Inflammatory cytokine levels in chronic venous insufficiency ulcer tissue before and after compression therapy.

OBJECTIVE: Elevated inflammatory cytokine levels have been implicated in the pathogenesis of non-healing chronic venous insufficiency (CVI) ulcers. The goal of this study was to determine the protein levels of a wide range of inflammatory cytokines in untreated CVI ulcer tissue before and after 4 weeks of high-strength compression therapy. These levels were compared to cytokines present in healthy tissue. METHODS: Thirty limbs with untreated CVI and leg ulceration received therapy for 4 weeks with sustained high-compression bandaging at an ambulatory wound center. Biopsies were obtained from healthy and ulcerated tissue before and after therapy. A multiplexed protein assay was used to measure multiple cytokines in a single sample. Patients were designated as rapid or delayed healers based on ulcer surface area change. RESULTS: The majority of pro-inflammatory cytokine protein levels were elevated in ulcer tissue compared to healthy tissue, and compression therapy significantly reduced these cytokines. TGF-beta1 was upregulated in ulcer tissue following compression therapy. Rapid healing ulcers had significantly higher levels of IL-1alpha, IL-1beta, IFN-gamma, IL-12p40, and granulocyte macrophage colony stimulating factor (GM-CSF) before compression therapy, and IL-1 Ra after therapy. IFN-gamma levels significantly decreased following therapy in the rapidly healing patients. CONCLUSION: CVI ulcer healing is associated with a pro-inflammatory environment prior to treatment that reflects metabolically active peri-wound tissue that has the potential to heal. Treatment with compression therapy results in healing that is coupled with reduced pro-inflammatory cytokine levels and higher levels of the anti-inflammatory cytokine IL-1 Ra.

North Carolina all-terrain vehicle (ATV) safety legislation: an assessment of the short-term impact on ATV-related morbidity and mortality.

OBJECTIVE: All-terrain vehicle (ATV)-related morbidity and mortality has increased in the US, and states have attempted to combat this trend with ATV-specific safety legislation. The objective of this study was to examine the short-term changes in ATV-related injuries and deaths following the enactment of legislation regulating the operation and sale of ATVs in North Carolina. STUDY DESIGN AND DATA COLLECTION: The study is a retrospective analysis comparing ATV collisions during the six month pre and post period of the effective date of legislation. Demographics, medical outcomes, passenger seat position, helmet use, and alcohol use were analyzed. DATA: Subjects were identified through the North Carolina Trauma Registry and data from the Office of the Chief Medical Examiner. FINDINGS: A total of 102 (51 in both pre- and post-legislation) subjects required medical treatment or were declared dead secondary to ATV collisions in North Carolina. Children under the age of eight years, who were forbidden from using ATVs under the new legislation, had significantly fewer total medical evaluations and deaths in the post-legislative time period. There was no association between legislative time period and ATV-related passenger, helmet, or alcohol use. CONCLUSIONS: In the six months following the enactment of North Carolina's ATV bill, children under the age of eight years were seriously injured or died less often due to ATV-related crashes. No other significant changes in ATV riding patterns were seen between the two time periods, and the morbidity and mortality of all ATV riders did not change. LIMITATIONS: The examined data sets do not include data from all North Carolina hospitals.

Nonfocused enhanced CT evaluation of acute appendicitis increases length of stay in the emergency department but does not increase perforation rate.

Nonfocused enhanced CT (NFECT) using intravenous and oral contrast is highly sensitive and specific for the diagnosis of acute appendicitis but requires additional time for transit of oral contrast and imaging interpretation. The aim of this study was to review our use of NFECT for the evaluation of acute appendicitis. Over a 2-year period, 295 adult patients presented to our emergency department and were diagnosed with acute appendicitis. Of these patients, 240 (81%) had undergone some form of cross-sectional imaging of the abdomen, and the majority (n = 193 [65%]) had NFECT scans performed during their evaluation. Fifty-five (19%) patients did not undergo cross-sectional radiographic evaluation (nonimaging group). Compared with the nonimaging group, patients who underwent NFECT were older (37 vs 32 years; P = 0.015) and more likely to be female (49% vs 20%; P < 0.001). Length of stay in the emergency department was significantly greater for patients who underwent NFECT (606 vs 321 minutes; P < 0.001), but there was no significant difference in the rate of acute appendiceal perforation (15% vs 9%; P = 0.297). In conclusion, use of NFECT for the diagnosis of acute appendicitis nearly doubles the patient's time in the emergency department with no significant increase in the acute perforation rate.

Multiplexed analysis of matrix metalloproteinases in leg ulcer tissue of patients with chronic venous insufficiency before and after compression therapy.

Elevated matrix metalloproteinases (MMP) levels have been implicated in the pathogenesis of chronic venous insufficiency ulcers. Quantitative measurements of a broad range of MMP proteins in human tissue treated with compression bandaging have not been reported. The goal of this study was to determine the expression of a wide range of proteases in untreated venous leg ulcer tissue and the changes in these levels after 4 weeks of high-strength compression therapy. Twenty-nine limbs with new or untreated chronic venous insufficiency and leg ulceration received therapy for 4 weeks with sustained high compression bandaging. Biopsies were obtained from healthy tissue and from ulcerated tissue before and after therapy. A novel multiplexed protein assay was used to measure multiple MMPs in a single sample. MMP protein activity, TIMP protein levels, and gene expression levels were also addressed. MMP1, 2, 3, 8, 9, 12, and 13 protein levels were elevated in ulcer tissue compared with healthy tissue. MMP8 and 9 were highly expressed in ulcer tissue. MMP3, 8, and 9 significantly decreased following treatment. Reduction in the levels of MMP1, 2, and 3 was associated with significantly higher rates of ulcer healing at 4 weeks. We conclude that compression therapy results in a reduction of the pro-inflammatory environment characterizing chronic venous ulcers, and ulcer healing is associated with resolution of specific elevated levels of protease expression.

Intestinal ischemia-reperfusion injury alters purinergic receptor expression in clinically relevant extraintestinal organs.

BACKGROUND: Intestinal ischemia-reperfusion (IIR) injury is known to initiate the systemic inflammatory response syndrome, which often progresses to multiple organ failure. We investigated changes in purinoceptor expression in clinically relevant extra-intestinal organs following IIR injury. MATERIALS AND METHODS: Anesthetized adult male BalbC mice were randomized to sham laparotomy (control, n = 5), or 15 min of superior mesenteric artery occlusion. Experimental ischemia was followed by a period of reperfusion [1 min (n = 6) or 1 h (n = 6)]. Mice were then sacrificed and lung, kidney, and intestinal tissues were harvested. Following RNA extraction, purinoceptor mRNA expression for P2Y2, A3, P2X7, A2b, P2Y4, and P2Y6 was analyzed using real-time RT-PCR. RESULTS: Significant differences in purinoceptor expression were observed in the lungs and kidneys of mice exposed to IIR injury when compared to controls. Pulmonary P2Y2 receptor expression was increased in the 1 h IIR group when compared to control, while pulmonary A3 receptor expression was incrementally elevated following IIR injury. In the kidney, P2Y2 receptor expression was increased in the 1 h IIR group compared to both 1 min IIR and control, and A3 receptor expression was decreased in the 1 h IIR group compared to the 1 min IIR group. No significant changes were observed in the intestinal purinoceptor profiles. CONCLUSION: Purinoceptor expression is altered in the murine lung and kidney, but not intestine following experimental IIR injury. These findings may implicate extracellular nucleotides and purinoceptors as possible mediators of the extra-intestinal organ dysfunction associated with IIR injury.

Nucleotides induce IL-6 release from human airway epithelia via P2Y2 and p38 MAPK-dependent pathways.

Extracellular nucleotides can mediate a variety of cellular functions via interactions with purinergic receptors. We previously showed that mechanical ventilation (MV) induces airway IL-6 and ATP release, modifies luminal nucleotide composition, and alters lung purinoceptor expression. Here we hypothesize that extracellular nucleotides induce secretion of IL-6 by small airway epithelial cells (SAEC). Human SAEC were stimulated with nucleotides in the presence or absence of inhibitors. Supernatants were analyzed for IL-6 and lysates for p38 MAPK activity by ELISA. RNA was analyzed by real-time RT-PCR. Rats (n=51) were randomized to groups as follows: control, small-volume MV, large-volume MV, large-volume MV-intratracheal apyrase, or small-volume MV-intratracheal adenosine 5'-O-(3-thiotriphosphate) (ATPgammaS). After 1 h of MV, bronchoalveolar lavage fluid was analyzed for ATP and IL-6 by luminometry and ELISA. ATP and ATPgammaS increased SAEC IL-6 secretion in a time- and dose-dependent manner, an effect inhibited by apyrase. Agonists were ranked in the following order: ATPgammaS>ATP=UTP>ADP=adenosine>2-methylthio-ADP=control. SB-203580, but not U-0126 or JNK1 inhibitor, decreased nucleotide effects. Additionally, nucleotides induced p38 MAPK phosphorylation. Inhibitors of Ca2+ signaling, phospholipase C, transcription, and translation decreased IL-6 release. Furthermore, nucleotides increased IL-6 expression. In vivo, large-volume MV increased airway ATP and IL-6 concentrations. IL-6 release was decreased by apyrase and increased by ATPgammaS. Extracellular nucleotides induce P2Y2-mediated secretion of IL-6 by SAEC via Ca2+, phospholipase C, and p38 MAPK-dependent pathways. This effect is dependent on transcription and translation. Our findings were confirmed in an in vivo model, thus demonstrating a novel mechanism of nucleotide-induced IL-6 secretion by airway epithelia.

ATP stimulates MMP-2 release from human aortic smooth muscle cells via JNK signaling pathway.

Aortic smooth muscle cell release of matrix metalloproteinase-2 (MMP-2) and tissue inhibitor of metalloproteinase-2 (TIMP-2) has been implicated in aortic aneurysm pathogenesis, but proximal modulation of release is poorly understood. Extracellular nucleotides regulate vascular smooth muscle cell metabolism in response to physiochemical stresses, but nucleotide modulation of MMP and/or TIMP release has not been reported. We hypothesized that nucleotides modulate MMP-2 and TIMP-2 release from human aortic smooth muscle cells (HASMCs) via distinct purinergic receptors and signaling pathways. We exposed HASMCs to exogenous ATP and other nucleotides with and without interleukin-1beta (IL-1beta). HASMCs were pretreated in some experiments with apyrase, which degrades ATP, and inhibitors of ERK1/2, JNK, and p38 MAPK. MMP-2 and TIMP-2 released into supernatant were assessed using ELISA and Western blotting. ATP, adenosine, and UTP significantly stimulated MMP-2 release in the presence of IL-1beta (300 nM ATP: 181 +/- 22%, P = 0.003; 30 microm adenosine: 244 +/- 150%, P = 0.001; and 200 microm UTP: 153 +/- 40%, P = 0.015; vs. 100% constitutive). ATP also stimulated MMP-2 release in the absence of IL-1beta (100 microm ATP: 148 +/- 38% vs. 100% constitutive). Apyrase significantly reduced ATP-stimulated MMP-2 release (apyrase + 500 nM ATP: 59 +/- 3% vs. 124 +/- 7% with 500 nM ATP). Rank-order agonist potency for MMP-2 release was consistent with ATP activation of PAY and PAY receptors. ATP induced phosphorylation of intracellular JNK, and inhibition of the JNK pathway blocked ATP-stimulated MMP-2 release, indicating signaling via this pathway. Nucleotides are thus novel stimulants of MMP-2 release from HASMCs and may provide a mechanistic link between physiochemical stress in the aorta and aneurysms, especially in the context of inflammation.

Measurement of free and bound fractions of extracellular ATP in biological solutions using bioluminescence.

Measurement of extracellular ATP in biological solutions is complicated by protein-binding and rapid enzymatic degradation. We hypothesized that the concentration of extracellular ATP could be determined luminometrically by limiting degradation and measuring the free and protein-bound fractions. ATP was added (a) at constant concentration to solutions containing varying albumin concentrations; (b) at varying concentrations to a physiological albumin solution (4 gm/dL); (c) at varying concentrations to plasma. After centrifugation, a fraction of each supernatant was heated. ATP in heated and unheated samples was measured luminometrically. Blood was drawn into saline or an ATP-stabilizing solution and endogenous plasma ATP measured. ATP-albumin binding was a linear function of albumin concentration (3.5% ATP bound at 100 micromol/L to 33.2% ATP bound at 1000 micromol/L) but independent of ATP concentration (29.3%, 10-1000 nmol/L ATP in 602 micromol/L albumin). Heating released the majority of bound ATP from albumin-containing solutions (94.8 +/- 1.7%) and plasma (97.6 +/- 5.1%). Total endogenous plasma ATP comprised 93 +/- 27 nmol/L (free) and 150 +/- 40 nmol/L (total fraction). Without stabilizing solution, degradation of free endogenous plasma ATP occurred. Within a physiological range (10-1000 nmol/L), ATP binds albumin independently of ATP concentration. Heating releases bound ATP, enabling accurate luminometric measurement of total extracellular ATP (free and bound) in biological samples.

Mechanical ventilation alters airway nucleotides and purinoceptors in lung and extrapulmonary organs.

Extracellular nucleotides are stress-responsive ligands that mediate a variety of cellular processes via purinoceptors. We hypothesized that mechanical ventilation (MV) would alter the extracellular adenyl-nucleotide profile and purinoceptor expression in lung and extrapulmonary tissues. Twenty-eight rats were randomized to: (i) unventilated control animals; (ii) tidal volume (VT; 6 ml/kg); (iii) VT (6 ml/kg) and positive end-expiratory pressure (PEEP; 5 cm H20); (iv) VT (12 ml/kg); or (v) VT (12 ml/kg) and PEEP (5 cm H20). Bronchoalveolar lavage (BAL) was analyzed for adenyl-nucleotides. Pulmonary, hepatic, and renal tissues were assessed for P2Y4, P2Y6, P2X7, A3, and A2b receptor expression by real-time reverse transcriptase-polymerase chain reaction and Fas/Fas ligand mRNA was quantified in the lung. MV produced volume-dependent changes in BAL nucleotides; AMP and adenosine increased, whereas ATP and ADP proportions decreased. Large-volume MV increased A2b mRNA and decreased P2X7 in the lung; mRNA changes in lung Fas ligand paralleled P2X7. PEEP normalized BAL nucleotide profiles and A2b expression. Injurious MV reduced hepatic and renal P2X7 mRNA; PEEP normalized these levels in both tissues. Large-volume MV also decreased renal A2b mRNA. MV alters the BAL adenyl-nucleotide profile and purinoceptor patterns in lung, liver, and kidney. PEEP normalizes the BAL nucleotide profile and receptor patterns in lung and extrapulmonary tissues.

Infrared thermography: a rapid, portable, and accurate technique to detect experimental pneumothorax.

RATIONALE AND OBJECTIVE: Pneumothorax (Ptx) is a life-threatening complication that can result from trauma, mechanical ventilation, and invasive procedures. Infrared thermography (IRT), a compact and portable technology, has become highly sensitive. We hypothesized that IRT could detect Ptx by identifying associated changes in skin temperature. MATERIALS AND METHODS: Bilateral nonpenetrating chest incisions or needle punctures were performed in 21 anesthetized rats. Rats were then randomized to no, bilateral, left, or right Ptx by either open (n = 16) or closed percutaneous (n = 5) puncture through selected pleurae. Real-time thermographic images and surface temperature data were acquired with a noncooled infrared camera. RESULTS: In all cases, blinded observers correctly identified each Ptx with real-time grayscale image analysis. When compared to either the ipsilateral baseline or an abdominal reference, experimental Ptx produced a significantly greater decrease in surface temperature when compared to non-Ptx control. CONCLUSIONS: These results demonstrate that portable infrared imaging can rapidly and accurately detect changes in thoracic surface temperature associated with experimental pneumothorax.

Adenosine triphosphate is released during injurious mechanical ventilation and contributes to lung edema.

BACKGROUND: Extracellular nucleotides mediate many cellular functions and are released in response to mechanical stress in vitro. It is unknown whether adenosine triphosphate (ATP) is released in vivo during mechanical ventilation (MV). We hypothesized that stress from high-pressure MV would increase airway ATP, contributing to MV-associated lung edema. METHODS: Rats were randomized to nonventilated control (n = 6) or 30 minutes of MV with low (15 cm H(2)0, n = 7) or high (40 cm H(2)0, n = 6) pressure. Additional groups received intratracheal ATP (n = 7) or saline (n = 7) before low-pressure MV. RESULTS: Low-pressure MV did not affect lung edema or bronchoalveolar lavage (BAL) ATP levels. In contrast, high-pressure MV significantly increased BAL ATP and produced alveolar edema; lactate dehydrogenase was unchanged. Intratracheal ATP administration significantly increased lung water during low-pressure MV. CONCLUSION: High-pressure MV increases BAL ATP concentration without altering lactate dehydrogenase, suggesting that release is not from cell lysis. Intratracheal ATP increases lung water, implicating nucleotides in MV-associated lung edema.

Effect of ventilatory rate on airway cytokine levels and lung injury.

BACKGROUND: Controversy exists regarding the effect of large-volume mechanical ventilation (MV), as a sole stimulus, on the pulmonary cytokine milieu. We used a well described experimental model of ventilator-induced lung injury (VILI) to examine the impact of large volume ventilation on pulmonary cytokines in vivo and to study the effect of respiratory rate (RR) variation on these levels. MATERIALS AND METHODS: Sixty rats (410 +/- 47 g) were randomized to: 1) non ventilated control; 2) V(t) = 40 ml/kg, RR = 40 bpm; 3) V(t) = 40 ml/kg, RR = 20 bpm; 4) V(t) = 7 ml/kg, RR = 40 bpm; or 5) V(t) = 7 ml/kg, RR = 20 bpm. After 1 h of MV, bronchoalveolar lavage (BAL) and serum were collected. BAL was analyzed for urea, protein, lactate dehydrogenase (LDH), tumor necrosis factor (TNF)alpha and interleukin (IL)-6. Epithelial lining fluid volume (ELF) was calculated. RESULTS: Regardless of RR, animals ventilated at 7 ml/kg did not differ from control in any outcome. In contrast, MV at 40 ml/kg V(t) with 40 bpm produced lung injury characterized by significant elevations of BAL TNFalpha, IL-6, protein, ELF, and LDH. At 40 ml/kg V(t), RR reduction (20 bpm) significantly reduced all injury measures. CONCLUSION: This study confirms that large-volume MV, as a sole stimulus, produces lung injury and cytokine release. Whereas increasing RR at low V(t) has little impact on injury parameters, RR reduction under VILI-promoting conditions significantly limits lung injury.