In-vivo particle mediated delivery of mRNA to mammalian tissues: ballistic and biologic effects.

Biolistic transmission of mRNA provides transient gene therapy to in vivo organs. This study documents particle mediated mRNA transmission to a solid organ and wound healing model using the mRNA of Green Fluorescent Protein to determine optimal delivery parameters. Renal function, bullet penetration, cellular injury, and Green Fluorescent Protein synthesis were quantified. Chimeric human epidermal growth factor-FLAG epitope cDNA or mRNA was transmitted to wounds in normal or steroid treated animals. Wound bursting strength, human epidermal growth factor-FLAG, and collagen synthesis were determined. Injury and bullet penetration correlated with the delivery velocity and bullet size. Optimal delivery parameters were established which provided widespread Green Fluorescent Protein synthesis. Human epidermal growth factor-FLAG treatment significantly increased collagen content and wound breaking strength in normal and steroid treated animals. FLAG protein synthesis was evident in mRNA treated fascia following treatment. We found the gene gun provides a novel method for efficient, in vivo delivery of mRNA-based therapeutic strategies to mammalian organs with minimal histologic damage allowing transient expression of protein in in vivo target tissues. Co-delivery of Green Fluorescent Protein mRNA may provide a useful positive control to determine effective transmission. Biolistic transmission of human epidermal growth factor-FLAG mRNA provides increased tissue epidermal growth factor levels and accelerates wound healing in normal and steroid exposed animals.

Sequential changes in mucosal immunity after hemorrhagic shock.

Immunoinflammatory responses after shock and major trauma are characterized by an early hyperinflammatory response and later by compensatory anti-inflammatory host mediator production. This late phase is associated with depressed immune function that has been causally linked with post-traumatic infectious complications and late organ failure. Gut barrier failure is noted in this setting and may be an important source of nosocomial infections and organ failure. Secretory immunoglobulin A (sIgA) is the predominant immunoglobin at mucosal surfaces and is difficult to quantify in luminal secretions. Attempts to normalize sIgA concentrations may not be accurate and/or may not be applicable in vivo. A method using mucosal immunization with cholera toxin (ChT) to normalize gut sIgA levels was used to assess serial changes in sIgA after hemorrhagic shock (HS) in rodents. Total and anti-ChT sIgA levels were highly variable in both HS and sham animals. However, when normalized using the specific anti-ChT/total sIgA ratio, differences were clearly evident. This ratio was depressed between 3 and 10 days post-HS. The specific anti-ChT/total sIgA ratio is a reliable index of secretory antibody at gut luminal surfaces. Impaired mucosal immune function occurred in a time frame consistent with development of late nosocomial infections. This may be important mechanistically in the development of these infectious complications.

Prospective evaluation of thoracic ultrasound in the detection of pneumothorax.

BACKGROUND: Thoracic ultrasound may rapidly diagnose pneumothorax when radiographs are unobtainable; the accuracy is not known. METHODS: We prospectively evaluated thoracic ultrasound detection of pneumothorax in patients at high suspicion of pneumothorax. The presence of "lung sliding" or "comet tail" artifacts were determined in patients by ultrasound before radiologic verification of pneumothorax by residents instructed in thoracic ultrasound. Results were compared with standard radiography. RESULTS: There were 382 patients enrolled; the cause of injury was blunt (281 of 382), gunshot wound (22 of 382), stab wound (61 of 382), and spontaneous (18 of 382). Pneumothorax was demonstrated on chest radiograph in 39 patients and confirmed by ultrasound in 37 of 39 patients (95% sensitivity); two pneumothoraces could not be diagnosed because of subcutaneous air; the true-negative rate was 100%. CONCLUSION: Thoracic ultrasound reliably diagnoses pneumothorax. Expansion of the focused abdominal sonography for trauma (FAST) examination to include the thorax should be investigated for terrestrial and space medical applications.

Effect of acute hemodilution on intestinal perfusion and intramucosal pH after shock.

BACKGROUND: Restoration of oxygen delivery, especially to the splanchnic bed, is of critical importance during trauma resuscitation. Acute normovolemic hemodilution (ANH) has been used to reduce blood transfusion requirement during elective surgery. The effect of hemodilution on the splanchnic circulation during hemorrhagic shock (HS) is not well defined. METHODS: Swine were instrumented to measure systemic and splanchnic circulation effects of ANH after HS. The adequacy of the splanchnic circulation was assessed by changes in measured mucosal blood flow, mucosal tonometry, as well as by portal venous blood O2 saturation, portal venous CO2 saturation, and lactate. RESULTS: ANH after HS resulted in a final hematocrit of 18+/-2%. Superior mesenteric artery blood flow was returned to baseline levels; however, mucosal blood flow was still only 64% of baseline levels. However, at the same time mucosal PCO2 and intramucosal pH as well as portal venous O2 and CO2 saturation had normalized. CONCLUSION: As long as an adequate intravascular volume is maintained, hemodilution is well tolerated by the gut after HS. Concern about the adequacy of gut perfusion should not be a transfusion trigger after HS.

Synergistic effects of Candida and Escherichia coli on gut barrier function.

BACKGROUND: Disruption of the indigenous gut microflora with overgrowth of gram-negative bacteria and Candida species is common in the critically ill patient. These organisms readily translocate in vitro, which may cause septic complications and organ failure. A synergistic effect between Escherichia coli and C. albicans in polymicrobial infections has been demonstrated. An interaction between these organisms at the mucosal barrier is unknown. METHODS: Ca(CO2) monolayers were grown to confluence in a two compartment culture system. E. coli and C. albicans or E. coli alone were added to the apical chambers. Secretory immunoglobulin A was added to half of the apical chambers as well. Cell cultures were incubated for a total of 240 minutes. Basal media were sampled at timed intervals for quantitative culture. Monolayer integrity was confirmed by serial measurement of transepithelial electrical resistance. RESULTS: Secretory immunoglobulin A decreased bacterial translocation across Ca(CO2) monolayers challenged with E. coli alone. Transepithelial passage of E. coli was significantly increased by coculture of bacteria with C. albicans. Augmentation of bacterial translocation by Candida occurred even in the presence of secretory immunoglobulin A. CONCLUSIONS: Candida colonization of the GI tract may impair mucosal barrier defense against gram-negative bacteria. The clinical role of gut antifungal prophylaxis in protecting against gut derived gram-negative sepsis is speculative.

Hemorrhagic shock impairs mucosal immunity to gut-derived antigens.

Secretory immunoglobulin A (sIgA) is the principal antibody protecting against pathogens in the respiratory tract and other mucosal surfaces. Nosocomial pneumonias are frequent after injury and critical illness and are often due to enteric pathogens. The aim of this study was to assess the relative effect of hemorrhagic shock (HS) on mucosal immunity at intestinal and respiratory mucosal sites. Fisher rats were immunized intragastrically with dinitrophenylated (DNP) Pneumococcus (Pn). Three weeks later, animals were subjected to sham treatment or HS. The animals were then rechallenged with DNP-Pn 1 or 3 days later. Animals were sacrificed 7 days later, and bronchoalveolar and gastric lavage was performed. Total and anti-DNP-specific sIgA were quantitated from these secretions by enzyme-linked immunosorbent assay. There was a significant decrease in DNP-Pn-specific sIgA at 72 hours after HS, which was not present in animals at 24 hours after HS. This was most profound in bronchoalveolar lavage specimens. We conclude that impaired mucosal defense against gut-derived antigens after HS may be important mechanistically for the development of posttraumatic pneumonia and other mucosally related infectious complications.

Synergistic effect of hyperoxia and immunoglobulin A on mucosal barrier defense.

BACKGROUND: Hyperoxia has been reported to be protective against gut-derived sepsis. Although secretory immunoglobulin A (IgA) is primarily responsible for humoral defense of mucosal surfaces, a potential synergistic effect with hyperoxia is unknown. An asanguineous cell monolayer system was used to study these aspects in vitro. METHODS: MDCK cells were grown as polarized monolayers in a two-chamber culture system. Apical chambers were inoculated with 10(8) Escherichia coli M14 with or without polyclonal IgA and incubated in a 21 or 95% O2 environment. Basal medium was sampled at 90 and 180 minutes for bacterial translocation. In a second experiment, MDCK cells were lysed at 90 minutes and intracellular bacteria were quantitated. RESULTS: Bacterial translocation was decreased versus normoxia by the treatment groups IgA without hyperoxia or IgA with hyperoxia at 90 minutes. Bacterial internalization at 90 minutes was reduced to the greatest extent by the combined effects of hyperoxia and IgA. Translocation data at 180 minutes confirmed the additional protective effect of hyperoxia with IgA. CONCLUSION: Hyperoxia exerts a significant protective effect on barrier function independent of enhanced leukocyte function. Hyperoxia has an added effect to the mucosal defense provided by IgA.

Effect of hypertonic saline solution and dextran on ventricular blood flow and heart-lung interaction after hemorrhagic shock.

BACKGROUND: Hypertonic saline solutions may have beneficial hemodynamic effects in the resuscitation of hemorrhagic shock. The effects on cardiac function and potential interaction with lung function are controversial and served as the basis for this study. METHODS: Domestic swine were resuscitated from hemorrhagic shock with equivalent sodium loads of lactated Ringer's solution (LR) or 7.5% NaCl plus 10% dextran (HSD). Hemodynamic data were obtained at baseline, shock, and after resuscitation. Right ventricular ejection fraction and left ventricular change in pressure with respect to time (dP/dt) were used to index contractility. Regional myocardial blood flow was determined with microspheres. Lung water was determined gravimetrically. RESULTS: There were no differences in the ability to restore hemodynamic parameters with equivalent sodium loads of LR and HSD resuscitation. Right ventricular ejection fraction and left ventricular change in pressure with respect to time were only transiently affected by shock and resuscitation. Regional myocardial blood flow was increased above baseline values after HSD. The total resuscitation volumes were 1958 +/- 750 mL and 140 +/- 31 mL with LR and HSD, respectively. CONCLUSIONS: Although LR and HSD were equally effective in the early resuscitation of hemorrhagic shock, this occurred at the expense of significantly greater volume requirements for resuscitation with LR. This may contribute to cardiac dysfunction in this setting. Enhanced regional myocardial blood flow after HSD resuscitation may be beneficial against ongoing myocardial stress.

The effects of bacterial overgrowth and hemorrhagic shock on mucosal immunity.

Impairment in systemic and mucosal immune function is noted after hemorrhagic shock (HS). Overgrowth of gut microflora is common after shock insults and may act as a reservoir for intensive care unit-acquired infections and subsequent remote organ failure. Secretory immunoglobulin A (IgA), the principle immunoglobulin in intestinal secretions, is the first line of defense of mucosal surfaces. Although HS and gut bacterial overgrowth are often temporarily related, their combined effect on IgA is unknown and served as the basis for this study. After sham or HS, self-filling blind loops (SFBL) were created to affect bacterial overgrowth. Intestinal secretions were obtained 7 days later from SFBL and jejunal segments for quantitative culture. Gut washings were also obtained and secretory IgA levels determined by enzyme-linked immunosorbent assay. Bacterial overgrowth in the SFBL was associated with significant increases in IgA levels in the sham group only. IgA levels were depressed in both jejunal and SFBL segments in the HS group. Impaired humoral mucosal defense may be important mechanistically in the development of nosocomial infections and organ failure after HS, particularly with concurrent gut bacterial overgrowth.

Signaling of apoptotic lung injury by lipid hydroperoxides.

BACKGROUND: Acute lung injury is common after shock and sepsis, but the pathophysiology is unclear. Lipid hydroperoxide products including 4-hydroxynonenal (HNE) increase significantly during these insults and may induce apoptosis. This study investigates the role of pathophysiologic concentrations of HNE on isolated lung biophysical function and apoptosis. METHODS: Male Sprague-Dawley rat lungs were isolated and perfused with Krebs-Henseleit buffered solution for 120 minutes. Hydroxynonenal (50 micromol/L) or vehicle was added to the perfusate at 60 minutes. Lung elastance and perfusion pressure were determined. Perfusate glutathione and lactate dehydrogenase were determined at 30-minute intervals. Genomic DNA was extracted for electrophoretic determination of apoptotic laddering. RESULTS: There were no differences in any parameter measured before HNE infusion. Lung edema increased significantly with HNE infusion; a trend increase in lung elastance and perfusion pressure was noted. DNA laddering characteristic of apoptosis was noted in HNE-treated lungs that was absent in control animals. CONCLUSION: Lipid hydroperoxide products formed during shock or sepsis may be causally related to lung injury. Low concentrations of a candidate metabolite, HNE, appear to induce significant lung injury and apoptosis, which may partially mediate lung injury during shock and sepsis.

Secretory immunoglobulin A blocks hypoxia-augmented bacterial passage across Madin-Darby canine kidney cell monolayers.

OBJECTIVE: To study the relative impact of previous hypoxic exposure and the addition of secretory immunoglobulin A (IgA) on bacterial translocation. DESIGN: In vitro randomized experimental study. MATERIALS AND METHODS: Transfected Madin-Darby canine kidney epithelial cells were grown as monolayers in a two-chamber tissue culture system. Stationary growth phase Escherichia coli M14 were inoculated in the apical chamber with medium or medium containing polymeric secretory IgA. Tissue culture dishes were then placed in a 21 or 5% O2 incubator environment for 90 minutes followed by a 21% O2 environment. Medium from the basal compartment was then obtained at timed intervals for bacterial culture. MEASUREMENT AND MAIN RESULTS: Bacterial translocation increased with time in co-culture. Previous hypoxic exposure augmented translocation across the monolayers. The addition of IgA blocked translocation under both normoxic and hypoxic conditions. CONCLUSION: Secretory IgA is important in mucosal defense under both normal and shock conditions.

Splanchnic ischemia and bacterial translocation in the abdominal compartment syndrome.

BACKGROUND AND METHODS: Major trauma or abdominal injury may lead to the development of increased intra-abdominal pressure (IAP) and the onset of the abdominal compartment syndrome. Although the effect of raised IAP on systemic and splanchnic hemodynamics have been described, the consequences of the resultant gut hypoperfusion in this setting are unknown. Bacterial translocation (BT) occurs after a period of splanchnic ischemia and may contribute to later organ failure. A rodent model was used to examine the effect of raised IAP on ileal mucosal blood flow (MBF) and BT. IAP was increased to 25 mm Hg for 60 minutes and mean arterial blood pressure was maintained with fluid. Animals were killed 24 hours later and examined for BT. RESULTS: Increased IAP resulted in a decrease of MBF to 63% of baseline despite maintaining normal mean arterial blood pressure. BT occurred principally to the mesenteric lymph nodes after 60 minutes of IAP at 25 mm Hg. CONCLUSIONS: Increased IAP leads to decreased MBF and to BT, which may contribute to later septic complications and organ failure.

Effect of triiodothyronine augmentation on rat lung surfactant phospholipids during sepsis.

Surfactant functional effectiveness is dependent on phospholipid compositional integrity; sepsis decreases this through an undefined mechanism. Sepsis-induced hypothyroidism is commensurate and may be related. This study examines the effect of 3,3',5-triiodo-L-thyronine (T3) supplementation on surfactant composition and function during sepsis. Male Sprague-Dawley rats underwent sham laparotomy (Sham) or cecal ligation and puncture (CLP) with or without T3 supplementation [CLP/T3 (3 ng/h)]. After 6, 12, or 24 h, surfactant was obtained by lavage. Function was assessed by a pulsating bubble surfactometer and in vivo compliance studies. Sepsis produced a decrease in surfactant phosphatidylglycerol and phosphatidic acid, with an increase in lesser surface-active lipids phosphatidylserine and phosphatidylinositol. Phosphatidylcholine content was not significantly changed. Sepsis caused an alteration in the fatty acid composition and an increase in saturation in most phospholipids. Hormonal replacement attenuated these changes. Lung compliance and surfactant adsorption were reduced by sepsis and maintained by T3 treatment. Thyroid hormone may have an active role in lung functional preservation through maintenance of surfactant homeostasis during sepsis.

Effect of thyroid hormone (T3)-responsive changes in surfactant apoproteins on surfactant function during sepsis.

BACKGROUND: Long surfactant phospholipids are altered during sepsis; the role of surfactant apoproteins is unknown. This study investigates the effect of cecal ligation and puncture (CLP) on surfactant functional effectiveness and apoprotein transcriptional activity with or without T3 replacement. METHODS: Male Sprague Dawley rats underwent sham laparotomy or CLP with or without T3 replacement. Lung compliance, surfactant adsorption, and surface tension were measured with a surfactometer. Surfactant apoproteins A, B, and C (SP-A, SP-B, SP-C) mRNA was quantified by Northern blot analysis. RESULTS: Lung compliance was significantly decreased by sepsis; initial surface tension and adsorption values in CLP animals reflected apoprotein dysfunction. Sepsis decreased SP-A mRNA levels and increased SP-B mRNA; SP-C mRNA were unchanged. T3 treatment improved compliance, adsorption, and ST isotherms in septic animals. CONCLUSION: T3 attenuated sepsis-induced surfactant dysfunction and SP-A and SP-B transcriptional changes during sepsis. This suggests an interaction between the thyroid, surfactant apoproteins, and lung surfactant functional effectiveness and requires further study.

An in vitro model to assess mucosal immune function and bacterial translocation.

The importance of secretory immunoglobulin A (IgA) on intestinal barrier function has gained increasing acceptance. However, due to the complexity of the intestinal microenvironment, the relative role of secretory IgA (sIgA) in mucosal defense has been difficult to study in vivo. Polarized Madin-Darby canine kidney (MDCK) epithelial cells expressing the complementary DNA (cDNA) for the polymeric Ig receptor were grown as monolayers in an in vitro two-chamber cell culture system to study the impact of sIgA on bacterial translocation (BT). Polymeric sIgA or media alone was added to the apical chambers of cell monolayers followed by apical inoculation with bacteria. The basal compartment was sampled at timed intervals thereafter to determine BT. Bacterial passage across the MDCK epithelial cell monolayers occurred in a time and bacterial inoculum concentration gradient. Addition of sIgA led to significant reductions in BT across the epithelial cell monolayers. This is a useful model for further investigation on the role of sIgA in intestinal barrier function.

Effects of increasing airway pressure and PEEP on the assessment of cardiac preload.

BACKGROUND: Cardiac preload is most commonly assessed by pulmonary artery wedge pressure. It was postulated that the right ventricular end-diastolic volume index (RVEDVI) derived by thermodilution would be a better predictor of preload in trauma patients with high airway pressures associated with positive pressure ventilation and positive end-expiratory pressure. METHODS: Volumetric thermodilution catheters were placed in 52 mechanically ventilated trauma patients. Regression analysis was performed on 986 sets of hemodynamic data comparing pulmonary artery wedge pressure and RVEDVI to cardiac index (CI) at various airway pressures. RESULTS: There was much better correlation between RVEDVI and CI (r = 0.41) than with pulmonary artery wedge pressure and CI (r = -0.06). This was true of all levels of airway pressure tested. When analyzed by the degree of right ventricular dysfunction, as indexed by right ventricular ejection fraction, the strongest correlation between RVEDVI and CI was noted when right ventricular ejection fraction was > 30%. CONCLUSIONS: Unlike the pulmonary artery wedge pressure, RVEDVI is as reliable indicator of preload in the mechanically ventilated trauma patient. This is especially true when the right ventricular ejection fraction is not severely depressed.

Effects of deferoxamine on H2O2-induced oxidative stress in isolated rat heart.

During myocardial reperfusion injury, iron has been implicated in the Fenton based generation of hydroxyl radical, .OH, leading to further organ injury. Although previous studies have investigated the protective effect of iron chelators including deferoxamine (DFX) in myocardial reperfusion injury, there is little information regarding the role of iron chelation during oxidative stress produced by H2O2 on the heart. Isolated hearts from male Sprague-Dawley rats were retrograde-perfused with Krebs-Henseleit solution at 5 ml/min. After a 60-min equilibration, oxyradical challenge was instituted by the addition of H2O2 (200-600 microM) to the perfusate for 60 min. A subgroup of animals received DFX (400 microM) in the perfusate prior to challenge with 400 microM H2O2. Contractility was continuously monitored; perfusate samples for glutathione (GSH) and lactate dehydrogenase (LDH) estimations were collected at 30-min intervals. Headspace ethane, an indicator of lipid peroxidation, was estimated at 30-min intervals by gas chromatography. Control hearts maintained contractility during the perfusion period. H2O2 perfusion caused a dose dependent decrease in myocardial contractility; DFX pretreatment was partially protective. Headspace ethane slowly accumulated in control hearts; perfusion with H2O2 caused dose dependent increase in ethane accumulation indicative of enhanced lipid peroxidation. GSH and LDH in the perfusate remained low in control hearts. In contrast, H2O2 treated hearts had a dose dependent increase in the efflux of GSH and LDH which was markedly increased by perfusion with 600 microM H2O2. Pretreatment with DFX did not significantly reduce GSH or LDH efflux from hearts perfused with peroxide. While H2O2 perfusion causes a dose dependent decrease in myocardial contractility with a corresponding increase in headspace ethane release with GSH & LDH efflux indicative of oxidative stress, concurrent treatment with DFX reduces myocardial dysfunction and ethane generation. However, sublethal damage of plasma membrane still continues as reflected by continuous enhancement of LDH efflux, possibly indicating involvement of other reactive species besides hydroxyl radical.

Gallbladder and biliary tract candidiasis.

BACKGROUND: The clinical significance of Candida spp isolated from the gallbladder on the biliary tract is relatively unknown. METHODS: To provide this information, patients with Candida spp isolated from gallbladder and other biliary tract sources during a 10-year period were identified through the records of our clinical microbiology laboratory. Medical records were analyzed for biliary disease causes, culture data, treatment, and outcome. RESULTS: Twenty-seven patients were identified. Five of seven patients with cholecystitis were critically ill intensive care unit (ICU) patients in whom the mortality rate was 100%. Gallstone pancreatitis was found in four patients and was fatal in one patient with a pancreatic abscess and ongoing retroperitoneal sepsis. An external biliary shunt/endoprosthesis was placed in 16 patients to relieve biliary obstruction. Cholangitis was present in 14 patients, and most bile cultures contained Candida as part of a mixed flora. Only 3 of 27 patients had candidemia, and 22 of 27 patients were colonized with Candida at other sites. CONCLUSIONS: (1) The ICU patient with Candida cholecystitis has a grave prognosis. (2) Patients with Candida isolated from biliary stents placed for obstruction and cholangitis should be treated with both antifungal and broad spectrum antimicrobial agents. (3) Candidemia is not frequently seen in this setting.

Effect of sepsis and 3,5,3'-triiodothyronine replacement on myocardial integrity during oxidant challenge.

OBJECTIVE: To determine whether sepsis, with or without thyroid hormonal augmentation, induces myocardial tolerance to an oxidant challenge. DESIGN: A prospective, randomized, controlled animal trial. SETTING: University research laboratory. SUBJECTS: Twenty male Sprague-Dawley rats. INTERVENTIONS: After anesthesia, animals underwent cecal ligation and puncture, with or without 3,5,3'-triiodothyronine replacement (3 ng/hr), or sham surgery. Twenty-four hours later, the heart was rapidly excised for retrograde Langendorff perfusion. Oxyradical challenge consisted of the addition of 200 microM of hydrogen peroxide to the perfusate for 60 mins. MEASUREMENTS AND MAIN RESULTS: Myocardial contractility and relaxation were continuously recorded. Perfusate glutathione and lactate dehydrogenase concentrations were determined enzymatically at 30-min intervals for 90 mins. Oxyradical perfusion alone significantly increased glutathione efflux and decreased myocardial contractility when compared with control animals. Prior cecal ligation and puncture decreased oxidant-mediated glutathione efflux and maintained myocardial contractility. 3,5,3'-triiodothyronine supplementation appeared to increase late cardiac contractility and cellular integrity during oxidant challenge. However, this increase was not statistically significant. CONCLUSIONS: Antecedent septic challenge appears to induce tolerance to further myocardial oxyradical exposure and improves myocardial functional and biochemical integrity. Thyroid hormonal supplementation may provide a modest additional benefit in septic animals.