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Query: UMLS:C0243026 (
sepsis
)
52,417
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
At 31 critically ill surgical patients who on clinical grounds required fluid therapy, hemodynamic and oxygen transport, responses were measured after volume expansion with 500 ml 6%
HES
450/0,7. There were statistically significant increases in cardiac index (CI) from 3,5 +/- 2,1 to maximal values of 4,4 +/- 0,2 (l/min/m2) and in wedge pressure (WP) from 9,3 +/- 0,7 to maximal values of 13,6 +/- 0,8 (mm Hg) and a significant reduction of systemic vascular resistance index (SVRI) from 2018 +/- 128 to 1641 +/- 102 (dynsec/cm5 m2). There were also observed statistically significant maximal increases of left ventricular stroke work index (LVSWI) from 41 +/- 3,1 to 53 +/- 3,2 (gm/m2) of oxygen delivery (DO2) from 489 +/- 24 to 587 +/- 29 (ml/min/m2) and of oxygen consumption (VO2) from 111 +/- 6 to 130 +/- 7 (ml/min/m2) which took place at the time of the maximum CI-increase. Moreover MAP-, CI- and VO2-responses of patients were stratified according to clinical conditions like time of operation, age, prognosis, ARDS,
sepsis
, hyperdynamic- and blood volume status.
...
PMID:[Reactions of critically ill patients to volume therapy with hydroxyethyl starch (6% HES 450/0.7)]. 242 57
The effect of hemodilution upon lymphocyte transformation was studied in vivo. 20 p.c. of circulating blood volume was replaced by Hydroxyethylstarch 450,000 6%, (
HES
450) and 24 hours later but prior to surgery lymphocyte transformation using PHA was not substantially changed. These findings were in accord with previous in vitro studies. There appeared to be no significant change of the total lymphocyte count, alteration of serum proteins seemed to be proportional presenting a mere dilutional phenomenon. It can thus be concluded that hemodilution does not impair cellular immune defense nor increase the risk for patients prone to
sepsis
or spread of malignancy.
...
PMID:Lymphocyte transformation and isovolemic hemodilution with hydroxyethylstarch 450,000. 619 Jul 50
The protective effects of hydroxyethyl starch-conjugated deferoxamine (HES-DFO), a macromolecular iron chelator, on the initial pathophysiological cascade in septic shock were evaluated following cecal ligation puncture (CLP) in rats. Animals were given an intravenous dose of 3.0 mL of either vehicle (
HES
) or
HES
-DFO immediately following completion of the CLP procedure. Animals were sacrificed 30, 60, 120, and 240 min following CLP, and samples of lung, kidney, bowel, and liver were collected for subsequent analysis of glutathione, myeloperoxidase, and evidence for lipid peroxidation based on measurement of thiobarbituric acid reactive substances and conjugated dienes. In addition, the endotoxin levels were determined in the plasma and histomorphological examination was conducted on tissue samples collected at each time point. At almost all time points, a reduction in lipid peroxidation was noted in the
HES
-DFO-treated rats (p < .05). Glutathione and myoloperoxidase levels were less affected. Lung tissue from animals receiving HEs demonstrated marked microatelectases, septal destruction, and splicing of basal membranes, which were greatly attenuated in animals having received
HES
-DFO. Similarly, tubulotoxic and mitochondrial damages observed in kidney samples from
HES
-treated animals were noticeably reduced in the animals having received the chelator. Liver and gut samples demonstrated unspecific inflammatory injury in both groups of animals. In summary, oxygen radical-mediated tissue damage occurs rapidly following CLP-induced
sepsis
. Based on histological and biochemical endpoints, treatment with the polymeric iron chelator,
HES
-DFO, significantly attenuates systemic oxidant injury, the degree of protection being most impressive in the lung and kidney.
...
PMID:Protective effects of hydroxyethyl starch-deferoxamine in early sepsis. 860
The endothelium plays an important role in the regulation of haemostasis by producing substances such as thrombomodulin (TM). The influence of long-term volume replacement with different types of fluid on the TM-protein C-protein S system was investigated in a prospective, randomized study. Thirty trauma patients and 30 patients suffering from
sepsis
after major surgery received either 10% low-molecular weight (LMW) hydroxyethylstarch solution (
HES
-trauma, n = 15;
HES
-
sepsis
, n = 15) or 20% human albumin (HA-trauma, n = 15; HA-
sepsis
, n = 15) for 5 days to maintain central venous pressure (CVP) between 12 and 16 mm Hg. Plasma concentrations of TM, protein C, (free) protein S and thrombin-antithrombin (TAT) were measured in arterial blood samples obtained on the day of admission to the intensive care unit or on the day of diagnosis of
sepsis
and over the next 5 days. There were no differences between HA- and
HES
-treated trauma patients. Protein C and protein S also did not differ between HA- and
HES
-treatments. At baseline, TM plasma concentrations were increased to > 40 micrograms litre-1 in both
sepsis
groups only. In the HA-
sepsis
group, TM increased significantly (from 48.1 (SD 13.9) to 68.4 (13.0) micrograms litre-1), whereas it remained almost unchanged in the
HES
-
sepsis
group. In
HES
-
sepsis
patients, protein C (from 51.0 (10.1) to 71.9 (8.9)%) and protein S (from 19.0 (6.0) to 40.8 (11.4)%) increased significantly during the study, whereas both remained reduced in HA-patients. TAT (indicating intravascular coagulation) did not differ between the two fluid groups. We conclude that in trauma patients, the type of volume therapy had no influence on the TM-protein C-protein S system. In
sepsis
patients, volume therapy with
HES
was beneficial, whereas infusion of HA had no substantial positive effect on endothelial-associated coagulation.
...
PMID:Does the type of volume therapy influence endothelial-related coagulation in the critically ill? 3286 9
In addition to the invasive haemodynamic monitoring procedures, an on-line assessment of cardiac performance by means of transoesophageal echocardiography might have a certain role in small volume resuscitation of patients with acute respiratory failure or Adult Respiratory Distress Syndrome (ARDS). The goal of this investigation was therefore to determine the effects of a hypertonic hyperoncotic solution, hypertonic hydoxyethl-starch (HHES), (HHES =
HES
[200.000/0.6-0.66; 60 g l-1; Leopold, Graz; Austria] combined with NaCl [75 g l-1) on haemodynamics and cardiac performance using the transoesophageal echocardiography. After institutional approval we investigated 23 patients suffering from septic ARDS after trauma or major surgery during four periods of resuscitation. Phase I = control values after infusion of 20 ml kg-1 crystalloid solution, phase II = 50% hypertonic hydroxyethyl-starch solution (2 ml kg-1), phase III = at the end of HHES (4 ml kg-1), IV = 30 min after the end of HHES. Before HHES-infusion, all patients showed arterial hypotension with mean arterial pressures of 64 +/- 2 mmHg. The infusion of 2 ml kg-1 HHES resulted in a significant increase of systemic and pulmonary arterial pressures over the study period. A significant improvement in cardiac output was associated with increasing stroke volumes, oxygen delivery and oxygen consumption (see Tables 1 and 2). Small volume resuscitation also resulted in significant increases of endsystolic and endiastolic left ventricular areas and the corresponding calculated wall stress (Figs 1-3). We conclude from our preliminary data that when using HHES, only modest fluid resuscitation was sufficient to restore adequate preload and oxygen delivery in patients with
sepsis
-related acute respiratory failure.
...
PMID:Haemodynamic evaluation during small volume resuscitation in patients with acute respiratory failure. 942 32
The dramatic advances that have taken place in recent years in the care of sick and premature infants also have been matched by a similar increase in the use of blood transfusion therapy. Haematological features indicate that a newborn has a blood volume of 85-125 ml/kg the foetal haemoglobin is 60-85% and average Hb in full term infant is 18 gm/dl. By 2-3 months it falls to 11-12 g/dl the main cause of anemia are iron poor diet, weaning diets recurrent or chronic infections and hemolytic episodes in malarious areas. The red cells transfusions are usually top up transfusions, exchange transfusions, partial exchange transfusions. Top up- are for investigational losses and correction of mild degrees of anemias, upto to 5-15 ml/kg. They comprise 90% of all neonatal transfusions and are used in low birth babies in special care units for a maximum of 9-10 episodes. The walk in donor programs once popular are not much in vogue. The threshold for transfusion is 8-10 g/dl Hb for upto 5 weeks. Exchange transfusions are done for correction of anemia, removal of bilirubin, removal of antibodies and replacement of red cells. Ideally plasma reduced red cells that are not older than 5 days are used. It is prepared by removal of 120 ml of standard whole blood donation. The advantage of fresh cells is that hyperkalemia is avoided and good post transfusion survival acceptable red cell oxygen affinity. However it has to be screened for sickle cell disease and G6PD deficiency. Indications for exchange transfusion are kernicterus, neonatal hemolysis, G6PD deficiency, ARDS, neonatal
sepsis
, DIC and neonatal isoimmune thrombocytopaenia. Complications include over transfusion, perforation of major vessels, hypocalcaemia, citrate toxicity, hypothermia, hypoglycaemia, thrombocytopenia, necrotizing enterocolitis, GVHD, bacterial, viral infections. Partial exchange transfusions are done for symptomatic anemia, where Hb<10 g/dl, it is indicated in polycythemia and hyperviscosity syndromes. Exchange volume = Blood volume x (observed Hct-Desired HCt) divided observed Hct. Points to consider-there is weak expression of ABO antigens so particular care while grouping. Transfusing volumes should be 2-5 ml/kg/hour in paediatric bags of 50-100 ml with infusion devices. Platelet transfusion are indicated in neonatal throbocytopaenia, thrombocytopaenia due to
sepsis
, DIC, bacterial pathogens, CMV, TORCHS, Obstetric conditions such as pre eclampsia, intrauterine death abruption placenta birth injury hypoxia schock neonatal iso immune thrombocytopaenia and maternal ITP. Administration 1 RDE/pack per 2.5 kg single dose of fresh platelets less than 24hrs which contains 55 x 10(9) cells. This also contributes fresh plasma so is useful for coagulation defects also, though there is a risk of CMV and GVHD due to leucocyte contamination. Granulocyte concentrate; Gravity leucopheresis-1:8 ratio of 60 ml of 6%
HES
made to stand for 1hr.
...
PMID:Component therapy. 1451 88
There is evidence suggesting that early fluid resuscitation is beneficial in the treatment of septic shock. The question as to which solution should be used remains controversial. Using a porcine septic shock model, we tested the effects of a new synthetic colloid hydroxyethyl starch (
HES
130 kD) and a crystalloid regimen with Ringer's solution (RS) on plasma volume (PV) maintenance as well as on systemic and regional hemodynamics. Fourteen anaesthetized mechanically ventilated pigs received 0.75 g kg body weight of feces into the abdominal cavity to induce
sepsis
. They were randomly allocated to receive 6%
HES
130 kD (n = 5) or RS (n = 5) and were compared with nonseptic controls receiving 6%
HES
130 kD (n = 4). The infusion rate was titrated to maintain a central venous pressure of 12 mmHg. PV was determined by chromium-51-tagged erythrocytes and hematocrit. Albumin escape rate (AER) was calculated using iodine-125-labeled albumin. Arterio-intramucosal pCO2 gap, systemic hemodynamics, and oxygenation were obtained before and 6 h after induction of
sepsis
. AER increased in the
HES
(+38%) and RS groups (+38%) compared with control. PV was reduced in the RS group (-39%), but was maintained in the
HES
group (-1%). After 6 h of
sepsis
,
HES
130 kD-treated animals had a significantly higher cardiac output (166 +/- 28 mL min kg vs. 90 +/- 18 mL min kg, P < 0.05), and a significantly higher mixed-venous oxygen saturation (65% +/- 8% vs. 40% +/- 14%, P < 0.05) than RS animals. In this porcine septic shock model with concomitant capillary leakage syndrome, resuscitation with
HES
130 kD but not RS could maintain PV and preserve systemic hemodynamics and oxygenation.
...
PMID:Resuscitation from septic shock with capillary leakage: hydroxyethyl starch (130 kd), but not Ringer's solution maintains plasma volume and systemic oxygenation. 1517 34
The survey transcript of the VISEP interventional trial "Prospective randomized multicenter study on the influence of colloid vs crystalloid volume resuscitation and of intensive vs conventional insulin therapy on outcome in patients with severe
sepsis
and septic shock" [Clinical trials.gov. identifier: NCT00135473; study start April 2003] comprises, according to the data of the year 2003, methodological shortcomings which challenge a priori the study design and thus the resolution of the purpose of the study, i.e., "determination of the influence of the studied volume and insulin interventions on morbidity and mortality of patients with severe
sepsis
and septic shock". The most important points of criticism are: 1. A volume therapy with exclusively crystalloids or colloids with the chosen colloid hyperoncotic, hyperchloremic
HES
solution (10% hydroxyethyl starch: 10% Hemohes) or the crystalloid solution with high lactate content (Sterofundin) is neither acceptable nor practicable, even if only due to exceeding the maximum dosage as recommended by the manufacturer. 2. The fact known since the year 2001 that high molecular weight, poorly biodegradable
HES
preparations can present an independent risk-factor for acute kidney failure in patients with
sepsis
or septic shock was ignored: the exclusion criterion of a serum-creatinine value of >320 micromol/l (>3.6 mg/dl) was doubled in relation to the manufacturer's specification. 3. The hyperoncotic colloid solution used (10% Hemohes) may only be employed for a brief period: it is highly hyperchloremic and causes extravascular hypohydration with consecutive reduction of renal excretion, which together with
HES
is a fatal combination. 4. The crystalloid solution used, i.e., Sterofundin, which contains 45 mmol/l lactate, is contraindicated with septic shock as it increases the patient's O2 consumption, hinders lactate diagnostics as a hypoxia marker by simultaneous lactate infusion, and through increased gluconeogenesis leads to hyperglycemia, at least with diabetics. 5. It is doubtful whether an intensified insulin therapy (Actrapid) can be successful if insulin is administered simultaneously with iatrogenic hyperglycemia as a result of lactate influx. Due to these flaws in the design of the VISEP trial, the only consequence can be that the results of the survey are unusable, especially with regard to the point "HES and kidney function". Thus, any further advance presentations and interpretations should be shelved in expectation of the authors' publication of all the data, in order to begin further discussions including the flaws in study design listed here.
...
PMID:[The design of the VISEP trial. Critical appraisal]. 1719 28
The Scandinavian Starch for Severe Sepsis / Septic Shock (6S) trial showed that hydroxyethyl starch was harmful compared to Ringer's acetate in patients with severe
sepsis
when used according to clinical practice and in alignment with the recommendations by the manufactures and authorities. The different interpretation by Chapell and Jacob's rely on misreading of the trial publication and is not supported by the trial data. Several hypotheses may be made regarding less harmful ways of using
HES
in critically ill patients, but clinicians, guideline committee members and authorities need to acknowledge that such safer ways have not yet been identified.
...
PMID:Debate on HES safety is important, but must be based on facts. 2432 77
We compared the effects of hypertonic saline 7.2%/6% hydroxyethyl starch (HSS-HES) and isotonic saline 0.9%/6% hydroxyethyl starch (ISS-HES) on ileal microcirculatory blood flow (MBF) at the initial phase of septic shock. Pigs were anesthetized and mechanically ventilated. Catheters were inserted into right atrium, pulmonary artery, carotid artery, and portal vein for hemodynamic measurements and for blood sampling. Ileal mucosal and muscularis MBF was continuously measured by laser Doppler flowmetry (LDF). Septic shock was obtained 240 min after induction of fecal peritonitis; then animals were randomized to receive 10 mL.kg(-1) during 10 min of either HSS-
HES
or ISS-
HES
. Systemic and microcirculatory blood flow as well as systemic metabolism were assessed. Fecal peritonitis promoted a hypodynamic septic shock, with significant reduction of mean arterial pressure (MAP) and cardiac index (CI). Ileal mucosal MBF (-34%) and ileal muscularis MBF (-54%) significantly diminished from baseline. Contrary to ISS-
HES
group, mucosal MBF significantly augmented after HSS-
HES
(+192% at min 150 post-shock) despite low blood pressure. There was weak correlation with CI (r(2)= 0.2, P=0.01) . Muscularis MBF didn't change. HSS-
HES
-treated animals had a significantly higher osmolarity and sodium concentration than ISS-
HES
group. Other variables did not change. Small-volume resuscitation with HSS-
HES
, but not ISS-
HES
, improved ileal microcirculatory impairment in experimental peritonitis model of septic shock even when MAP was low. This beneficial microcirculatory effect could be valuable in the management of early severe
sepsis
.
...
PMID:Small-volume hypertonic saline/pentastarch improves ileal mucosal microcirculation in experimental peritonitis. 2447 Sep 29
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