Mycotoxic porcine nephropathy and spontaneous occurrence of ochratoxin A residues in kidneys and blood of Polish swine.

Kidneys showing renal changes characteristic for mycotoxic porcine nephropathy were collected during the period 1 April 1982 to 31 March 1983 from 225,000 swine processed in a large slaughterhouse in the district of Poznań, Poland. Of 113 kidneys suspected of mycotoxic porcine nephropathy, 27 exhibited ochratoxin A levels from traces to 23 ng/g. In 17 kidneys the level of the toxin was lower than 2 ng/g. Increased frequency of ochratoxin A presence and its level in kidneys were observed during the spring. Of 195 porcine blood samples collected at random, 36 exhibited toxin levels from 3 to 270 ng/ml.     

Mycotoxic porcine nephropathy and spontaneous occurrence of ochratoxin A residues in kidneys and blood of Polish swine

Kidneys showing renal changes characteristic for mycotoxic porcine nephropathy were collected during the period 1 April 1982 to 31 March 1983 from 225,000 swine processed in a large slaughterhouse in the district of Poznań, Poland. Of 113 kidneys suspected of mycotoxic porcine nephropathy, 27 exhibited ochratoxin A levels from traces to 23 ng/g. In 17 kidneys the level of the toxin was lower than 2 ng/g. Increased frequency of ochratoxin A presence and its level in kidneys were observed during the spring. Of 195 porcine blood samples collected at random, 36 exhibited toxin levels from 3 to 270 ng/ml.     

Penicillium verrucosum in feed of ochratoxin A positive swine herds

Ochratoxin A contamination of cereal feed grain was monitored during October 1989–September 1990 by analysis of blood samples from slaughter swine in Sweden. The detection of ochratoxin A in swine blood was used as a method to identify swine herds fed ochratoxin A contaminated feed. The contamination level of ochratoxin A in the blood of the positive herds was in the range 2–45 ng/ml with the mean concentration 5.2 ng/ml. Feed samples for mycological analysis were collected from both ochratoxin A positive herds (2 ng/ml blood) and ochratoxin A negative herds (<2 ng/ml blood). From the ochratoxin A positive herds and the ochratoxin A negative herds 22 and 21 feed samples were collected, respectively. No quantitative differences in mould content, as determined by colony forming units, were observed between the two groups. However, there were differences in the mycoflora. The incidence of storage fungi (Penicillium and Aspergillus spp.) was significantly higher (p < 0.05) in feed from ochratoxin A positive herds. Particularly, Penicillium verrucosum was found to be significantly more common (p < 0.001). Altogether 274 isolates were screened for their ability to produce ochratoxin A. Ochratoxin A producers were found only within P. verrucosum; 38% of the 63 isolates produced detectable amounts of ochratoxin A. Ochratoxin A producing isolates of P. verrucosum were found in 60% of the feed samples collected from ochratoxin A positive swine herds and in one sample (5% ) of the feed samples collected from the ochratoxin A negative herds.     

Ochratoxin A in blood from slaughter pigs in Sweden: use in evaluation of toxin content of consumed feed.

Samples of pig blood, intended for ochratoxin A analysis, were collected from pigs of 279 randomly selected herds. The samples were obtained at nine different slaughterhouses from different areas of Sweden. Pigs from 47 herds (16.8% of the total) exhibited ochratoxin A in amounts of greater than or equal to 2 ng of ochratoxin A per ml of blood. One sample each from a single pig per herd identified herds contaminated with ochratoxin A in amounts exceeding three times the detection limit of the method (3 x 2 ng of ochratoxin A per ml of blood = 6 ng of ochratoxin A per ml of blood). There was a good agreement between ochratoxin A concentrations in the blood from different pigs within the same herd (correlation coefficient = 0.80). The ochratoxin A concentration in pig blood was used as an estimate of the ochratoxin A content of the consumed feed. This method showed that feed from grain produced on-farm contained higher concentrations of ochratoxin A than commercial feed preparations. No geographical variation of ochratoxin A occurrence within Sweden was detected.     

Seasonal variation in the endocrine-testicular function of captive jaguars (Panthera onca)

Captive adult male jaguars (Panthera onca) from two locations in southeast Brazil were studied to evaluate the effects of season on endocrine and testicular function. For assessment of testicular steroidogenic activity, androgen metabolite concentrations were measured in fecal samples collected one to three times per week over 14 ( n=14 ), 9 ( n=1 ) or 7 months ( n=1 ). To assess seasonality, data were grouped by season (summer: December-February; autumn: March-May; winter: June-August; spring: September-November). Additionally, samples collected in the dry season (March-August) were compared with those collected in the wet season (September-February). There were no differences ( P>0.05 ) in fecal androgen concentrations in samples collected in spring, summer, autumn, and winter ( 480.8+/-50.4 ng/g, 486.4+/-42.0 ng/g, 335.4+/-37.7 ng/g, and 418.6+/-40.4 ng/g dry feces). However, there were differences ( P<0.05 ) in fecal androgen concentrations between the dry and wet seasons ( 380.5+/-28.0 ng/g versus 483.9+/-32.3 ng/g dry feces). Sperm samples, collected from all males twice (approximately 6 months apart) were similar; mean (+/-S.E.M.) motility, concentration and morphology were 57.0 %4.5%, 6.3+/-2.4 x 10(6) ml(-1), and 60.8+/-3.1 %, respectively. In conclusion, androgen metabolite concentrations in the captive male jaguar were not affected by season, but there was a difference between the wet and dry periods. Further research is needed to verify these results.     

Spontaneous occurrence of ochratoxin A residues in porcine kidney and serum samples in Poland

During the period 1 April 1983 to 31 July 1984, 214,700 swine were processed in a slaughterhouse in Poznań, Poland. Of these pigs, 122 (0.057%) exhibited macroscopical kidney changes typical for mycotoxic porcine nephropathy. Ochratoxin A was found in kidneys from 52 of these pigs. Porcine serum samples not biased for nephropathy were collected at random in the same slaughterhouse. Of 388 samples, 148 exhibited ochratoxin A residues from 1 to 520 ng/ml. Significant increases in nephropathy and ochratoxin A frequencies were observed during the spring of 1984.     

Spontaneous occurrence of ochratoxin A residues in porcine kidney and serum samples in Poland.

During the period 1 April 1983 to 31 July 1984, 214,700 swine were processed in a slaughterhouse in Poznań, Poland. Of these pigs, 122 (0.057%) exhibited macroscopical kidney changes typical for mycotoxic porcine nephropathy. Ochratoxin A was found in kidneys from 52 of these pigs. Porcine serum samples not biased for nephropathy were collected at random in the same slaughterhouse. Of 388 samples, 148 exhibited ochratoxin A residues from 1 to 520 ng/ml. Significant increases in nephropathy and ochratoxin A frequencies were observed during the spring of 1984.     

Occurrence of trichothecenes, zearalenone and ochratoxin A in cereals and mixed feed from central Lithuania

A total of 92 samples — 23 winter wheat, 12 summer barley, 5 oats and 52 mixed feed — were collected from a state factory in Kaunas, Lithuania and were analysed for the presence of trichothecenes, zearalenone (ZEN) and ochratoxin A (OA) using gas chromatography with electron capture detection and immunoaffinity column/high performance liquid chromatography with fluorescence and UV detections. Deoxynivalenol (DON), nivalenol (NIV), T-2 toxin and HT-2 toxin were detected at concentrations above 10 μg/kg in 68%, 48%, 38% and 8% of cereal samples, respectively, and in 98%, 88%, 12% and 8% of samples of mixed feed for swine and poultry. More than 10 μg/kg of zearalenone and ochratoxin A were found in 58% and 92% of the mixed feed samples, respectively. The highest concentrations of all analysed trichothecenes in Lithuanian mixed feed and cereal grains, with an exception of T-2 toxin in one oat lot and one sample of mixed feed and OA in two mixed feed samples, were lower than those reported as Lithuanian advisory or tolerance limits.     

Natural occurrence of ochratoxin A and citrinin in food stuffs in Egypt

Natural occurrence of ochratoxin A (OA) and citrinin in cereals (274 samples) and animal tissues (250 samples) have been investigated during a period of more than 2 years. OA was found in cereals and animal tissues while citrinin was found in cereals only. The highest level of OA (up to 80.0 μg/kg) was found in yellow corn, 52.8% of contaminated samples while respectively 55.9% and 39.4% of barley and rice samples were contaminated with citrinin, with the highest level up to 100.0 and 27.92 μg/kg for barley and rice respectively. The frequent contamination of animal kidney with OA (28% positive out of 150 tested) average concentration 12.33 μg/kg. 2% of liver and 4% of muscles tissue were observed.     

Seasonal variation in the activity of the Leydig cells in Egyptian Nubian goat (Zaraibi) bucks

Ten Egyptian Nubian goat bucks were used to evaluate the effect of season on testicular hormonal activity and ultrastructure. Parameters were recorded for 7 consecutive weeks in the middle of the four seasons, with blood samples being collected weekly. At the end of each of these seasons, testicular biopsies were obtained surgically for histological and cytological studies. Season had a significant effect on plasma testosterone concentration, being at its lowest level (P < 0.01) during winter and spring (1.2 and 2.6 ng/ml, respectively), while at its highest during summer (10 ng/ml). The effect of season on plasma LH concentration was higher (P < 0.01) in autumn (2.9 mIU/ml) and less in spring and summer (0.4 mIU/ml). Season of the year influenced the percentage of sectional tissue area occupied by the seminiferous tubules and interstitial tissue. Seminiferous tubules occupied the majority of the testicular tissue during winter (76.6%), with the least being occupied during spring (49.8%). The thickness of the seminiferous tubules was maximal during autumn, followed by summer (53 and 36 μm, respectively). In summer the Leydig cells contained abundant smooth endoplasmic reticulum (sER), while some areas of the cytoplasm were occupied exclusively by tubular sER, arranged in parallel—indicating the highest activity of these cells. A characteristic multivesicular structure with numerous large lipid droplets and vacuoles was recorded in the Leydig cells during spring and winter, denoting low or even arrested activity of the cells. It could be concluded that season influences the activity of the Leydig cells of Egyptian Nubian bucks, and this is reflected by their ultrastructure and secretive activity.     

Ochratoxin A in pig blood: method of analysis and use as a tool for feed studies

A procedure is presented for screening the quality of feed in respect to ochratoxin A contamination based upon the analysis of ochratoxin A in pig blood. Representative samples from large feed lots may be obtained by using pigs as in vivo sample collectors which enrich the toxin and forms homogeneous samples in the blood. The spectrofluorometric procedure for ochratoxin A analysis (K. Hult and S. Gatenbeck, J. Assoc. Off. Anal. Chem. 59:128-129, 1976) has been adapted to pig blood and has been simplified to involve only three extraction steps. A volume of 2.5 ml of blood or plasma is needed, and the detection limit is 2 ng of ochratoxin A per ml. The disappearance of ochratoxin A from pig blood as a function of time has been studied. A feeding experiment with ochratoxin A has been performed, and the time course of the concentration of ochratoxin A in blood has been followed during the experiment.     

Ochratoxin A in pig blood: method of analysis and use as a tool for feed studies.

A procedure is presented for screening the quality of feed in respect to ochratoxin A contamination based upon the analysis of ochratoxin A in pig blood. Representative samples from large feed lots may be obtained by using pigs as in vivo sample collectors which enrich the toxin and forms homogeneous samples in the blood. The spectrofluorometric procedure for ochratoxin A analysis (K. Hult and S. Gatenbeck, J. Assoc. Off. Anal. Chem. 59:128-129, 1976) has been adapted to pig blood and has been simplified to involve only three extraction steps. A volume of 2.5 ml of blood or plasma is needed, and the detection limit is 2 ng of ochratoxin A per ml. The disappearance of ochratoxin A from pig blood as a function of time has been studied. A feeding experiment with ochratoxin A has been performed, and the time course of the concentration of ochratoxin A in blood has been followed during the experiment.     

The Effect of Substrate, Season, and Agroecological Zone on Mycoflora and Aflatoxin Contamination of Poultry Feed from Khyber Pakhtunkhwa, Pakistan

To study the effects of and interactions among feed types, seasons, and agroecological zones on the total fungal viable count and aflatoxins B1 (AFB1), B2 (AFB2), G1 (AFG1), and G2 (AFG2) production in poultry feed, an experiment was conducted using three-factorial design. A total of 216 samples of poultry feed ingredients, viz. maize, wheat, rice, cotton seed meal (CSM), and finished products, that is, starter and finisher broilers' rations, were collected from Peshawar, Swat, and D. I. Khan districts of Khyber Pakhtunkhwa, Pakistan, during the winter, spring, summer, and autumn seasons of the year 2007/2008. Analysis of variance showed that there was a complex interaction among all these factors and that this influenced the total fungal viable count and relative concentrations of the aflatoxins produced. Minimum total culturable fungi (6.43?×?10(3)?CFUs/g) were counted in CSM from D. I. Khan region in winter season while maximum (26.68?×?10(3)?CFUs/g) in starter ration from Peshawar region in summer. Maximum concentrations of AFB1 (191.65?ng/g), AFB2 (86.85?ng/g), and AFG2 (89.90?ng/g) were examined during the summer season whereas the concentration of AFG1 was maximum (167.82?ng/g) in autumn in finisher ration from Peshawar region. Minimum aflatoxins were produced in the winter season across all the three agroecological zones.     

Occurrence of Fusarium Mycotoxin Fumonisin B1 and B2 in Animal Feeds in Korea

The objective of this study was to monitor the occurrence and levels of fumonisin B₁ (FB₁) and fumonisin B₂ (FB₂) in animal feeds distributed in South Korea in 2011. The contamination levels of FB₁ and FB₂ were investigated in 150 samples of compound feeds and in 40 samples of feed ingredients. The contamination rate of feed ingredients with FB₁ and FB₂ was 50 and 40 %, respectively. FB₂ was only found in samples contaminated with FB₁. Of the compound feeds, 85 % were contaminated by FB₁ and 47 % were contaminated by FB₂. The highest contamination rate of FBs was observed in compound feeds for cattle (FB₁: 100 %; FB₂: 80 %), followed by poultry feed (FB₁: 78 %; FB₂: 40 %) and swine feed (FB₁: 76 %; FB₂: 22 %). The highest contamination level (14,600 ng/g) for FB₁ were found in poultry broiler feed (early feeding period) samples, which had 82 % contamination rate (9/11), and the highest level of FB₂ (2,280 ng/g) was found in feed for fatting calves,which had a contamination rate of 100 %.     

Feeding OTA to pigs: Analytical evaluation of a trial

Methods were developed to analyse the concentrations of ochratoxin A (OTA) and its main metabolite ochratoxin α in blood plasma of pigs and in their kidneys. By the use of these methods blood and kidneys of pigs that were fed contaminated feedstuff containing 1500 μg/kg ochratoxin A for the whole trial period of 42 days were analysed.High levels of 1500 – 2000 μg/I OTA were found in the plasma, while the concentration of OTA in the kidneys did not exceed 250 μg/kg at the end of the trial. Neither in the plasma nor in the kidneys of the animals fed contaminated feedstuff ochratoxin a could be detected.     

赭曲霉毒素A和玉米赤霉烯酮-二联胶体金免疫层析试纸条的制备及应用

【背景】真菌毒素为真菌的有毒次级代谢产物,混合污染时毒性显著增强,可对人类和动物健康造成严重伤害。制备二联胶体金免疫层析试纸条,实现对常见真菌毒素混合污染的快速监测,具有重要意义。【目的】制备赭曲霉毒素A (Ochratoxin A,OTA)和玉米赤霉烯酮(Zeralenone,ZEN)金标单克隆抗体,基于免疫层析原理,采用竞争反应模式,建立二联胶体金免疫层析检测法用于污染样品中OTA和ZEN的同时快速检测。【方法】采用柠檬酸钠还原法制备胶体金颗粒,并标记获得两种真菌毒素金标单克隆抗体,通过优化相关条件,建立稳定的二联胶体金免疫层析检测方法,用于同时检测谷物和饲料样品中的OTA和ZEN。【结果】制备的OTA和ZEN二联胶体金试纸条对OTA和ZEN的检测限分别为0.625 ng/mL和1.25 ng/mL,且与谷物和饲料中其它真菌毒素(黄曲霉毒素B1、伏马毒素B1、桔青霉毒素、展青霉毒素和呕吐毒素)均无交叉反应,人工添加试验结果准确。对天然样本检测结果表明该方法与LC-MS/MS一致性良好。【结论】本研究制备的二联胶体金试纸条可用于实际样品中OTA和ZEN的同时快速筛查。     

The level of ochratoxin a in patients after nephrectomy

Ochratoxin A (OTA) was analyzed in human serum and kidney samples, collected in Poland in the Pomeranian region from March to September 2005. OTA was determined using reversed phase liquid chromatography with fluorescence detection. The collected samples were from patients after nephrectomy (9 from men and 11 from women) and control serum samples from people without kidney diseases (3 and 3, respectively). The mean concentration OTA in serum of the healthy group was 0.37 ng/ml in both men and women. In patients subjected to nephrectomy it reached 1.06 ng/ml in men and 0.94 ng/ml in women, the mean content of ochratoxin A in kidneys was 0.23 ng/g and 0.20 ng/g, respectively. The highest concentration of OTA in serum among the patients subjected to nephrectomy was 3.77 ng/ml in men and 2.27 ng/ml in women while in kidneys 0.45 ng/g and 0.39 ng/g, respectively. Presented at the 28^th Mykotoxin-Workshop, Bydgoszcz, Poland, May 29–31, 2006     

A survey of porcine kidneys and chicken liver for ochratoxin A in Spain

Contamination studies by ochratoxin A on pork kidney and chicken liver has been carried out in Catalonia (Spain). 73% of the pork kidney samples analyzed did not contain an amount of ochratoxin A over our detection limit (0.5 ng/g) whereas only 7% had contamination higher than 1 ng/g. None of the chicken samples analyzed were contaminated by this toxin above the detection limit. All contamination levels found are below the maximum levels accepted by several countries for this kind of material. A confirmative test is necessary before discarding false positive samples.     

基于纳米颗粒的赭曲霉毒素A高灵敏酶联免疫检测方法的建立及应用

赭曲霉毒素(ochratoxins)主要是由青霉菌Penicillium和曲霉菌Aspergillus产生的有毒次级代谢产物,常见于发霉或发酵的农产品中,其中赭曲霉毒素A(ochratoxin A,OTA)毒性最强且最为普遍。OTA是粮食作物和饲料的重要污染物,在加工、储存或运输过程中均可产生,具有肾毒性和免疫毒性,可通过蓄积作用发挥毒性效应,对人类和动物健康造成严重威胁。本研究通过将OTA单克隆抗体包被于纳米磁珠(magnetic nanoparticles,MNPs)表面,获得具有免疫活性的磁珠抗体复合物(MNPs-Anti OTA),并制备生物素标记的偶联抗原OTA-BSA-Bio,后续采用链酶亲和素标记的纳米金颗粒(Strep-HRP-AuNPs)催化底物进行信号检测,最终建立了OTA高灵敏检测方法(MNPs-bs-AuNPs-ELISA)。在最优条件下,经计算该方法检测下限(IC10)为0.01ng/mL,检测区间(IC20-IC80)为0.02-0.73ng/mL,半数抑制率(IC50)为0.13ng/mL。与OTA类似物OTB、OTC交叉反应性为4.3%和8.1%,对其他常见真菌毒素AFB1、ZEN、FB1、DON、CIT和PAT均无交叉反应。玉米、面粉和大豆样本中的加标回收率可达85.6%-115.7%,对天然样本中OTA含量的检测结果表明,该方法与LC-MS/MS相关性良好。本研究建立的MNPs-bs-AuNPs-ELISA可满足谷物及饲料样本中OTA的快速、高灵敏度定量检测,成本较低,具有很好的应用前景。     

Vorkommen von ochratoxin A und B in gewürzen

A total of 681 samples of spices, which comprised more than 50 different spice commodities were analysed for the natural occurrence of the mycotoxins ochratoxin A (OTA) and ochratoxin B (OTB). The analytical method involved chloroform extraction, clean-up by immunoaffinity column and HPLC determination of both mycotoxins. OTA and OTB were detected in 143 (21%) and 68 (10%) of the samples, respectively. The highest frequency of occurrence of both mycotoxins detected were in chili (100% for OTA and 55% for OTB), paprika (41% and 15%, respectively) and pepper (23% and 44%, respectively). The toxin concentrations ranged between the detection limit (0.01 ng/g) and 41.8 ng OTA (2.7 ng OTB)/g of chili, 18.9 ng OTA (1.4 ng OTB)/g of paprika and 3.8 ng OTA (4.6 ng OTB)/g of pepper. One sample of a extract of vanilla was found to be positive for OTB at 15 ng/g. However, median values of most samples showed to be below the detection limit. Comparison of the geographical origin of the samples showed that the predominant number of contaminated spices was from Southeast-Asia and India. Highly contaminated paprika samples were found to come from Israel.