, Steven J. Allen, Randolph H. Stewart, and Christopher M. Quick

Subjects

Pulmonary Circulation, medicine.medical_specialty, Physiology, medicine.medical_treatment, Vascular permeability, Catheterization, Veins, Capillary Permeability, Plasma, Dogs, Physiology (medical), medicine, Animals, Embolism, Air, Embolization, Pulmonary wedge pressure, Molecular Biology, business.industry, Proteins, Permeability (electromagnetism), Pulmonary air embolism, Lymph flow, Lymph, Radiology, Cardiology and Cardiovascular Medicine, business

Abstract

An increase in pulmonary lymph flow and lymph protein clearance following pulmonary air embolization has been interpreted as evidence of increased pulmonary microvascular permeability. The authors hypothesized that air embolization does not alter the pulmonary microvascular permeability to protein and that this could be demonstrated by determining the effect of air embolization on the pulmonary solvent drag reflection coefficient (sigma(f)).Anesthetized dogs were instrumented with left atrial balloon-tipped catheters, pulmonary lymphatic cannulae, and inferior vena caval catheters. Values were determined for pulmonary lymph flow (Q(L)) and the lymph-to-plasma protein concentration ratio (C(L)/C(P)) at baseline, after C(L)/C(P) was decreased to a filtration independent value by raising left atrial pressure via progressive balloon inflation and after 2 h of air embolization into the inferior vena cava with continued left atrial hypertension.Q(L) increased and C(L)/C(P) decreased to a filtration-independent value following induction of left atrial hypertension. Air embolization induced during left atrial hypertension resulted in no significant change in C(L)/C(P). The authors were unable to demonstrate that sigma(f) changed following pulmonary air embolization.Utilizing the washdown technique, the authors could not find any evidence that pulmonary microvascular protein permeability is altered by air embolization.

Published

2004

33. The antioxidant N-acetylcysteine preserves myocardial function and diminishes oxidative stress after cardioplegic arrest

Author

Uwe M. Fischer, Uwe Mehlhorn, Charles S. Cox, Randolph H. Stewart, Steven J. Allen, and Glen A. Laine

Subjects

Male, Pulmonary and Respiratory Medicine, medicine.medical_specialty, Antioxidant, medicine.medical_treatment, Myocardial Reperfusion Injury, medicine.disease_cause, Risk Assessment, Sensitivity and Specificity, Antioxidants, Ventricular Function, Left, law.invention, Acetylcysteine, Random Allocation, Dogs, Reference Values, law, Internal medicine, medicine, Cardiopulmonary bypass, Animals, Coronary sinus, Probability, Cardiopulmonary Bypass, biology, business.industry, Fissipedia, biology.organism_classification, Myocardial Contraction, Disease Models, Animal, Oxidative Stress, Preload, Anesthesia, Heart Function Tests, Heart Arrest, Induced, Cardiology, Female, Surgery, Cardiology and Cardiovascular Medicine, Complication, business, Oxidative stress, medicine.drug

Abstract

ObjectiveOxidative stress contributes to myocardial ischemia-reperfusion injury. We hypothesized that administration of the antioxidant N-acetylcysteine would have beneficial effects on myocardial function after cardiopulmonary bypass and cardioplegic arrest.MethodsAnesthetized dogs (n = 18) were instrumented with myocardial ultrasonic crystals and a left ventricular micromanometer. Systolic function was measured by preload recruitable stroke work. Myocardial tissue water was determined by microgravimetry. Treated animals received 100 mg · kg−1 N-acetylcysteine 10 minutes before initiation of cardiopulmonary bypass followed by 20 mg · kg−1 · h−1 continuous infusion until 1 hour after cardiopulmonary bypass. After baseline, cardiopulmonary bypass and 2-hour crystalloid cardioplegic arrest was initiated, then reperfusion/rewarming for 40 minutes and separation from cardiopulmonary bypass. Myocardial function parameters and myocardial tissue water were measured at 30, 60, and 120 minutes after cardiopulmonary bypass. Oxidative stress was measured by 8-isoprostane concentrations in the coronary sinus plasma.ResultsPreload recruitable stroke work did not decrease from baseline in the N-acetylcysteine group and was significantly greater in N-acetylcysteine group compared with controls at 30 (104% ± 9% vs 80% ± 4%; P < .05) and 120 minutes (98% ± 7% vs 79% ± 4%; P < .05) after cardiopulmonary bypass. Concentrations of 8-isoprostane in the coronary sinus plasma of the control dogs were significantly higher 30 minutes after cardiopulmonary bypass compared with baseline but were unchanged in the N-acetylcysteine group. Myocardial edema resolution was significantly greater in the N-acetylcysteine group at 30 minutes after cardiopulmonary bypass compared with control (−2.5% ± 0.7% vs −0.3% ± 0.5% myocardial tissue water; P < .05).ConclusionsAdministration of the antioxidant N-acetylcysteine preserves systolic function and enhances myocardial edema resolution after cardiopulmonary bypass/cardioplegic arrest. Furthermore, oxidative stress was significantly reduced in the treated animals. Therefore, our findings support the hypothesis that oxidative stress is the main cause for myocardial dysfunction after ischemia-reperfusion.

Published

2003

34. Myocardial fluid balance

Author

Uwe Mehlhorn, Steven J. Allen, Glen A. Laine, and Hans J. Geissler

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, Heart disease, medicine.medical_treatment, Myocardial Infarction, law.invention, Microcirculation, Lymphatic System, law, Interstitial fluid, Edema, Internal medicine, Cardiopulmonary bypass, medicine, Humans, Intensive care medicine, Pathological, Heart transplantation, Cardiopulmonary Bypass, business.industry, Myocardium, General Medicine, Water-Electrolyte Balance, medicine.disease, Cardiac surgery, Hypertension, Heart Arrest, Induced, Cardiology, Heart Transplantation, Surgery, medicine.symptom, Cardiology and Cardiovascular Medicine, business

Abstract

Fluid accumulation in the cardiac interstitium or myocardial edema is a common manifestation of many clinical states. Specifically, cardiac surgery includes various interventions and pathophysiological conditions that cause or worsen myocardial edema including cardiopulmonary bypass and cardioplegic arrest. Myocardial edema should be a concern for clinicians as it has been demonstrated to produce cardiac dysfunction. This article will briefly discuss the factors governing myocardial fluid balance and review the evidence of myocardial edema in various pathological conditions. In particular, myocardial microvascular, interstitial, and lymphatic interactions relevant to the field of cardiac surgery will be emphasized.

Published

2001

35. Esmolol and cardiopulmonary bypass during reperfusion reduce myocardial infarct size in dogs

Author

Glen A. Laine, L. Maximilian Buja, Uwe Mehlhorn, Steven J. Allen, Hans J. Geissler, Karen L. Davis, and Michael L. Brennan

Subjects

Male, Pulmonary and Respiratory Medicine, medicine.medical_specialty, Biopsy, medicine.medical_treatment, Adrenergic beta-Antagonists, Myocardial Infarction, Ischemia, Myocardial Reperfusion Injury, law.invention, Propanolamines, chemistry.chemical_compound, Dogs, law, Internal medicine, medicine, Cardiopulmonary bypass, Carnivora, Animals, Myocardial infarction, Chemotherapy, Cardiopulmonary Bypass, biology, Tetrazolium chloride, business.industry, Myocardium, Fissipedia, medicine.disease, biology.organism_classification, Esmolol, Microscopy, Electron, chemistry, Anesthesia, Cardiology, Female, Surgery, Cardiology and Cardiovascular Medicine, business, medicine.drug

Abstract

Infarct size can be reduced by beta-blockade in acute myocardial ischemia. However it is unknown whether myocardial salvage is still effective when beta-blockade is limited to reperfusion.After initiation of cardiopulmonary bypass, 20 dogs were submitted to 2 hours of regional left ventricular ischemia, followed by 2 hours of reperfusion. In 11 dogs beta-blockade was started with the onset of reperfusion (esmolol group). The remaining dogs received no treatment (control, n = 9). Infarct size was determined by tetrazolium chloride staining. Myocardial water content (MWC) and ultrastructural damage (electronmicroscopy) were determined from transmural biopsies.Infarct size was significantly smaller in the esmolol group compared with control (49% versus 68%, p0.05). After 2 hours ischemia there was no difference in MWC between groups, whereas after 2 hours reperfusion MWC of ischemic myocardium was significantly lower in the esmolol group than in the control (p0.05). Ultrastructural changes were typical for ischemia-reperfusion injury in both groups.Beta-blockade may be cardioprotective during reperfusion through various mechanisms and may enhance myocardial salvage, even when treatment is initiated as late as with the onset of reperfusion.

Published

2001

36. Flow in Lymphatic Networks: Interaction between Hepatic and Intestinal Lymph Vessels

Author

Glen A. Laine and Randolph H. Stewart

Subjects

medicine.medical_specialty, Physiology, business.industry, Portal venous pressure, Urology, Portal vein, Cisterna chyli, Anatomy, Lymphatic system, medicine.anatomical_structure, Physiology (medical), Lymph flow, Ascites, Medicine, In patient, Lymph, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Molecular Biology

Abstract

Objective:Lymph from both the liver and intestine flows into the cisterna chyli. We hypothesized that increasing liver lymph flow would increase cisterna chyli pressure and, thereby, decrease intestinal lymph flow, potentiating intestinal edema formation. Methods:Anesthetized dogs were instrumented to measure and manipulate portal vein pressure and cisterna chyli pressure. The effects of directly increasing portal pressure with and without directly increasing cisterna chyli pressure on intestinal wet-to-dry ratio and intestinal ascites formation rate were determined. Target values for portal and cisterna chyli pressures were determined following elevation of inferior vena caval pressure to levels seen in patients with obstructive caval disease. Results:Direct elevation of portal pressure (Pport) alone to 17.5 mm Hg caused a significant increase in intestinal wet-to-dry ratio (3.98 ± 0.24 vs. 3.40 ± 0.43) and the rate of ascites formation (0.36 ± 0.12 vs. 0.05 ± 0.03 mL/g dry wt/h). Simultaneous direct ele...

Published

2001

37. Effects of Myocardial Edema on the Development of Myocardial Interstitial Fibrosis

Author

Glen A. Laine, Hans J. Geissler, Uwe Mehlhorn, Steven J. Allen, Michael L. Brennan, and Kenneth L. Davis

Subjects

medicine.medical_specialty, Physiology, business.industry, Cardiac fibrosis, Hyperplasia, medicine.disease, Muscle hypertrophy, Interstitial matrix, Right ventricular hypertrophy, Physiology (medical), medicine.artery, Edema, Internal medicine, Pulmonary artery, cardiovascular system, medicine, Collagenase, Cardiology, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Molecular Biology, medicine.drug

Abstract

Objective:The mechanism by which chronic myocardial edema causes cardiac dysfunction is poorly understood. We hypothesized that myocardial edema triggers cardiac fibrosis development resulting in cardiac dysfunction. Since collagen is the most abundant constituent of the interstitial matrix, we examined the effects of edema development on cardiac collagen metabolism. Methods:We utilized a chronic pulmonary artery banded rat model that produces right ventricular hypertrophy with myocardial edema and left ventricular edema without hypertrophy or hyperplasia. Wet to dry ratios (index of edema), collagen type I and III concentrations, prolyl 4-hydroxylase (P4-H) and collagen type I and III mRNA levels, collagenase activity and transforming growth factor-β were measured in both ventricles. Results:Right and left ventricular wet to dry ratios were significantly elevated from 1 to 28 days after pulmonary artery banding compared to sham rats. Right and left ventricular collagen types I and III and P4-H mRNA level...

Published

2000

38. Contamination of lymph from the major prenodal cardiac lymphatic in dogs

Author

Uwe Mehlhorn, Steven J. Allen, Karen L. Davis, Michael L. Brennan, Glen A. Laine, and Hans J. Geissler

Subjects

Male, Pathology, medicine.medical_specialty, Physiology, medicine.medical_treatment, Catheterization, Lymphatic System, Dogs, Physiology (medical), medicine, Animals, Thoracotomy, Respiratory system, Lung, business.industry, Mediastinum, Heart, Dissection, medicine.anatomical_structure, Lymphatic system, Circulatory system, cardiovascular system, Female, Lymph, Cardiology and Cardiovascular Medicine, business

Abstract

Cannulation of the canine major prenodal cardiac lymphatic (MPCL) is the most common approach for the investigation of myocardial lymphatic function. However, the assumption that the MPCL drains pure cardiac lymph has been questioned. We studied variations of MPCL anatomy and investigated whether noncardiac lymph is drained by this lymphatic. After dye was injected into the lungs and left ventricular myocardium in 21 dogs, dissection of the cardiac lymphatic system yielded 3 anatomic variations. In variations 1 and 2 (81% of dogs), a mixture of cardiac and pulmonary lymph was drained via the MPCL. In variation 3 (19% of dogs) no connection was found between MPCL and pulmonary lymphatics. In variations 1 and 2, alteration of tidal volume resulted in significant changes of lymph flow rate. The pulmonary contribution to MPCL lymph flow was estimated as 34% in variation 2. We conclude that MPCL lymph may contain not only cardiac lymph but also significant pulmonary contamination. This finding should be considered in the interpretation of lymph data from cannulation of the canine MPCL.

Published

1999

39. Variation in Tau, the time constant for isovolumic relaxation, along the left ventricular base-to-apex axis

Author

Hans J. Geissler, U Mehlhorn, K. L. Davis, Glen A. Laine, S.J. Allen, E.R. Schertel, and D. Trevas

Subjects

Male, Physics, Cardiac Catheterization, Time Factors, Ventricular function, Physiology, Mathematical analysis, Time constant, Heart, Myocardial Contraction, Apex (geometry), Dogs, Physiology (medical), Linear regression, Ventricular Pressure, Animals, Ventricular Function, Relaxation (physics), Female, Diastolic function, Asymptote, Cardiology and Cardiovascular Medicine, Base (exponentiation)

Abstract

Tau (tau), the time constant for isovolumic relaxation, is often used as a measure of cardiac diastolic function. However, several methods of calculating tau have been published which may produce different results and, thereby, different conclusions. The purpose of this study was to determine if the method of tau calculation effects the results when left ventricular pressure (LVP) is measured at different positions along the base-to-apex axis. In 16 dogs, we measured LVP at 6 positions along the base-to-apex axis. We calculated tau using three different methods: 1) a monoexponential model (P(t) = [P0-Pasym]eAt + Pasym, where t = time, P0 = LVP at t = 0, Pasym is asymptotic pressure as t--infinity, A is -1/tau) with a zero asymptote 2) a monoexponential model with a variable asymptote in which the monoexponential decay equation is differentiated with respect to time and substituted into the original equation so that dP/dt vs. LVP is A (-1/tau), and 3) a monoexponential decay model with variable asymptote in which Pasym and A are varied until the best fit line is reached by minimizing the residual sum of squares. When tau is calculated using method 1, tau measured at the LV base is 98.01% +/- 8.85% of tau at the apex. If calculated using method 2, tau measured at the LV base was 75.46 +/- 39.4% of tau measured at the apex. When method 3 is used for tau calculations, base tau increases to 117.76 +/- 4.91% of the apical tau. We conclude: 1) the method used to calculate tau will effect the results and, thus, conclusions drawn from tau data. 2) When using Method 3, which appears to be the best method for tau calculation, tau increases at the LV base compared to the apex.

Published

1999

40. Adaptation of mesenteric lymphatic vessels to prolonged changes in transmural pressure

Author

Christopher M. Quick, Tam L. Nguyen, Emily Wilson, Joanne Hardy, Glen A. Laine, Randolph H. Stewart, and Ranjeet M. Dongaonkar

Subjects

medicine.medical_specialty, Time Factors, Physiology, Constriction, Contractility, Integrative Cardiovascular Physiology and Pathophysiology, Physiology (medical), Internal medicine, Edema, Lymphatic vessel, Pressure, Medicine, Animals, Mesentery, Lymphedema, Lymphatic Vessels, business.industry, Anatomy, Adaptation, Physiological, Lymphatic system, medicine.anatomical_structure, Cardiology, cardiovascular system, Cattle, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Lymphangion, Muscle contraction, Muscle Contraction

Abstract

In vitro studies have revealed that acute increases in transmural pressure increase lymphatic vessel contractile function. However, adaptive responses to prolonged changes in transmural pressure in vivo have not been reported. Therefore, we developed a novel bovine mesenteric lymphatic partial constriction model to test the hypothesis that lymphatic vessels exposed to higher transmural pressures adapt functionally to become stronger pumps than vessels exposed to lower transmural pressures. Postnodal mesenteric lymphatic vessels were partially constricted for 3 days. On postoperative day 3, constricted vessels were isolated, and divided into upstream (UP) and downstream (DN) segment groups, and instrumented in an isolated bath. Although there were no differences between the passive diameters of the two groups, both diastolic diameter and systolic diameter were significantly larger in the UP group than in the DN group. The pump index of the UP group was also higher than that in the DN group. In conclusion, this is the first work to report how lymphatic vessels adapt to prolonged changes in transmural pressure in vivo. Our results suggest that vessel segments upstream of the constriction adapt to become both better fluid conduits and lymphatic pumps than downstream segments.

Published

2013

41. Post‐nodal lymphatic vessels adapt to sustained high flow conditions by becoming weaker pumps

Author

Glen A. Laine, Emily Wilson, Randolph H. Stewart, Joanne Hardy, Christopher M. Quick, Tam L. Nguyen, Cristine L. Heaps, and Ranjeet M. Dongaonkar

Subjects

medicine.medical_specialty, Lymphatic system, business.industry, Internal medicine, Genetics, Cardiology, Medicine, business, High flow, NODAL, Molecular Biology, Biochemistry, Biotechnology

Published

2013

42. Myocardial Fluid Balance in Acute Hypertension

Author

Glen A. Laine, Steven J. Allen, Karen L. Davis, Hans J. Geissler, and U Mehlhorn

Subjects

Male, medicine.medical_specialty, Mean arterial pressure, Lymph Trunk, Physiology, Blood Pressure, Catheterization, Phenylephrine, Dogs, Physiology (medical), Internal medicine, medicine, Animals, Edema, Fluid filtration, Molecular Biology, Coronary sinus, Balance (ability), business.industry, Microcirculation, Hemodynamics, Albumin, Heart, Water-Electrolyte Balance, Coronary Vessels, Hypertension, Cardiology, Lymph, Cardiology and Cardiovascular Medicine, business, medicine.drug

Abstract

We hypothesized that (1) acute arterial hypertension increases myocardial microvascular fluid filtration and (2) the combination of acute arterial hypertension and coronary sinus pressure elevation may increase myocardial microvascular filtration sufficiently to estimate the osmotic reflection coefficient of the myocardial exchange vessels.In nine mechanically ventilated dogs we cannulated the prenodal major cardiac lymph trunk. With the use of central venous phenylephrine infusion, mean arterial pressure (MAP) was raised progressively to 120, 160, and 180 mm Hg. In five dogs we additionally raised coronary sinus pressure (CSP) to 20 and 40 mm Hg. At each manipulation of MAP and/or CSP, we measured indexes of myocardial lymphatic function and lymph-to-plasma concentration ratios for total protein (CL(TP)/CP(TP) and albumin (CL(alb)/CP(alb)).Myocardial lymph flow rate (QL; microL/min) increased exponentially (QL = 10.9.e0.014.(MAP) and myocardial lymph driving pressure (PL; mm Hg) increased linearly (PL = 2.30 + 0.20 + 0.20 . MAP) following increases, whereas CL(TP)/CP(TP) and CL(alb)/CP(alb) decreases from 0.67 +/- 0.07 (SD) to 0.56 +/- 0.10 and from 0.91 +/- 0.05 to 0.75 +/- 0.11, respectively. Adding CSP elevation increased QL up to 12 times control associated with further CL(TP)/C(TP) and CL(alb)/CP(alb) decreases to 0.49 +/- 0.05 and 0.59 +/- 0.02, respectively.We conclude that hypertensive arterial pressures are, at least in part, transmitted to the myocardial microvascular exchange vessels in the intact animal leading to increased microvascular fluid filtration. However, the combination of acute arterial hypertension and coronary sinus pressure elevation is not sufficient to produce filtration independence required for myocardial osmotic reflection coefficient determination.

Published

1996

43. Biphasic regulation of myosin light chain phosphorylation by p21-activated kinase modulates intestinal smooth muscle contractility

Author

Randolph H. Stewart, Glen A. Laine, Phillip A. Letourneau, Ngoc T. Pham, Karina Kislitsyna, Mary-Clare Day, Nicole Olate, Alexander Y. Kots, Karen S. Uray, Charles S. Cox, and Ji Chu

Subjects

inorganic chemicals, Male, medicine.medical_specialty, Myosin light-chain kinase, Myosin Light Chains, Motility, chemical and pharmacologic phenomena, macromolecular substances, Biology, environment and public health, Biochemistry, Rats, Sprague-Dawley, PAK1, Internal medicine, Myosin, medicine, Animals, Humans, Phosphorylation, Molecular Biology, Cells, Cultured, Kinase, Muscle, Smooth, Molecular Bases of Disease, Cell Biology, Smooth muscle contraction, musculoskeletal system, Cell biology, Rats, Intestines, enzymes and coenzymes (carbohydrates), Endocrinology, p21-Activated Kinases, medicine.symptom, Gastrointestinal Motility, Muscle contraction, Muscle Contraction

Abstract

Supraphysiological mechanical stretching in smooth muscle results in decreased contractile activity. However, the mechanism is unclear. Previous studies indicated that intestinal motility dysfunction after edema development is associated with increased smooth muscle stress and decreased myosin light chain (MLC) phosphorylation in vivo, providing an ideal model for studying mechanical stress-mediated decrease in smooth muscle contraction. Primary human intestinal smooth muscle cells (hISMCs) were subjected to either control cyclical stretch (CCS) or edema (increasing) cyclical stretch (ECS), mimicking the biophysical forces in non-edematous and edematous intestinal smooth muscle in vivo. ECS induced significant decreases in phosphorylation of MLC and MLC phosphatase targeting subunit (MYPT1) and a significant increase in p21-activated kinase (PAK) activity compared with CCS. PAK regulated MLC phosphorylation in an activity-dependent biphasic manner. PAK activation increased MLC and MYPT1 phosphorylation in CCS but decreased MLC and MYPT1 phosphorylation in hISMCs subjected to ECS. PAK inhibition had the opposite results. siRNA studies showed that PAK1 plays a critical role in regulating MLC phosphorylation in hISMCs. PAK1 enhanced MLC phosphorylation via phosphorylating MYPT1 on Thr-696, whereas PAK1 inhibited MLC phosphorylation via decreasing MYPT1 on both Thr-696 and Thr-853. Importantly, in vivo data indicated that PAK activity increased in edematous tissue, and inhibition of PAK in edematous intestine improved intestinal motility. We conclude that PAK1 positively regulates MLC phosphorylation in intestinal smooth muscle through increasing inhibitory phosphorylation of MYPT1 under physiologic conditions, whereas PAK1 negatively regulates MLC phosphorylation via inhibiting MYPT1 phosphorylation when PAK activity is increased under pathologic conditions.

Published

2012

44. Award article: Microcirculatory Society Award for Excellence in Lymphatic Research: time course of myocardial interstitial edema resolution and associated left ventricular dysfunction

Author

Ranjeet M, Dongaonkar, Randolph H, Stewart, Christopher M, Quick, Karen L, Uray, Charles S, Cox, and Glen A, Laine

Subjects

Ventricular Dysfunction, Left, Dogs, Time Factors, Myocardium, Awards and Prizes, Coronary Sinus, Animals, Edema, Water, Blood Pressure, Article

Abstract

Although the causal relationship between acute myocardial edema and cardiac dysfunction has been established, resolution of myocardial edema and subsequent recovery of cardiac function have not been established. The time to resolve myocardial edema and the degree that cardiac function is depressed after edema resolves are not known. We therefore characterized temporal changes in cardiac function as acute myocardial edema formed and resolved.Acute myocardial edema was induced in the canine model by elevating coronary sinus pressure for three hours. Myocardial water content and cardiac function were determined before and during coronary sinus pressure elevation, and after coronary sinus pressure restoration.Although no change in systolic properties was detected, accumulation of water in myocardial interstitium was associated with increased diastolic stiffness. When coronary sinus pressure was relieved, myocardial edema resolved within 180 minutes. Diastolic stiffness, however, remained significantly elevated compared with baseline values, and cardiac function remained compromised.The present work suggests that the cardiac dysfunction caused by the formation of myocardial edema may persist after myocardial edema resolves. With the advent of new imaging techniques to quantify myocardial edema, this insight provides a new avenue for research to detect and treat a significant cause of cardiac dysfunction.

Published

2012

45. Increasing pulse wave velocity in a realistic cardiovascular model does not increase pulse pressure with age

Author

Christopher M. Quick, Glen A. Laine, Mohammad W. Mohiuddin, and Ryan J Rihani

Subjects

Adult, Cardiac output, Aging, Physiology, Blood Pressure, Cardiovascular Physiological Phenomena, Integrative Cardiovascular Physiology and Pathophysiology, Physiology (medical), medicine, Humans, Aortic Pulse Pressure, Cardiac Output, Pulse wave velocity, Aorta, Aged, Models, Statistical, business.industry, Hemodynamics, Models, Cardiovascular, Windkessel model, Mechanics, Arteries, Middle Aged, Pulse pressure, Compliance (physiology), Blood pressure, medicine.anatomical_structure, Anesthesia, Hypertension, Vascular resistance, Vascular Resistance, Cardiology and Cardiovascular Medicine, business, Algorithms, Compliance

Abstract

The mechanism of the well-documented increase in aortic pulse pressure (PP) with age is disputed. Investigators assuming a classical windkessel model believe that increases in PP arise from decreases in total arterial compliance ( Ctot) and increases in total peripheral resistance ( Rtot) with age. Investigators assuming a more sophisticated pulse transmission model believe PP rises because increases in pulse wave velocity ( cph) make the reflected pressure wave arrive earlier, augmenting systolic pressure. It has recently been shown, however, that increases in cph do not have a commensurate effect on the timing of the reflected wave. We therefore used a validated, large-scale, human arterial system model that includes realistic pulse wave transmission to determine whether increases in cph cause increased PP with age. First, we made the realistic arterial system model age dependent by altering cardiac output (CO), Rtot, Ctot, and cph to mimic the reported changes in these parameters from age 30 to 70. Then, cph was theoretically maintained constant, while Ctot, Rtot, and CO were altered. The predicted increase in PP with age was similar to the observed increase in PP. In a complementary approach, Ctot, Rtot, and CO were theoretically maintained constant, and cph was increased. The predicted increase in PP was negligible. We found that increases in cph have a limited effect on the timing of the reflected wave but cause the system to degenerate into a windkessel. Changes in PP can therefore be attributed to a decrease in Ctot.

Published

2012

46. Blood flow augmentation by intrinsic venular contraction in vivo

Author

Jonathan C. Vo, Michael J. Davis, Christopher M. Quick, Glen A. Laine, Randolph H. Stewart, Joshua K. Meisner, and Ranjeet M. Dongaonkar

Subjects

Nitroprusside, medicine.medical_specialty, Contraction (grammar), Cardiovascular and Renal Integration, Physiology, Vasodilator Agents, Hemodynamics, Blood Pressure, Anatomy, Blood flow, Biology, Blood pressure, Balance point, Venules, In vivo, Vasodilator agents, Regional Blood Flow, Physiology (medical), Internal medicine, Chiroptera, medicine, Cardiology, Animals, Wings, Animal, Blood Flow Velocity

Abstract

Venomotion, spontaneous cyclic contractions of venules, was first observed in the bat wing 160 years ago. Of all the functional roles proposed since then, propulsion of blood by venomotion remains the most controversial. Common animal models that require anesthesia and surgery have failed to provide evidence for venular pumping of blood. To determine whether venomotion actively pumps blood in a minimally invasive, unanesthetized animal model, we reintroduced the batwing model. We evaluated the temporal and functional relationship between the venous contraction cycle and blood flow and luminal pressure. Furthermore, we determined the effect of inhibiting venomotion on blood flow. We found that the active venous contractions produced an increase in the blood flow and exhibited temporal vessel diameter-blood velocity and pressure relationships characteristic of a peristaltic pump. The presence of valves, a characteristic of reciprocating pumps, enhances the efficiency of the venular peristaltic pump by preventing retrograde flow. Instead of increasing blood flow by decreasing passive resistance, venular dilation with locally applied sodium nitroprusside decreased blood flow. Taken together, these observations provide evidence for active venular pumping of blood. Although strong venomotion may be unique to bats, venomotion has also been inferred from venous pressure oscillations in other animal models. The conventional paradigm of microvascular pressure and flow regulation assumes venules only act as passive resistors, a proposition that must be reevaluated in the presence of significant venomotion.

Published

2012

47. Strategies for modulating the inflammatory response after decompression from abdominal compartment syndrome

Author

Phillip A. Letourneau, Randolph H. Stewart, Peter A. Walker, Charles S. Cox, Fernando Jimenez, Glen A. Laine, Stacey D. Moore-Olufemi, and Shinil K. Shah

Subjects

Decompression, medicine.medical_specialty, Abdominal compartment syndrome, medicine.medical_treatment, Peritonitis, Review, Critical Care and Intensive Care Medicine, Postoperative Complications, Laparotomy, Abdomen, medicine, Humans, Intensive care medicine, business.industry, Negative pressure dressings, lcsh:Medical emergencies. Critical care. Intensive care. First aid, Compartment Syndromes, Abdominal Cavity, lcsh:RC86-88.9, Decompression, Surgical, medicine.disease, Systemic inflammatory response syndrome, medicine.anatomical_structure, Practice Guidelines as Topic, Emergency Medicine, Intra-Abdominal Hypertension, business, Compartment syndromes

Abstract

Background Management of the open abdomen is an increasingly common part of surgical practice. The purpose of this review is to examine the scientific background for the use of temporary abdominal closure (TAC) in the open abdomen as a way to modulate the local and systemic inflammatory response, with an emphasis on decompression after abdominal compartment syndrome (ACS). Methods A review of the relevant English language literature was conducted. Priority was placed on articles published within the last 5 years. Results/Conclusion Recent data from our group and others have begun to lay the foundation for the concept of TAC as a method to modulate the local and/or systemic inflammatory response in patients with an open abdomen resulting from ACS.

Published

2012

48. Sustained High Luminal Flow In Vivo Decreases Maximal Developed Tension of Bovine Mesenteric Lymphatic Vessels

Author

Ranjeet M. Dongaonkar, Christopher M. Quick, Joanne Hardy, Randolph H. Stewart, Tam L. Nguyen, and Glen A. Laine

Subjects

Developed tension, Lymphatic system, Flow (mathematics), In vivo, Chemistry, Genetics, Biophysics, Molecular Biology, Biochemistry, Biotechnology

Published

2012

49. Re‐evaluating the interstitial fluid pressure‐volume (compliance) relationship

Author

Randolph H. Stewart, Ranjeet M. Dongaonkar, Glen A. Laine, and Christopher M. Quick

Subjects

Compliance (physiology), Volume (thermodynamics), business.industry, Genetics, Medicine, Interstitial fluid pressure, business, Molecular Biology, Biochemistry, Biotechnology, Biomedical engineering

Published

2012

50. Evaluating the effects of immediate application of negative pressure therapy after decompression from abdominal compartment syndrome in an experimental porcine model

Author

Randolph H. Stewart, Shinil K. Shah, Karen S. Uray, Charles S. Cox, Kenneth C. Norbury, Glen A. Laine, Peter A. Walker, Fernando Jimenez, Hasen Xue, and Teri D. Feeley

Subjects

Resuscitation, Abdominal compartment syndrome, Decompression, business.industry, medicine.medical_treatment, Peritoneal fluid, Central venous pressure, Hemodynamics, Critical Care and Intensive Care Medicine, medicine.disease, Laparotomy, Edema, Anesthesia, Emergency Medicine, medicine, Orthopedics and Sports Medicine, Surgery, medicine.symptom, business

Abstract

The purpose of this large-animal study was to assess the safety and effects of negative pressure therapy (NPT) when used as temporary abdominal closure in the immediate post-decompression period after abdominal compartment syndrome (ACS). Using a hemorrhagic shock/resuscitation and mesenteric venous pressure elevation model, ACS was physiologically induced in 12 female Yorkshire swine. At decompression, animals were allocated to either NPT (n = 6) or Bogota bag (n = 6) as temporary abdominal closure and studied for a period of 48 h or until death. Outcomes measured included morbidity and mortality, as well as hemodynamic parameters, ventilator-related measurements, blood gases, coagulation factors, and organ (liver, kidney, lung, and intestinal) edema and histology at the time of death/sacrifice. All animals developed ACS. Early application of NPT was associated with decreases in mesenteric venous and central venous pressure, and significantly increased drainage of peritoneal fluid. In addition, there was no increase in the incidence of mortality, recurrent intra-abdominal hypertension/ACS, or any deleterious effects on markers of organ injury. Early application of NPT in this porcine ACS model is safe and does not appear to be associated with an increased risk of recurrent intra-abdominal hypertension. The results of this animal study suggest that the application of NPT following decompression from ACS results in greater peritoneal fluid removal and may translate into augmented intestinal edema resolution secondary to more favorable fluid flux profiles.

Published

2011