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Availability and toxicological effects of low levels of biologically bound cadmium (1987)

Weigel, H. J. ; Ilge, D. ; Elmadfa, I. ; [et al.]

Springer

Archives of environmental contamination and toxicology 16 (1987), S. 85-93

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ISSN: 1432-0703

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering , Medicine

Notes: Abstract Rats were fed a casein based diet containing Cd biologically bound in ryegrass (Lolium multiflorum L. ssp. italicum) for eight weeks. The grass portion in the diet was 20% (w/w). Cd concentrations of the respective diets were (μg/g diet): 0.24 (control group Cd=0), 0.85 (group Cd=1) and 2.25 (group Cd=2). After six weeks on the diets, food intake and body weight were reduced by the low dietary Cd concentration (Cd=1), while in treatment group Cd=2 this occurred after 2 weeks. After an 8-week feeding period the concentrations of Cd, Cu, Zn, Fe and Ca in selected organs, tissues and in the excreta of rats beside whole body element contents were determined. While no elevated Cd levels due to the Cd intoxication were found in skin, lung, blood, testes, muscle and urine, Cd concentrations in liver, kidney and spleen increased in a dose-dependent manner. This was also true for whole body Cd and Cd in faeces, the latter being 27.6 fold higher in the high Cd load (Cd=2) as compared to the controls (Cd=0). Highest Cd concentrations were recorded in liver and kidney. Calculated as percentage of the whole body metal content liver Cd increased from 1.49% (Cd=0) to 7.41% (Cd=2) and kidney Cd from 0.65% to 4.87%. While no changes of the Ca levels in all organs and tissues investigated were observed, liver Zn increased and blood Cu decreased. Copper and Zn increased in faeces and decreased in urine. With the exception of skin and lung, a significant loss of Fe was observed in all organs and tissues, which was most evident in treatment group Cd=2. Depending on the Cd dose applied, reduced fecal and urinary Fe excretion occurred. Hematological parameters (hemoglobin, hematocrit, blood glucose) and serum enzyme activities (alkaline phosphatase, aspartate aminotransferase, alanine aminotransferase, γ-glutamyl transferase) were not affected by Cd in a biologically bound form. Serum alanine amino transferase showed slightly lower activities in treatment groups Cd=1 and Cd=2. Analysis of the glucose concentration and the activity of alkaline phosphatase in urine did not reveal any changes due to the Cd intoxication. Accumulation and toxicological effects of Cd biologically bound in ryegrass are discussed in relation to inorganic forms of the metal administered to mammals.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01055363

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Polychlorinated biphenyl congeners in Foxes in Germany from 1983 to 1991 (1994)

Georgii, S. ; Bachour, Gh. ; Failing, K. ; [et al.]

Springer

Archives of environmental contamination and toxicology 26 (1994), S. 1-6

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ISSN: 1432-0703

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering , Medicine

Notes: Abstract Red foxes served as a biological indicator for the temporal development of environmental contamination with polychlorinated biphenyls (PCB). The concentration of PCB congeners nos. 28, 49, 52, 101, 138, 153, and 180 were analyzed in the body fat of 80 foxes (Canis vulpes) from Germany. The samples were from animals that had been submitted for examination in 1983, 1987, and 1991. Throughout this time period, a reduction was seen in the concentration of the highly chlorinated biphenyls 138, 153, and 180, whereas the concentration of the low-chlorinated congeners PCB nos. 28, 49, and 52 increased. No change in contamination with congener 101 was observed. These results show a trend toward reduction of environmental contamination with highly-chlorinated biphenyls since 1983, while contamination with low-chlorinated congeners is apparently increasing. An interesting observation is the disproportionately higher amount of 2,2′,3,4,4′,5,5′-hepatachlorobiphenyl (PCB 180) over that of 2,2′,4,4′,5,5′-hexachlorobiphenyl (PCB 153) in body-fat samples from all foxes analyzed. This phenomenon was also observed in 10 dogs examined as controls. Based on evidence from other authors of experimental toxicological studies on beagles, it appears that the fox possesses a similar cytochrome P-450 isoenzyme that can degrade 2,4,5-trichloro-substituted aromatic compounds. As a consequence, in canines, PCB 180 which is additionally meta-chloro substituted is accumulated to a greater degree than is PCB 153.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00212786

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Cadmium accumulation in rat organs after extended oral administration with low concentrations of cadmium oxide (1984)

Weigel, H. J. ; Jäger, H. J. ; Elmadfa, I.

Springer

Archives of environmental contamination and toxicology 13 (1984), S. 279-287

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ISSN: 1432-0703

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering , Medicine

Notes: Abstract Rats were exposed to dietary cadmium oxide (CdO) (2.80 and 7.15 ppm Cd) for 60 days. Between days 20 and 36 of the feeding experiment, only 7.15 ppm Cd significantly reduced body weight, while an improved food utilization was recorded at both dietary Cd concentrations between days 36 and 50. After 40 and 60 days of exposure, Cd concentrations of selected organs and tissues and the excreta were recorded by atomic absorption spectroscopy. Compared to the control animals, Cd levels of hair, bone (femur), blood, and testes did not increase. Soft tissues (liver, kidney, lung, and spleen) displayed significantly elevated Cd concentrations after 40 and 60 days in both dosage groups. An increased level of Cd in muscle was observed in one group only (7.15 ppm, day 40). Maximum Cd levels were 11.6 ppm in liver and 9.75 ppm in kidney on a dry weight basis, reflecting a 68- and 50-fold accumulation of the metal compared to the controls. Only absolute weights of lung and liver decreased slightly in the higher dosage group, while relative weights of all organs investigated were not affected by Cd. The ratios in fecal Cd levels between control and CdO-treated animals partly reflected the Cd concentration ratio between the respective diets. No increase in the urinary Cd level was found during the feeding trial. The significance of Cd accumulation in organs, tissues, and excreta and their value as indicators for CdO exposure are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01055278

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The effect of low doses of dietary cadmium oxide on the disposition of trace elements (zinc, copper, iron), hematological parameters, and liver function in rats (1984)

Weigel, H. J. ; Elmadfa, I. ; Jäger, H. J.

Springer

Archives of environmental contamination and toxicology 13 (1984), S. 289-296

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ISSN: 1432-0703

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering , Medicine

Notes: Abstract The Zn, Cu, and Fe concentrations in selected organs, tissues and in the excreta of male Wistar rats, exposed to dietary CdO (2.80 and 7.15 ppm) for 40 and 60 days, were investigated. Concomitantly hematological values and serum enzyme activities were recorded. Zn levels of spleen, kidney, testes, muscle and feces were not affected by the Cd treatment. After 40 days of Cd exposure, the Zn concentration in the hair decreased, while the Zn level of the lung slightly increased. During the feeding trial, Cd produced an increase of liver Zn by about 24%. Femur Zn decreased and Zn in urine increased after 60 days of exposure to 7.15 ppm Cd. Except in hair and urine, the Cu concentration in all organs and tissues investigated remained unchanged. Hair Cu levels decreased after 40 days of Cd exposure but increased after 60 days. At this time, elevated Cu concentration in urine was recorded. After exposure to 7.15 ppm Cd, the Fe content of the lung, liver, spleen, testes, muscle, femur and blood decreased significantly. After 60 days on the 7.15 ppm diet, highest reductions (30%–60%) of Fe content were recorded in the lung, liver, and spleen. Similar to Zn and Cu, the Fe concentration in urine increased at that time. No changes were found in the Fe content of hair, kidney, and feces. In spite of a disturbed Fe metabolism, an anaemic response of Cd-treated rats was not observed. Hematocrit and hemoglobin remained unchanged and the number of red blood cells slightly increased after 40 days of Cd exposure. While the activity of serum alkaline phosphatase was not affected by dietary Cd, the activities of serum-GOT and serum-GPT increased after exposure to 7.15 ppm Cd indicating disturbed hepatic functions.

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URL: http://dx.doi.org/10.1007/BF01055279

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Species and Organ Dependence of PCB Contamination in Fish, Foxes, Roe Deer, and Humans (1998)

Bachour, G. ; Failing, K. ; Georgii, S. ; [et al.]

Springer

Archives of environmental contamination and toxicology 35 (1998), S. 666-673

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ISSN: 1432-0703

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering , Medicine

Notes: Abstract. According to previous experimental results, PCBs are deposited in muscle fat in animals and in humans, although they also reach the brain, the liver, and the lungs. The aim of the present study was to determine the concentrations of the so-called “indicator PCBs” (PCB nos. 28, 52, 101, 138, 153, 180), as described by the German ordinance for maximum concentrations of contaminants in foodstuffs, in muscle tissue, liver, and brain of four different species: fish, fox, roe deer, and humans, all exposed to PCBs directly in their environment. Potential target organs for the accumulation of these congeners were also to be identified. Furthermore, the organs or tissues were to be identified in which PCBs are accumulated, and unusual patterns of accumulation or breakdown of particular PCBs, for example the “dioxin-like PCBs” (coplanar PCBs) determined. For humans, the lungs were also included in these studies. Statistical comparison of PCB concentrations in samples from wild animals and humans showed that in spite of its relatively high fat concentration, brain tissue in all of the species examined (with the exception of fish) appeared to be better protected against accumulation of PCB than liver or muscle tissue. This protection may be the result of the blood-brain barrier, as witnessed by the relatively uniform concentration of PCBs throughout the various organs of fish, since the blood-brain barrier of fish is considerably less efficient than that of mammals. No peculiarities were found in regard to distribution of the coplanar PCBs over the other congeners in this study. This applies to the brain and other organs or tissues of the four species that were examined. Accumulations of PCBs and coplanar PCBs in the liver were only found in fox and roe deer. In contrast, humans were found to have accumulations of the high-chlorinated biphenyls studied here as well as PCB no. 118 in muscle tissue fat and not in the liver. Unexpectedly, low-chlorinated biphenyls were found to accumulate in the human lung. The results of this study show that the lung represents a target organ for the accumulation of potentially metabolically activated low-chlorinated biphenyls, indicating that the possible biological effects of PCBs on the lungs will need to receive more attention in the future.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002449900429

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Die Bedeutung unverseifbarer Nahrungsfettbestandteile für die Bioaktivität von Vitamin E (1983)

Koop, R. ; Elmadfa, I.

Springer

European journal of nutrition 22 (1983), S. 271-286

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ISSN: 1436-6215

Keywords: Tocopherole ; Ubichinone ; β-Sitosterin ; Fettarten ; Vitamin-EStatus ; Ratte

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition , Medicine

Description / Table of Contents: Summary In experiments with male Wistar rats the influence of the non-saponifiable constituents of dietary fats: dl-α-tocopherol (60 ppm), dl-γ-tocopherol (480 ppm), ubiquinone (96 ppm) and β-sitosterol (3035 ppm) on the tocopherol status was investigated, considering the fatty acid composition of the tested fats. For a test period of eight weeks the animals were fed isoenergetic diets containing three types of dietary fats: corn oil (60% PUFA), a kind of “stripped corn oil” (60 % PUFA) and butter (nearly 5% PUFA). Independent of the PUFA-content of the diet, the tocopherol supplementations were able to stabilize the erythrocyte membrane; the calculated hemolysis rates were about 2%. The absence of tocopherols in the diets (“stripped corn oil”, butter) caused an increase of the hemolysis rate up to 70% after two weeks. The original amounts of tocopherols in corn oil tended to minimize the hemolysis. Ubiquinone and β-sitosterol did not reduce the hemolysis rates when they were applied without tocopherols. With respect to creatine-phosphokinase activity, creatine and creatinine excretion the results were similar. Plasma and erythrocyte levels of α- and γ-tocopherol were determined in all groups and discussed in connection with the other examined parameters of tocopherol status. The ultimate result of this experiment is that the content of tocopherols in dietary fats is not always adequate to keep vitamin E status normal, especially if polyunsaturated fatty acid content is high in the diet. Reflecting the vitamin E adequacy of dietary fats, not only α-tocopherol but also γ-tocopherol should be much more considered than previously.

Notes: Zusammenfassung In Experimenten an männlichen Wistar-Ratten wurde die Wirkung der unverseifbaren Komponenten DL-α-Tocopherol (60 ppm), DL-γ-Tocopherol (480 ppm), Ubichinon (96 ppm), β-Sitosterin (3035 ppm) auf den Tocopherolstatus in Abhängigkeit vom Fettsäuremuster der zugeführten Nahrungsfette getestet. Über einen Versuchszeitraum von acht Wochen wurden die Tiere mit isoenergetischen Diäten ernährt, die als Fettart Maisöl (60% PFS), synthetisches Triglyceridgemisch (Fettsäuremuster wie Maisöl) oder Butter (5% PFS) enthielten. Unabhängig vom Polyenfettsäuregehalt der Kost lag die Hämolyserate der Erythrozyten bei α- und γ-Tocopherolgaben im Normalbereich. Das Fehlen dieser Komponenten schlug sich bei den T- und B-Gruppen in einer über 70 %igen Hämolyserate schon nach der zweiten Woche nieder. Die maisöleigenen Tocopherolgehalte konnten die Hämolyserate abschwächen. Keinen Einfluß auf die Membranstabilität hatten Ubichinon und β-Sitosterin, wenn sie ohne Tocopherole verabreicht wurden. Entsprechende Resultate erbrachten die Messungen der Creatinkinaseaktivität und der Creatin- und Creatininausscheidung. Die α- und γ-Tocopherolgehalte von Plasma und Erythrozyten wurden für alle Gruppen bestimmt und in Bezug zu den anderen Parametern diskutiert. Die Ergebnisse zeigen, daß die Tocopherolgehalte von Nahrungsfetten nicht immer ausreichend sind, um einen normalen Tocopherolstatus aufrechtzuerhalten. Dies trifft besonders zu, wenn der Polyenfettsäuregehalt der Nahrung zu hoch ist. Für die Beurteilung des Vitamin-E-Gehaltes eines Nahrungsfettes sollte neben dem α-Tocopherol auch das γ-Tocopherol mehr Beachtung finden als bisher.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02023859

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Einfluß von α- und γ-Tocopherol sowie Cholesterin auf die Lipidperoxidation (1986)

Landvogt, C. ; Elmadfa, I.

Springer

European journal of nutrition 25 (1986), S. 47-62

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ISSN: 1436-6215

Keywords: Tocopherole ; Lipidperoxidation ; Vitamin-E-Status ; Ratte

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition , Medicine

Description / Table of Contents: Summary For a period of 15 weeks growing rats were fed low fat diets containing equimolar doses of α- and γ-tocopherol (180 and 174 ppm) as well as mixtures of α- and γ-tocopherol (3∶1; 1∶1; 1∶3) without cholesterol or with 1% cholesterol. The influence of these supplements on lipid peroxidation and tocopherol retention in the liver were investigated. The tocopherol status was estimated by measuring the activities of creatine kinase and transaminases (GOT, GPT) in plasma as well as by in vitro hemolysis of erythrocytes. The in vitro hemolysis rate was only lowered by α-tocopherol and the mixtures of α- and γ-tocopherol. In response to lipid peroxidation in the liver, α-tocopherol was the more efficient antioxidant, whereas γ-tocopherol was more efficient in the diet. Cholesterol had a lowering effect on lipid peroxidation in vitro and in vivo; cholesterol in combination with α-tocopherol had a stabilizing effect on the erythrocyte membrane. Moreover, there was a positive effect of cholesterol on tocopherol retention in the liver. The biological activity of γ-tocopherol in relation to α-tocopherol was calculated according to the test criterium; it ranged from 22 to 100%.

Notes: Zusammenfassung In einer 15wöchigen Ernährungsstudie an Ratten wurde der Einfluß äquimolarer Mengen an α- und γ-Tocopherol (180 bzw. 174 ppm) sowie Mischungen aus α- und γ-Tocopherol (3∶1; 1∶1; 1∶3) ohne und mit Cholesterinbelastung (1 % Cholesterin im Futter) auf die Lipidperoxidation in der Leber und die Lebertocopherolretention untersucht. Zur weiteren Beurteilung des Tocopherolstatus wurden die Aktivitäten der Kreatin-Kinase und der Transaminasen (GOT, GPT) im Plasma sowie die Hämolyseneigung der Erythrozyten bestimmt. Lediglich das α-Tocopherol und die Mischungen aus α- und γ-Tocopherol waren in der Lage, die Hämolyserate der Erythrozyten zu senken. Bezüglich der Lipidperoxidation in der Leber erwies sich das α-Tocopherol als das wirksamere Antioxidans; demgegenüber zeigte das γ-Tocopherol im Futter die höhere Effizienz. Vom Cholesterin ging sowohl in vitro als auch in vivo eine hemmende Wirkung auf die Lipidperoxidation aus; darüber hinaus hatte das Cholesterin in Kombination mit α-Tocopherol einen stabilisierenden Effekt auf die Erythrozytenmembran. Außerdem wurde die Tocopherolspeicherung in der Leber durch Cholesterin begünstigt. Die biologische Wirksamkeit des γ-Tocopherol in Relation zum α-Tocopherol wurde berechnet; sie lag in Abhängigkeit vom jeweiligen Beurteilungskriterium zwischen 22 und 100%.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02023619

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Wirkung von Dattelkernmehl und Cellulose auf Wachstum, Futterverwertung und Lipidstoffwechselparameter wachsender und ausgewachsener Ratten (1978)

Elmadfa, I. ; Domke, I.

Springer

European journal of nutrition 17 (1978), S. 197-205

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ISSN: 1436-6215

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition , Medicine

Description / Table of Contents: Summary In experiments with growing and adult Wistar-rats, the influence of date-seed flour on growth, food intake/utilization and lipid metabolism was studied. Cellulose powder was used as control substance. Unlike cellulose the date-seed flour increased the food intake and the gained body weights of the animals. The food utilization impaired after supplying both date-seed flour and cellulose. Date-seed flour as source of crude fibers in the diet caused a higher increase of weight and volume of the faeces than equivalent amounts of cellulose. Cellulose fed animals showed a higher crude fiber content of the faeces. The crude fiber of date seeds is supposed to consist of compounds more easily digested than cellulose such as hemicelluloses. Date-seed flour led to a significant increase of serum total lipids and serum cholesterol of growing rats. In the liver of adult rats the neutral fats and total lipids were increased too. A clear fatty infiltration in the liver of growing rats was detected. Cellulose did not significantly influence the lipid metabolism of both growing and adult rats. There must be a certain compound in the date seeds causing this lipid anabolic effect, which is not compensated by their relatively high crude fiber-content.

Notes: Zusammenfassung An wachsenden und ausgewachsenen Ratten wurde die Wirkung von Dattelkernmehl auf Wachstum, Futterverwertung und Fettstoffwechselparameter untersucht. Als Vergleichssubstanz diente Cellulosepulver. Das Dattelkernmehl bewirkte im Gegensatz zu Cellulose eine Steigerung der Nahrungsaufnahme und der Gewichtszunahmen. Die Futterverwertung verschlechterte sich bei Verabreichung beider Ballaststoffträger. Dattelkernmehl bewirkte eine größere Erhöhung des Kotgewichts und -volumens als Cellulose; der Gehalt an Rohfaser im Kot stieg jedoch bei mit Cellulose ernährten Tieren stärker an. Vermutlich besteht die Rohfaser des Dattelkernmehls aus leichter spaltbaren Verbindungen wie z. B. Hemicellulosen. Dattelkernmehl verursachte bei wachsenden Ratten eine Zunahme der Serumgesamtlipide und des Serumcholesterins. Der Neutral- und Gesamtfettgehalt in der Leber stieg bei ausgewachsenen Ratten ebenfalls an. Bei den jüngeren Tieren wurde histologisch eine verstärkte Einlagerung von Triglyzeriden in der Leber nachgewiesen. Cellulose beeinflußte bei Ratten beider Altersgruppen den Lipidstoffwechsel nur geringfügig. Dattelkernmehl enthält eine Komponente, die eine lipidanabole Wirkung hervorruft. Sein hoher Ballaststoffgehalt kann diesen Einfluß nicht kompensieren.

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URL: http://dx.doi.org/10.1007/BF02019382

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Über die Transformation von γ-Tocopherol zu α-Tocopherol im tierischen Organismus; ein Generationsversuch an Ratten (1989)

Elmadfa, I. ; Kim, S. -W. ; Reutlinger, M. ; [et al.]

Springer

European journal of nutrition 28 (1989), S. 36-48

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ISSN: 1436-6215

Keywords: γ-Tocopherol ; Transformation ; α-Tocopherol ; Ratten ; Generationsversuch ; γ-tocopherol ; transformation ; α-tocopherol ; rats ; generation-experiment

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition , Medicine

Description / Table of Contents: Summary The biosynthesis of α-tocopherol, the most effective vitamer among the vitamin E-group, is found only in higher plants and microorganisms. Due to the lack of the shikimate pathway, animals are not able to synthesize α-tocopherol. Also not found is a whole enterai synthesis; only the conversion of dimethyletocol to trimethyletocol seems to be possible. Using four generations of rats, we sought to determine: Is a transformation of γ-tocopherol to α-tocopherol in the animal body possible? Are there any differences in the transformation rates in organs, tissues, or in the entire body along the generations? Does gut flora play any role in the conversion of γ-tocopherol? Is it possible to increase the efficiency of the transformation by supplying additional CH3-groups? Wistar rats were fed a semisynthetic basal diet, supplemented with 78.8 mg DL-γ-tocopherol/kg in the first three generations (F1–F3). In the fourth generation (F4), some of the animals were fed a vitamin E-free diet and γ-tocopherol (approx. 1.5 mg on alternate days) was injected s.c. Two other groups of animals received the basal diet containing additional methionine (0.25 %) or choline (0.45 %), as well as γ-tocopherol (as in F1–F3). α- and γ-tocopherol were analyzed by HPTLC in the whole body and in serum, liver, heart, lung, gut, gonads, and feces. The ratio of α-/γ-tocopherol (μg/μg) as transformation rate and vitamin E-biopotency (μg α-tocopherol equivalents/g) were calculated. Growth and fertility were normal until the fourth generation; no abnormal developments could be recognized. α-tocopherol was found in the whole-body as well as in all tissues and organs. In the whole-body, vitamin E-biopotency decreased 25–70 % in F2 and F3. On the other hand, the increase of the transformation rate of γ- to α-tocopherol amounted to 23 % (F2) and 168 % (F3). Highest conversion rates were found in F2 and F3 for feces, followed by gonads and lungs; the lowest rates were found for serum and liver. Due to the s.c.-injection of γ-tocopherol, feces showed a four-times lower transformation rate in F4 than in F3. There was an increase in heart, gut, lung and serum for both transformation rate and vitamin E-biopotency. These parameters could be improved also by the additional supplements of methionine and choline. Both methyl-group-donators revealed nearly the same positive effect. The results show that the animal organism can adapt to γ-tocopherol supply over generations. γ-tocopherol seems to be a direct precursor for the α-tocopherol synthesis. The methylation of γ-tocopherol in the organs and tissues occurs, presumably, according to their specific α-tocopherol requirement.

Notes: Zusammenfassung Die Biosynthese des α-Tocopherols, des wirksamsten Vitamins innerhalb der Vitamin-E-Gruppe, ist beschränkt auf höhere Pflanzen und Mikroorganismen. Wegen des Fehlens des Shikimatweges vermag der tierische Organismus das α-Tocopherol nicht zu bilden. Auch eine vollständige enterale Synthese ist nicht bekannt. Es wird angenommen, daß die Umwandlung im Tierkörper von Dimethyltocol zum Trimethyltocol möglich sei. In einem Experiment an Ratten über vier Generationen wurde folgenden Fragen nachgegangen: Findet eine Umwandlung von γ- zu α-Tocopherol statt? Ändert sich die Effizienz der Transformation auf Gewebs- und Organebene bzw. im gesamten Körper über die Generationen? Welche Rolle spielt die Darmflora? Kann die Effizienz der Transformation durch zusätzliche Gaben an CH3-Gruppen verbessert werden? Über vier Generationen erhielten Wistarratten eine halbsynthetische Grunddiät mit 78,8 mg DL-γ-Tocopherol/kg (F1–F3). In F4 erhielt ein Teil der Tiere die tocopherolfreie Grunddiät, γ-Tocopherol (ca. 1,5 mg, alle zwei Tage) wurde den Tieren subkutan verabreicht. Weitere zwei Kollektive bekamen mit dem Grundfutter γ-Tocopherol (wie in F1–F3) und zusätzlich Methionin (0,24 %) bzw. Cholin (0,45 %) oral verabreicht. In einer Ganzkörperanalyse in F1–F3 und in Serum, Erythrozyten, Leber, Herz, Lunge, Darm, Gonaden und Kot wurden α- und γ-Tocopherol mittels HPTLC bestimmt. Das Verhältnis α-γ-Tocopherol (μg/μg) und die Vitamin-E-Wirksamkeit (μg α-Tocopheroläquivalente/ml bzw. g FS od. g TS) wurden errechnet. Bis zur 4. Filialgeneration waren Wachstum und Fortpflanzungsfähigkeit normal; keine äußeren oder anatomischen Abnormitäten wurden beobachtet. Im Gesamtkörper und in Geweben und Organen der Generationen F1–F4 wurde α-Tocopherol gefunden. Gemessen an den Ergebnissen der Ganzkörperanalyse nahm die Vitamin-E-Wirksamkeit in F2 um 25 % und in F3 um 70 % ab. Die Effizienz der γ-Tocopheroltransformation stieg dagegen um 23 % in F2 und 168 % in F3. Höchste Transformationsraten wurden in F2 und F3 für Kot, gefolgt von Gonaden und Lunge, festgestellt, die niedrigsten für Serum und Leber. Durch die subkutane γ-Tocopherolapplikation war die Transformationsrate im Kot in F4 um Faktor 4 schlechter als in F3. Die Effizienz der Transformation und die Vitamin-E-Wirksamkeit nahmen in Herz, Dickdarm, Lunge und Serum zu. Ebenso besser fielen die Werte für diese Parameter unter der Mehrzufuhr an Methionin und Cholin, wobei sich mit beiden Methylgruppendonatoren die gleiche positive Wirkung erzielen ließ. Die Ergebnisse zeigten, daß sich der Körper an eine γ-Tocopherolzufuhr über Generationen adaptieren kann. γ-Tocopherol dient auch im tierischen Organismus als unmittelbare Vorstufe der α-Tocopherolsynthese. Dieser Syntheseschritt erfolgt wahrscheinlich über eine Transmethylierungsreaktion in den verschiedenen Geweben und Organen gemäß ihrem spezifischen Bedarf an α-Tocopherol.

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URL: http://dx.doi.org/10.1007/BF02025564

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Reduzierung der Lipidperoxidation in gefroren gelagertem Forellenfilet durch Supplementierung des Futters mit Vitamin E (1995)

Geßl, H. ; Hoppe, P. P. ; Elmadfa, I.

Springer

European journal of nutrition 34 (1995), S. 198-205

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ISSN: 1436-6215

Keywords: Forelle ; Tocopherol ; Phyllochinon ; Antioxidans ; Lipidstabilität ; Trout ; tocopherol ; phylloquinone ; antioxidant ; storage

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition , Medicine

Description / Table of Contents: Summary Rainbow trouts were fed a complete diet with 12 mg vitamin K3 and supplemented with 20, 200 or 2 000 mg all-rac-α-tocopheryl-acetate/kg for 18 weeks. The ratio of the vitamin E-supplementation was 1 : 10 : 100. Fillets were minced and stored at −18 °C. Concentrations of α-tocopherol and phylloquinone and parameters of lipid peroxidation were measured after 4, 6, and 8 months of storage. The effects of α-tocopherol incorporated into fillets on storage stability were assessed by measuring free fatty acids, peroxides, malondialdehyde and lipofuscin. Mean α-tocopherol-concentrations in fillets were 1.4, 2.7 and 16.3 mg/100 g, respectively representing ratios of 1 : 2 : 12. The increase in α-tocopherol concentration resulted in a significant improvement of storage stability. The phylloquinone concentration in fillet was reduced in treatments with ≥200 mg vitamin E/kg; however, this did not affect the prothrombin time. No peroxides were detectable at any time. The concentrations of malondialdehyde significantly decreased with increasing supplementation of vitamin E. Lipofuscin concentrations were higher with low than with high vitamin E supplementation. The dose-related inhibition of lipid peroxidation became apparent in decreased concentrations of the free fatty acids in the crude fat. These results confirm the effectiveness of α-tocopherol as antioxidant in fish flesh. In this study the incorporation of α-tocopherol from dietary supplementation improved the long-term storage quality of trout fillets due to the effective inhibition of the lipid peroxidation. A measurable improvement of the storage stability was achieved with a supplementation of 200 mg vitamin E/kg feed.

Notes: Zusammenfassung Filet von Forellen, die 18 Wochen lang ein Futter mit 12 mg Menadion/kg und mit drei im Konzentrationsverhältnis von 1 : 10 : 100 gestaffelten Dosierungen von all-rac-α-Tocopherylacetat (20, 200 und 2 000 mg/kg) erhalten hatten, wurde homogenisiert und bei −18 °C gelagert. Nach Lagerung über 4, 6 und 8 Monaten wurden die Konzentrationen an α-Tocopherol und Phyllochinon sowie von freien Fettsäuren, Peroxiden, Malondialdehyd und Lipofuszin als Parameter der Lipidperoxidation analysiert. Die mittleren α-Tocopherolgehalte betrugen 1,4; 2,7 und 16,3 mg/100 g Filet, entsprechend einem Konzentrationsverhältnis von etwa 1 : 2 : 12. Der dosisabhängige Anstieg bewirkte eine deutliche Verbesserung der Lagerstabilität. Die hohen Dosen an Vitamin E führten zu abnehmenden Gehalten an Phyllochinon im Fischmuskel, die ohne Einfluß auf die Prothrombinzeit waren. Die dosisabhängige Hemmung der enzymatisch katalysierten Fettoxidation spiegelte sich in abfallenden Gehalten an freien Fettsäuren im Rohfett wider. Peroxide waren an keinem Untersuchungstermin nachweisbar. Die Gehalte an Malondialdehyd sanken mit zunehmender Supplementierung von Vitamin E signifikant ab. Derselbe Einfluß zeigte sich bei Lipofuszin. Die Anreicherung der Filets mit α-Tocopherol nach Supplementierung des Futters begünstigte eine längerfristige Qualität bei Gefrierlagerung infolge einer effektiven Hemmung der Lipidperoxidation. Bereits mit der Dosierung von 200 mg α-Tocopherylacetat/kg Futter konnte im Vergleich zur Dosierung von 20 mg/kg eine meßbare Verbesserung der Lagerstabilität erzielt werden.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01623158

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