Preservation of resuspended red cell concentrate. Red cell volume and hemolysis

Sucrose in a concentration of 30 to 50 mmol/l preservation solution (10-20 mmol/l red cell concentrate (RCC) and 3-5 mmol per unit RCC) and an ionic strength of about 0.16 avoid changes of red cell volume during 6 weeks of storage. Increasing sucrose concentrations up to 80 mmol/l RCC decrease the hemolysis. But a sucrose concentration of only 10 mmol/l RCC causes an acceptable low hemolysis rate of 0.25% after 35 days of storage in PCV FENWAL plastic bags. Sucrose can be replaced by mannitol or sorbitol at the same final concentration. Changes in red cell metabolism and viability will not be expected.     

Elimination of saccharose from the blood and its renal excretion following transfusion of buffy coat-free erythrocyte concentrates containing disaccharides

The elimination of sucrose from the blood and its renal excretion was analysed in 108 patients after applying a total of 394 transfusion units (TE), resuspended, buffy-coat-free erythrocyte concentrates (EK) containing 23 mmol of sucrose per TE. In transfusing 3 TE even 90% of the sucrose were eliminated from the blood during the application time and up to 99% within 3 h, nearly 80% were excreted through the kidneys within 12 h. Elimination and excretion were delayed with impaired kidney function. With respect to intravasal elimination of sucrose bilaterally nephrectomized patients have to rely on hemodialysis. Side-effects of sucrose due to extended intravasal and interstitial duration could not be observed in those patients affected with decreased kidney efficiency and after massive transfusions.     

Unusual physiology of scale-less carp,Gymnocypris przewalskii,in Lake Qinghai: a high altitude alkaline saline lake

The scale-less carp (Gymnocypris przewalskii) inhabits Lake Qinghai located on the Qinghai-Tibet plateau (elevation, 3200 m) in western China. The lake waters are alkaline (pH 9.4, titratable alkalinity=30 mmol l(-1)), Mg(2+)-rich (18.7 mmol l(-1)), Ca(2+)-poor (0.30 mmol l(-1)) and saline (9 per thousand ). These fish make annual spawning migrations into freshwater rivers. We investigated the physiology of nitrogen excretion and ionoregulation of fish from the lake and river. Fish from both waters were ammonotelic, although ammonia-N excretion rates were lower in lake fish (175 vs. 344 micromol kg(-1) h(-1), P<0.05) resulting in unusually high levels of ammonia in blood plasma (2.23 vs. 0.32 mmol l(-1)), bile, liver, muscle and brain. Exposure to 0.4 mmol l(-1) total ammonia in lake water ([NH(3)]=0.16 mmol l(-1)) killed fish within 8 h. River fish survived exposure to 1.0 mmol l(-1) total ammonia in river water at pH 8.0 ([NH(3)]=0.023 mmol l(-1)) for 24 h suggesting high ammonia tolerance in lake fish. High glutamate dehydrogenase and glutamine synthetase activities in tissues probably allow the fish to alleviate ammonia toxicity by amino acid accumulation. Neither lake nor river fish relied on urea excretion to remove excess N. Urea-N excretion rates were below 20 micromol kg(-1) h(-1) for both groups, and levels of urea in plasma and tissues were moderate. When exposed to elevated ammonia, urea-N excretion increased slightly (approximately 50 micromol kg(-1) h(-1)) and liver and muscle urea levels increased in the river fish. Plasma ion levels were within the range typical of cyprinids, but river fish had significantly higher plasma [Na(+)] and [Cl(-)] and lower [K(+)] than fish from the lake. During 48-h lake-to-river water transfer, plasma Na(+) and Cl(-) levels rose significantly. Significantly higher Na(+)/K(+)-ATPase activity in the gills of river fish may be related to the higher plasma ion levels. Plasma [Mg(2+)] and [Ca(2+)] were tightly regulated despite the great differences in the lake and river water levels.     

Preservation of resuspended red cell concentrate. Metabolism and survival rate of stored red cells

The sucrose-poor, electrolyte-rich SAG-sucrose preservation solution for red cell concentrates (RCC) proves to be superior to the sucrose-rich electrolyte-poor CDS-AG solution. After 35 days about 50% of the initial ATP were found and the 24 hours posttransfusion survival rate amounted to 76%. The replacement of sucrose by mannitol or sorbitol did not influence the metabolism of red cells. Guanosine-final concentration 0.4 mmol/l RCC-slightly improved the maintenance of ATP and morphology.     

Natriuresis induced by mild hypernatremia in humans

The hypothesis that increases in plasma sodium induce natriuresis independently of changes in body fluid volume was tested in six slightly dehydrated seated subjects on controlled sodium intake (150 mmol/day). NaCl (3.85 mmol/kg) was infused intravenously over 90 min as isotonic (Iso) or as hypertonic saline (Hyper, 855 mmol/l). After Hyper, plasma sodium increased by 3% (142.0 +/- 0.6 to 146.2 +/- 0.5 mmol/l). During Iso a small decrease occurred (142.3 +/- 0.6 to 140.3 +/- 0.7 mmol/l). Iso increased estimates of plasma volume significantly more than Hyper. However, renal sodium excretion increased significantly more with Hyper (291 +/- 25 vs. 199 +/- 24 micromol/min). This excess was not mediated by arterial pressure, which actually decreased slightly. Creatinine clearance did not change measurably. Plasma renin activity, ANG II, and aldosterone decreased very similarly in Iso and Hyper. Plasma atrial natriuretic peptide remained unchanged, whereas plasma vasopressin increased with Hyper (1.4 +/- 0.4 to 3.1 +/- 0.5 pg/ml) and decreased (1.3 +/- 0.4 to 0.6 +/- 0.1 pg/ml) after Iso. In conclusion, the natriuretic response to Hyper was 50% larger than to Iso, indicating that renal sodium excretion may be determined partly by plasma sodium concentration. The mechanism is uncertain but appears independent of changes in blood pressure, glomerular filtration rate, the renin system, and atrial natriuretic peptide.     

Mechanisms of hypophosphatemia in humans with heatstroke

Hypophosphatemia is common in heatstroke, but little is known about its mechanism. We investigated 10 consecutive patients with heatstroke (mean age 58 +/- 2 yr) whose mean rectal temperature at admission was 42.3 +/- 0.2 degrees C. Eight patients presented with hypophosphatemia [0.48 +/- 0.08 mmol/l, normal range (NR) 0.8-1.4 mmol/l], associated with increased fractional excretion of phosphate (19.8 +/- 6.4%, NR 6-20%) relative to plasma phosphate levels and reduced renal threshold for phosphate (0.55 +/- 0.08 mmol/l glomerular filtrate, NR 0.8-1.4 mmol/l). Plasma parathyroid hormone (75.0 +/- 5 pmol/l) and calcium (2.24 +/- 0.02 mmol/l) levels and fractional excretion of calcium were normal (1.66 +/- 0.27%). There was no evidence of uricosuria or aminoaciduria, and only one patient had glucosuria. Arterial carbon dioxide was decreased in eight patients (28 +/- 1.1 Torr); however, none had elevated blood pH (7.35 +/- 0.02). The results suggest that heatstroke-related hypophosphatemia is associated with abnormal phosphaturia independent of the parathyroid hormone level, and there is no evidence of tubular dysfunction.     

Effect of acarbose on the increased plasma concentration of uric acid induced by sucrose ingestion

Sucrose is converted fructose and glucose, which may increase plasma uric acid concentration (pUA) through increased purine degradation and/or decreased uric acid (UA) excretion. To investigate effects of acarbose, an inhibitor of alpha-glucosidase, on the increased pUA from sucrose administration, we measured pUA and urinary UA excretion in 6 healthy subjects before and after administering sucrose, with and without co-administration of acarbose. Sucrose raised pUA by 10% (p < 0.01). However, excretion and fractional clearance of UA were unchanged. Sucrose and acarbose coadministration also increased pUA, but less than did sucrose alone (sucrose: 4.9 to 5.4 mg/dl; sucrose + acarbose, 4.7 to 4.9 mg/dl, p < 0.05) without changes in urinary excretion and fractional clearance of UA. Acarbose appears to attenuate the rise in pUA by sucrose ingestion by inhibiting sucrose absorption.     

Effects of truncated angiotensins in humans after double blockade of the renin system

Angiotensins different from ANG II exhibit biological activities, possibly mediated via receptors other than ANG II receptors. We studied the effects of 3-h infusions of ANG III, ANG-(1-7), and ANG IV in doses equimolar to physiological amounts of ANG II (3 pmol. kg-1. min-1), in six men on low-sodium diet (30 mmol/day). The subjects were acutely pretreated with canrenoate and captopril to inhibit aldosterone actions and ANG II synthesis, respectively. ANG II infusion increased plasma angiotensin immunoreactivity to 53 +/- 6 pg/ml (+490%), plasma aldosterone to 342 +/- 38 pg/ml (+109%), and blood pressure by 27%. Glomerular filtration rate decreased by 16%. Concomitantly, clearance of endogenous lithium fell by 66%, and fractional proximal reabsorption of sodium increased from 77 to 92%; absolute proximal reabsorption rate of sodium remained constant. ANG II decreased sodium excretion by 70%, potassium excretion by 50%, and urine flow by 80%, whereas urine osmolality increased. ANG III also increased plasma aldosterone markedly (+45%), however, without measurable changes in angiotensin immunoreactivity, glomerular filtration rate, or renal excretion rates. During vehicle infusion, plasma renin activity decreased markedly ( approximately 700 to approximately 200 mIU/l); only ANG II enhanced this decrease. ANG-(1-7) and ANG IV did not change any of the measured variables persistently. It is concluded that 1) ANG III and ANG IV are cleared much faster from plasma than ANG II, 2) ANG II causes hypofiltration, urinary concentration, and sodium and potassium retention at constant plasma concentrations of vasopressin and atrial natriuretic peptide, and 3) a very small increase in the concentration of ANG III, undetectable by usual techniques, may increase aldosterone secretion substantially.     

Fermentation pattern of Zymomonas mobilis at high sucrose concentrations

Summary Zymomonas mobilis was grown in batch concentrations between 200 and 400 g/l sucrose. The fermentation pattern revealed that the efficiency of sucrose hydrolysis dropped only from 94 to 78.6% whereas the efficiency with which the hydrolyzed products were converted to ethanol decreased from 94 to 43%. The ethanol yields were relatively constant for final concentrations which lay between 80 and 132 g/l. Fermentation times increased to 72 hours at the higher sucrose concentrations. Sorbitol and fructose were identified as the major by-products. Preliminary evidence suggests that the ratio between the two by-products depends on the pH of the culture medium. Results suggest the possibility of processes producing ethanol plus fructose, ethanol plus fructose and sorbitol, or ethanol plus sorbitol in a single-stage batch fermentation.     

The effect of plasma potassium in determining normal rates of excretion of potassium in dogs.

Doses of 5-15 mmol KCl or KHCO3 (less than the daily intake in food) given by stomach tube or intravenous infusion, produced increases in plasma K and in K excretion, the time delay between change in plasma K and rate of excretion being minimal. Without doses of K salts in control experiments, plasma K concentration was about 4 mmol/1 and K excretion about 5 mumol/min. After doses of KCl or KHCO3, plasma K and rate of excretion of K both increased, increase of 0-5 mmol/1 in plasma K being associated with an increase of about 35 mumo1/min in K excretion. Increased excretion of K was accompanied by a small increase in Na excretion. Excretion of both C1 and HCO3 increased, C1 more after HCO3 more after KHCO3. The results indicate that within normal ranges, plasma K is an important factor determining the rate of excretion of K.     

Production of beta-fructofuranosidase with transfructosylating activity for fructooligosaccharides synthesis by Aspergillus japonicus NTU-1249.

Microbial beta-fructofuranosidases with transfructosylating activity can catalyze the transfructosylation of sucrose and synthesize fructooligosaccharides. Aspergillus japonicus NTU-1249 isolated from natural habitat was found to produce a significant amount of beta-fructofuranosidase with high transfructosylating activity and to have the potential for industrial production of fructooligosaccharides. In order to improve it's enzyme productivity, the medium composition and the cultivation conditions for A. japonicus NTU-1249 were studied. A. japonicus NTU-1249 can produce 83.5 units of transfructosylating activity per ml broth when cultivated in a shaking flask at 28 degrees C for 72 hours with a modified medium containing 80 g/l sucrose, 15 g/l soybean flour, 5 g/l yeast extract and 5 g/l NaCl at an initial pH of 6.0. The enzyme productivity was also optimized by submerged cultivation in a 5-litre jar fermentor with aeration at 1.5 vvm and agitation at 500 rpm. Under these operating conditions, the productivity of transfructosylating activity increased to 185.6 U/ml. Furthermore, the transfructosylating activity was improved to 256.1 U/ml in 1,000-litre pilot-scale fermentor. Enzymatic synthesis of fructooligosaccharides by beta-fructofuranosidase from A. japonicus NTU-1249 was performed in batch type by adding 5.6 units of transfructosylating activity per gram of sucrose to a 50% (w/v) sucrose solution at pH 5.0 and 50 degrees C. The yield of fructooligosaccharides was about 60% after reaction for 24 hours, and the syrup produced contained 29.8% (w/v) fructooligosaccharides, 15.2% (w/v) glucose and 5.0% (w/v) sucrose.     

The effects of exogenous extracellular carbonic anhydrase on CO2 excretion in rainbow trout (Oncorhynchus mykiss): role of plasma buffering capacity

The buffering capacity (beta) of rainbow trout (Oncorhynchus mykiss) plasma was manipulated prior to intravascular injection of bovine carbonic anhydrase to test the idea that proton (H+) availability limits the catalysed dehydration of HCO3- within the extracellular compartment. An extracorporeal blood shunt was employed to continuously monitor blood gases in vivo in fish exhibiting normal plasma beta (-3.9+/-0.3 mmol 1(-1) pH unit(-1)), and in fish with experimentally (using N-[2-hydroxyethyl]piperazine-N'-[2-ethanesulfonic acid]) elevated plasma beta (-12.1+/-1.1 mmol 1(-1) pH unit(-1)). An injection of 5 mg kg(-1) carbonic anhydrase equally reduced (after 90 min) the arterial partial pressure of CO2 in trout with regular (-0.23+/-0.05 Torr) or high (-0.20+/-0.05 Torr) plasma beta; saline injection was without effect. Because ventilation and venous blood gases were unaffected by carbonic anhydrase, the effect of extracellular carbonic anhydrase in lowering arterial partial pressure of CO2 was likely caused solely by a specific enhancement of CO2 excretion owing to acceleration of HCO3- dehydration within the plasma. The lowering of arterial partial pressure of CO2 in trout after injection of exogenous carbonic anhydrase provides the first in vivo evidence that the accessibility of plasma HCO3- to red blood cell carbonic anhydrase constrains CO2 excretion under resting conditions. Because the velocity of red blood cell Cl-/HCO3- exchange governs HCO3- accessibility to red blood cell carbonic anhydrase, the present study also provides evidence that CO2 excretion at rest is limited by the relatively slow rate of Cl-/HCO3- exchange. The effect of carbonic anhydrase in lowering arterial partial pressure of CO2 was unrelated to plasma buffering capacity. While these data could suggest that H+ availability does not limit extracellular HCO3- dehydration in vivo at resting rates of CO2 excretion, it is more likely that the degree to which plasma beta was elevated in the present study was insufficient to drive a substantially increased component of HCO3- dehydration through the plasma.     

Quantification and kinetics of purine catabolism in Dalmatian dogs at low and high purine intakes

1. In eight Dalmatian dogs low and high purine intakes resulted in plasma urate levels from 25 to 185 mumol/l. 2. The relationship between purine intake and excretion of uric acid and allantoin per day was described by linear regression equations. 3. The elimination of endogenous purines was 1.8 mmol/day for urate and 1.7 mmol/day for allantoin. Exogenous purines increased renal excretion by 0.57 mmol/mmol. 4. Kinetic measurements with [2(-14)C]uric acid infused continuously into each of two dogs on low and high purine revealed increases of plasma pool (urate + allantoin) of 3.3 fold and entry rate of 4.0 fold. Conversion of urate into allantoin increased from 20 to 36%. 5. Renal elimination of catabolites increased 3.3 fold and exhalation rate of purine-CO2 379 fold. Extra-renal elimination at high purine intake was quantitatively similar to humans and closely related to pool size.     

The effect of pH,temperature and sucrose concentration on high productivity continuous ethanol fermentation using Zymomonas mobilis

Summary A flocculent strain of Zymomonas mobilis was used for ethanol production from sucrose. Using a fermentor with cell recycle (internal and external settler) high sugar conversion and ethanol productivity were obtained. At a dilution rate of 0.5 h^-1 (giving 96% sugar conversion) the ethanol productivity, yield and concentrations respectively were 20 g/l/h, 0.45 g/g and 40 g/l using a medium containing 100 g/l sucrose. At a sucrose concentration of 150 g/l, the ethanol concentration reached 60 g/l. The ethanol yield was 80% theoretical due to levan and fructo-oligomer formation. No sorbitol was detected. This fermentation was conducted at a range of conditions from 30 to 36°C and from pH 4.0 to 5.5.     

Importance of invertase activity for gluconic acid production from sucrose by aspergillus niger

The excretion, cellular distribution and pH profiles of invertase in Aspergillus niger CCM 8004 were characterized. An optimized pH control was proposed for conversion of sucrose to gluconic acid and fructose: pH was maintained at 4.5 until the 12th hour and at 5.5 from the 12th hour of fermentation. 300 g · dm³ of sucrose was converted within 31 hours by this procedure.     

Soybean somatic embryogenesis: interactions between sucrose and auxin

The interaction between sucrose and auxin in soybean (Glycine max L. Merr.) somatic embryogenesis was investigated by culturing immature cotyledon explants on factorial combinations of NAA (6.25, 12.5, 25 and 50 mg/l) and sucrose (0.5, 1, 2 and 4%). A significant interaction between sugar and auxin was observed; balanced concentrations of the two components were required for optimal embryo production and normality. The highest numbers of normal somatic embryos were produced on media which contained combinations of low to intermediate levels of sucrose (1 or 2%) and NAA (6.25 or 12.5 mg/l). Cotyledon explants from induction media having a low (0.5%) sucrose content showed the most efficient embryogenesis in secondary culture. The highest frequencies of germination (32 to 41%) were seen among embryos induced on media containing 0.5% sucrose.Abbreviations BAP 6-benzylaminopurine - NAA 1-naphthaleneacetic acid This paper (No. 88-3-161) is published with the approval of the Director of the Kentucky Agricultural Experiment Station.     

Rapid ethanol production from sucrose without by-product formation

Summary Non-sorbitol-producing Zymomonas mobilis ACM 3963 was developed from Z. mobilis UQM 2716. This strain was co-immobilised with invertase in alginate and incubated on sucrose-based media. This combination allowed theoretical yields of ethanol to be produced from 100 and 150 g/l sucrose, using both semi-defined media and sugar-cane syrup. No sorbitol or fructo-oligosaccharides were formed in either fermentation. Increased biomass concentrations immobilised in alginate reduced the batch fermentation times of 100 and 150 g/l sucrose by 50–70%, to 3 and 5 hours respectively. This strain also improved the efficiency of the fed-batch fermentation of sucrose.     

Effects of different saccharose and electrolyte concentrations on preserved erythrocytes

Preservation solutions for buffy coat-free red cell concentrates with sucrose concentrations from 234 decreasing up to 15 mmol per 1 solution were tested. The hemolysis rate increased from 0.5 up to 1.9% by decreasing the sucrose concentration. The red cell volume was unchanged at low sucrose concentrations. No differences were noticed in ATP content and morphological changes. A considerable extracellular pH shift at high sucrose concentration exists only at the beginning of storage. A sucrose concentration of 30-50 mmol/l solution (3-5 mmol per unit red cell concentrate) at an ionic strength of 0.16 proves to be most suitable.     

Differential adaptation of membranes of two osmotolerant fungi,Aspergillus chevalieri and Penicillium expansum to high sucrose concentrations

Aspergillus chevalieri and Penicillium expansum were able to tolerate sucrose concentrations in the growth media up to 80% (w/v). At 50% sucrose the growth rate is approximately 1.4 and 1.2 times, respectively, higher than in the control. While at 80% sucrose it drops to 35% and 45% of the control level for both fungi. Lipids and proteins in plasma membranes increased with increasing sucrose concentrations in the growth medium. Phospholipid content in membranes of both organisms being also increased, phosphatidyl glycerol was the major detected phospholipid and represented the highest increase. The fatty acid composition of fraction enriched plasma membrane of both fungi changed when they were grown in high sucrose concentrations. Some fatty acids which had not been detected in control cultures were present and the proportions of other fatty acids changed. At 50% sucrose the unsaturation index of membranes decreased by 20-25% in both fungi, indicating that the plasma membrane is less fluid at this concentration. At 80% sucrose a similar trend was observed for P. expansum but for A. chevalieri the unsaturation index was little changed compared with the control. The fluorescence polarization values of 1,6-diphenyl 1,3,5-hexatriene (DPH) in membranes of both fungi grown at 80% sucrose increased, indicating a decrease in membrane fluidity. At 50% sucrose the increase in saturation of membrane fatty acids would tend to reduce membrane fluidity but in A. chevalieri at 80% sucrose fatty acids did not become more saturated. In this case the marked increase in sterols at this sucrose concentration may be responsible for low membrane fluidity.     

A method of sodium and potassium determination in red cells with a simple cell separation technique

Heparinized blood was centrifuged repeatedly in Eppendorf's test tubes at 7,500 g in the Unipan microcentrifuge type 320. Packed red cells were hemolysed, then sodium and potassium were determined by means of the flame photometer. The percentage of trapped plasma determined with indocyanine green amounted to on average 1 per cent. There was a good precision of the method controlled on 20 aliquots of the same blood sample. Results of red cell sodium and potassium in 80 healthy volunteers were 10.42 +/- 1.56 mmol/l and 87.8 +/- 4.03 mmol/l respectively. No significant changes in the red cell sodium and potassium concentration were observed in heparinized blood during 5 hours storage at room temperature. The method cannot be used interchangeably with the method of Helbock and Brown, since the correlation coefficients were too low in parallel examinations.