Mark E. George

Collagen deposition limits immune reconstitution in the gut.

Despite suppression of human immunodeficiency virus (HIV) replication by antiretroviral therapy, reconstitution of CD4+ cells is variable and incomplete, particularly in gut-associated lymphatic tissues (GALT). We have previously shown that immune activation and inflammation in HIV-infected and simian immunodeficiency virus-infected lymph nodes results in collagen deposition and disruption of the lymphatic tissue architecture, and this damage contributes to CD4+ cell depletion before treatment and affects the extent of immune reconstitution after treatment. In the present study, we compared collagen deposition and the extent of depletion and reconstitution of total CD4+ cells and subsets in peripheral blood, lymph nodes, and inductive and effector sites in GALT. We show that CD4+ cell depletion in GALT correlates with the rapidity and greater magnitude of collagen deposition in this compartment, compared with that in peripheral lymph nodes, and that although treatment does not restore CD4+ cells to effector sites, treatment in the early stages of infection can increase CD4+ central memory cells in Peyer patches.

Hyperbaric oxygen does not improve outcome in patients with necrotizing soft tissue infection.

BACKGROUND Patients with necrotizing soft tissue infections (NSTIs) require prompt surgical debridement, appropriate intravenous antibiotics, and intensive support. Despite aggressive treatment, their mortality and morbidity rates remain high. The benefit of hyperbaric oxygen (HBO) as an adjunctive treatment is controversial. We investigated the effect of HBO in treating NSTIs. METHODS We analyzed clinical data retrospectively for 78 patients with NSTIs: 30 patients at one center were treated with surgery, antibiotics, and supportive care; 48 patients at a different center received adjunctive HBO treatment. We compared the two groups in terms of demographic characteristics, risk factors, NSTI microbiology, and patient outcomes. To identify variables associated with higher mortality rates, we used logistic regression analysis. RESULTS Demographic characteristics and risk factors were similar in the HBO and non-HBO groups. The mean patient age was 49.5 years; 37% of the patients were female, and 49% had diabetes mellitus. Patients underwent a mean of 3.0 excisional debridements. The median hospital length of stay was 16.5 days; the median duration of antibiotic use was 15.0 days. In 36% of patients, cultures were polymicrobial; group A Streptococcus was the organism most commonly isolated (28%). We identified no statistically significant differences in outcomes between the two groups. The mortality rate for the HBO group (8.3%) was lower, although not significantly different (p = 0.48), than that observed for the non-HBO group (13.3%). The number of debridements was greater in the HBO group (3.0; p = 0.03). The hospital length of stay and duration of antibiotic use were similar for the two groups. Multivariable analysis showed that hypotension on admission and immunosuppression were significant independent risk factors for death. CONCLUSIONS Adjunctive use of HBO to treat NSTIs did not reduce the mortality rate, number of debridements, hospital length of stay, or duration of antibiotic use. Immunosupression and early hypotension were important risk factors associated with higher mortality rates in patients with NSTIs.

Tissue hemoglobin index: a non-invasive optical measure of total tissue hemoglobin.

IntroductionThe tissue hemoglobin index (THI) is a hemoglobin signal strength metric provided on the InSpectra™ StO2 Tissue Oxygenation Monitor, Model 650. There is growing interest regarding the physiologic meaning of THI and whether a clinically useful correlation between THI and blood hemoglobin concentration exists. A series of in vitro and in vivo experiments was performed to evaluate whether THI has potential utility beyond its primary purpose of helping InSpectra™ device users optimally position a StO2 sensor over muscle tissue.MethodsThe THI and tissue hemoglobin oxygen saturation (StO2) were measured using the InSpectra™ StO2 Tissue Oxygenation Monitor, Model 650, with a 15 mm optical sensor. A THI normal reference range was established in the thenar eminence (hand) for 434 nonhospitalized human volunteers. In 30 subjects, the thenar THI was also evaluated during 5-minute arterial and venous blood flow occlusions, and with blood volume exsanguination in the hand induced with an Esmarch bandage. In addition, correlation of the THI to blood total hemoglobin concentration (Hbt) was studied in five pigs whose Hbt was isovolumetrically diluted from 13 to 4 g/dl systemically and 0.5 g/dl locally in the hind limb. The sensitivity and specificity of the THI to measure tissue hemoglobin concentration (THC) were characterized in vitro using isolated blood tissue phantoms.ResultsIn human thenar tissue, the average THI was 14.1 ± 1.6 (mean ± standard deviation). The THI extrapolated to 100% blood volume exsanguination was 3.7 ± 2.0 units presumably from myoglobin. On average, the THI increased 1.5 ± 1.0 units with venous occlusion and decreased 4.0 ± 2.0 units with arterial occlusion. In porcine hind limbs, the THI weakly correlated with Hbt (r2 = 0.26) while ΔTHI during venous occlusion had a stronger correlation (r2 = 0.62). In vitro tests indicated that THI strongly correlated (r2 > 0.99) to phantom THC and was insensitive to StO2 changes.ConclusionsSteady-state THI values do not reliably indicate Hbt. The THI is a reproducible quantitative index for THC, and THI trends can discriminate between arterial or venous blood flow occlusions. The THI magnitude permits the estimation of myoglobins contribution to StO2.

Hypothermia Is Associated With Improved Outcomes in a Porcine Model of Hemorrhagic Shock

BACKGROUND : Hypothermia after trauma is, in current medical practice, both avoided and aggressively treated. However, the effects of environmental hypothermia during early resuscitation after hemorrhagic shock have been only poorly characterized. METHODS : The objective of our study was to compare normothermia versus mild and severe levels of hypothermia in a porcine model of hemorrhagic shock. In a prospective survival study, we anesthetized 19 juvenile male pigs (Yorkshire-Landrace, 15-25 kg) and caused them to hemorrhage until their systolic blood pressure was 45 mm Hg to 55 mm Hg for a duration of 45 minutes. Then, we randomized them into three groups (all of which underwent an 8-hour limited resuscitation period) as follows: normothermic (39 degrees C), mildly hypothermic (36 degrees C), and severely hypothermic (33 degrees C). We used ice packs to achieve surface cooling that mimicked environmental hypothermia. After 8 hours, we rewarmed the pigs and fully resuscitated them for 16 hours. We extubated the survivors and observed them for an additional 24 hours, before killing them. RESULTS : Surface cooling resulted in significant reduction in core body temperature. The mortality rate was significantly higher in the normothermic group (60%) than in the two hypothermic groups combined (7%) (p = 0.015) or in the severely hypothermic group (0%) (p = 0.023). Hypothermic animals had significantly lower levels of creatinine kinase, lactate dehydrogenase, and lactate in addition to a lower base deficit after shock. However, severely hypothermic animals required greater volumes of colloid infusion and whole blood transfusion to maintain our target systolic blood pressure and hemoglobin levels when compared with normothermic animals. We saw a strong trend toward decreased oxygen consumption with hypothermia. CONCLUSIONS : In our porcine model, we found that simulating mild and severe levels of environmental hypothermia during early resuscitation after hemorrhage was associated with a significantly decreased mortality rate. Furthermore, markers of cellular stress and organ dysfunction, including lactate levels and the base deficit, were lower in hypothermic animals. Decreasing oxygen consumption with hypothermia may, in part, explain the protective effects observed with hypothermia.

Environmental hypothermia in porcine polytrauma and hemorrhagic shock is safe.

ABSTRACT We have previously demonstrated survival benefit to induced hypothermia in a porcine model of controlled hemorrhagic shock simulating an associated delay to definitive care. In the current study, we wished to evaluate the effects of environmental hypothermia in a porcine model of hemorrhagic shock with the addition of polytrauma. Sixteen pigs were randomized to normothermic (39°C, n = 7) or hypothermic (34°C, n = 9) groups. The model included instrumentation, chest injury (captive bolt device), hemorrhage to systolic blood pressure (SBP) of ∼50 mmHg, and crush liver injury. Animals received limited fluid resuscitation for a 1-h period with goal SBP of greater than 80 mmHg and ice packs or warming blankets to achieve goal temperatures, followed by full resuscitation with goal SBP of greater than 90 mmHg, adequate urine output, and hemoglobin by protocol for 20 h. Survivors were observed for an additional 24 h with end points including mortality, markers of organ injury, and neurologic function. There were no differences in survival between the groups (mortality = 1/9, hypothermia group vs. 2/7, normothermia group, P = 0.39). Markers of organ injury were elevated in the hypothermia group at 24 h after injury but were identical between groups at the end of the experimental protocol (48 h after injury). There were no noted differences in neurologic function between the two groups. Environmental hypothermia in a model of polytrauma and hemorrhagic shock was not associated with worse outcomes.

Noninvasive Tissue Oxygen Saturation Measurements Identify Supply Dependency

BACKGROUND Hemorrhagic shock can lead to multiple organ failure and death. We have previously shown that noninvasive measurement of tissue oxygen saturation (StO(2)) has predictive value for outcomes in patients suffering hemorrhagic shock. Our study objectives were twofold: (1) to compare invasive and noninvasive measurements of local and systemic tissue hemoglobin oxygenation and (2) to compare the effects of various physiologic conditions seen in patients in hemorrhagic shock on tissue hemoglobin oxygenation. MATERIALS AND METHODS We studied pigs in controlled conditions mimicking shock induced by one of the following: hypothermia, isovolemic hemodilution, or manipulations of vascular tone. We obtained both invasive and noninvasive measurements in a hind limb of StO(2), tissue hemoglobin index, femoral artery and venous flows, blood pressures, temperature, pH, pO(2), pCO(2), oxygen saturation, lactate, hemoglobin, and base excess. In all cases, we measured baseline values in both experimental and control hind limbs. RESULTS We found that tissue hemoglobin oxygenation did not vary significantly over relevant physiologic temperatures. Under all physiologic conditions tested, we found supply-dependent oxygen consumption at oxygen levels less than 7 mL O(2)/min/kg. Similarly, we found that local oxygen delivery in animals subjected to varying degrees of isovolemic hemodilution or altered vascular tone was correlated with supply-dependent oxygen consumption, as measured by local noninvasive StO(2). CONCLUSIONS Noninvasive StO(2) measurements are valid and durable over a wide range of physiologic conditions and correlate with invasively-measured oxygen delivery.