Your search keyword '"Hoyt D"' showing total 7 results

1. P212

Author

Bickler, S.W., primary, Williams, E., additional, Hayden, M., additional, Junger, W., additional, and Hoyt, D., additional

Published

2007

2. P212: Melatonin secretion in urban and rural Gambians

Author

Bickler, S.W., Williams, E., Hayden, M., Junger, W., and Hoyt, D.

Published

2007

3. Hypertonic saline resuscitation restores hemorrhage-induced immunosuppression by decreasing prostaglandin E2 and interleukin-4 production.

Author

Coimbra R, Junger WG, Hoyt DB, Liu FC, Loomis WH, and Evers MF

Subjects

Animals, Cell Division physiology, Dinoprostone biosynthesis, Hemodynamics physiology, Hypertonic Solutions, Immunosuppression Therapy, Interleukin-1 blood, Interleukin-10 blood, Interleukin-2 blood, Interleukin-4 biosynthesis, Interleukin-6 blood, Isotonic Solutions pharmacology, Mice, Mice, Inbred BALB C, Resuscitation, Ringer's Lactate, Sodium blood, Spleen cytology, Transforming Growth Factor beta blood, Dinoprostone blood, Hemorrhage immunology, Interleukin-4 blood, Sodium Chloride pharmacology

Abstract

It was previously shown that hypertonic saline (HTS) enhances in vivo and in vitro cellular immune function of normal mice and reverses in vitro prostaglandin E2 (PGE2)-induced immunosuppression of normal peripheral blood mononuclear cells. Hemorrhage induces immunosuppression despite adequate isotonic fluid resuscitation. The effects of HTS resuscitation on immunosuppression following hemorrhage were studied. A mouse model of hemorrhagic shock was used. Bleeding was performed through a catheter placed in the femoral artery. Phytohemagglutinin-induced splenocyte proliferation and interleukin (IL)-1, IL-2,IL-4, IL-6, IL-10, transforming growth factor beta, and PGE2 plasma levels were measured 2 and 24 hr following hemorrhage and resuscitation with lactated Ringer's and HTS. In vivo cellular immune function was measured using a contact hypersensitivity test. Suppression of splenocyte proliferation (40%) 24 hr following hemorrhage occurred after lactated Ringer's resuscitation. HTS prevented immunosuppression. In vivo cell-mediated immune function 24 hr after hemorrhage was improved by HTS. HTS-resuscitated animals showed significantly lower levels of IL-4 and PGE2, and slightly elevated levels of proinflammatory cytokines (IL-1, IL-2, and IL-6). HTS reverses hemorrhage-induced T-cell suppression by reducing the production and/or release of IL-4 and PGE2.

Published

1996

4. Spectral analysis of heart rate variability in the ICU: a measure of autonomic function.

Author

Winchell RJ and Hoyt DB

Subjects

Adult, Age Factors, Automation, Electrocardiography, Heart Diseases mortality, Heart Diseases physiopathology, Humans, Middle Aged, Postoperative Period, Reproducibility of Results, Risk Factors, Surgical Procedures, Operative mortality, Heart Rate, Intensive Care Units, Monitoring, Physiologic

Abstract

Beat-to-beat heart rate variability (HRV) is a measure of autonomic nervous system activity, which can be quantified using frequency domain analysis. Despite its potential utility, routine serial analysis of HRV in an ICU setting has rarely been attempted. We have developed an automated system for real-time spectral analysis of HRV and have utilized this system to study the effect of alterations in HRV on mortality in a surgical ICU population. HRV measurements were performed every 6 hr on all patients in the ICU. Total spectral power in the variability signal (TP, a measure of overall autonomic activity) and the ratio of high frequency to low frequency components (HF/LF ratio, a measure of parasympathetic/sympathetic balance) were calculated. Over a 6-month period 7994 automated HRV measurements were made in 742 patients. Both low TP (low autonomic tone) and high HF/LF ratio (relative lack of sympathetic tone) were associated with increased mortality. A low HF/LF ratio (relatively high sympathetic tone) was associated with increased survival, especially in patients with low autonomic tone. We conclude that serial spectral analysis of HRV is practical in an ICU setting and that HRV parameters appear to be a clinically relevant indication of autonomic activity. Low sympathetic tone and vagal predominance are associated with increased mortality, while sympathetic predominance favors survival. Monitoring of HRV parameters has the potential to detect physiologic deterioration or response to therapy.

Published

1996

5. Alteration in Ca2+ homeostasis by a trauma peptide.

Author

Hoyt DB, Ozkan AN, Frevert J, Junger WG, and Loomis WH

Subjects

Calcium Channel Blockers pharmacology, Dantrolene pharmacology, Glycopeptides, Humans, Inositol Phosphates metabolism, Monocytes metabolism, Nifedipine pharmacology, Prostaglandins E, Verapamil pharmacology, Calcium blood, Fibronectins pharmacology, Homeostasis, Wounds and Injuries blood

Abstract

Postinjury tissue inflammation with PMN elastase proteolysis generates immunosuppressive fibronectin peptides (FNDP) impairing chemotaxis, T-cell activation, and proliferation. Excess intracellular Ca2+ ([Ca2+]i) impairs T-cell activation. This study quantifies the changes in [Ca2+]i following exposure to a degradation peptide of fibronectin to determine the mechanism of action of these peptides on calcium homeostasis. Isolated human PBLs were exposed to immunosuppressive concentrations of FNDP after loading with the [Ca2+]i probe FURA-2AM. Resting and sustained [Ca2+]i concentrations were calculated and compared to buffer control. The mechanism of action was determined by pretreatment with: (1) EDTA binding extra cellular Ca2+: [Ca2+]e, (2) the Ca2+ channel blockers verapamil and nifedipine, and (3) inhibition of [Ca2+]i released by dantrolene. Inositol triphosphate (IP3) essential for [Ca2+]i release was measured following T-cell stimulation as well. FNDP caused 200-400% increases in [Ca2+]i concentration relative to buffer control at known suppressive doses. Verapamil and nifedipine partially block [Ca2+]i influx by as much as 50% suggesting the slow Ca2+ (voltage independent) channels are partially responsible for the increased [Ca2+]i seen following FNDP. EDTA completely suppressed [Ca2+]e influx but did not completely inhibit the release of [Ca2+]i although IP3 was 80% suppressed. The increase in [Ca2+]i following FNDP stimulation is due to release of intracellular stores.

Published

1991

6. Immunosuppression by a peptide from the gelatin binding domain of human fibronectin.

Author

Easter DW, Hoyt DB, and Ozkan AN

Subjects

Fibronectins isolation & purification, Humans, Immune Tolerance, Peptide Fragments isolation & purification, Suppressor Factors, Immunologic immunology, Fibronectins immunology, Peptides immunology

Abstract

Circulating immunosuppressive peptides are found in conjunction with elevated protease activity in injured patients' serum. Previous work suggests that fibronectin may be a source of these peptides. Elastase-generated fibronectin degradation products were chromatographically separated and assessed for immunosuppressive capacity in the neutrophil chemotaxis and mixed lymphocyte reaction bioassays. The suppressive fibronectin degradation products fraction 22 inhibited chemotaxis by 53% (P less than 0.01) and mixed lymphocyte reaction by 41% (P less than 0.001). Incubation of the suppressive fraction 22 with gelatin, neuraminidase, or anti-SAP (suppressor active peptide) antibody reverses the chemotaxis inhibition to control values. These results indicate that an elastase-generated fragment of fibronectin, which potently inhibits neutrophil and lymphocyte activity, is located within the sialated gelatin binding portion of the molecule. Immunosuppression reversal by anti-SAP antibody, and the requirement for sialic acid, suggests similarity between fraction 22 and SAP, although other explanations are plausible. This peptide fragment from fibronectin may impact on the clinical immunosuppression seen in patients following severe trauma.

Published

1988

7. Trauma peptide induction of lymphocyte changes predictive of sepsis.

Author

Hoyt DB, Ozkan AN, Ninnemann JL, Hansbrough JF, Pinney E, and Wormsley S

Subjects

Adult, Antibodies, Monoclonal, Flow Cytometry, Humans, Immune Tolerance, Male, Middle Aged, Prospective Studies, T-Lymphocytes immunology, Antigens, Differentiation, T-Lymphocyte immunology, Multiple Trauma immunology, Suppressor Factors, Immunologic immunology, T-Lymphocytes classification, Wound Infection immunology, Wounds, Nonpenetrating immunology

Abstract

Post-trauma immunosuppression is characterized by T-cell subpopulation changes and the presence of a low molecular weight suppressive active peptide (SAP), which suppresses T-cell blastogenesis and neutrophil chemotaxis. This study evaluated post-trauma T-cell antigens and suppressive active peptide/T-cell interactions to determine if the suppressive active peptide concentrations predictive of sepsis can cause changes in antigen expression predictive of sepsis. Human lymphocyte markers and differentiation antigens were analyzed post-trauma using flow cytometry for markers predictive of sepsis. Changes induced by purified suppressive active peptide incubated with normal human lymphocytes were similarly analyzed by flow cytometry. SAP concentrations for incubation were chosen which correlated with concentrations in patients developing clinical sepsis. Significant T-cell changes in patients who developed sepsis include: decreased total T-cells, decreased helper cells, decreased natural killer cells, increased Ia expressing mononuclear cells, increased activated T-cells, (L22) and increased IL-2 expressing cells (TAC). Suppressive active peptide can activate T-cells and cause significant increased expression of IL-2 receptors and natural killer cells. Other T-cell changes following trauma predictive of sepsis seem to occur independent of in vitro incubation with suppressive active peptides. IL-2 expressing cells are known to be more readily suppressed by the suppressive peptide. Suppressive peptide activation and subsequent inhibition of T-cells suggests a potential way to explain suppressive peptide-induced immunosuppression following trauma.

Published

1988