Does apricot seeds consumption cause changes in human urine?

Natural substances, such as amygdalin, used in alternative medicine gained high popularity. Common people as well as patients with different diseases have almost unlimited access to various natural supplements. To protect human health, it is very important to study effect of these substances. Amygdalin is a cyanogenic glucoside derived from seeds of rosaceous plants, for example seeds of bitter almonds (Prunus dulcis), or apricot, cherry, apple, peach, plum, etc. It is a natural product that owns antitumor activity, it has also been used for the treatment of asthma, bronchitis, emphysema, leprosy and diabetes and produces a kind of antitussive and antiasthmatic effects. The present in vivo study was designed to reveal whether amygdalin in apricot seeds has got an effect on human urine composition, pH value and urine associated health status after six weeks of oral administration. The study group finally consisted of 34 healthy adult volunteers (21 females and 13 males). All participants were asked to consume 60 mg.kg-1 body weight of bitter apricot seeds daily (approximately 3.0 mg.kg-1 of amygdalin) during 6 weeks. During the experiment, three urine collections were carried out (first collection - at the beginning of the experiment; second collection - after 21 days; third collection - after 42 days). Quantification of urine calcium (Ca), magnesium (Mg), phosphorus (P), sodium (Na), potassium (K), chlorides (Cl-), urea and pH value after apricot seeds supplementation was performed. Statistical analysis of variance showed, that consumption of bitter apricot seeds during 42 days had a significant (p <0.01) effect on amount of calcium excreted in urine, though this decrease shifted its level from elevated mean value in control collection into normal physiological range. Significant changes were observed in urea (p <0.05) and phosphorus (p <0.01) levels in urine after apricot seed ingestion, but gender was also considered to be a source of their variation

Possible stimulatory effect of quercetin on secretion of selected pituitary hormones

Quercetin is found in various types of foods such as apples, red onions, grapes, berries, citrus fruits, cherries, broccoli, tea etc. It is characterized by antioxidative, anti-carcinogenic, bacteriostatic and anti-inflammatory effects on the animal organism. The aim of our study was to examine its effect on endocrine system of the rabbit in vivo. Twenty healthy adult female rabbits were divided into four groups (control group and three experimental groups). Various concentrations of quercetin (10, 100 and 1000 µg/kg body weight) were intramuscularly administrated to rabbits in experimental groups during 30 days. A sensitive, biochemical method, ELISA was used to determine the concentrations of selected hormones (follicle-stimulating hormone - FSH, luteinizing hormone – LH, prolactin – PRL) after 30 days of administration. Non-significant differences between groups were found after application of different quercetin concentrations. Stimulatory effect was observed on FSH secretion by higher dose of quercetin. Similarly, LH and PRL increased at concentration 100 µg/kg and 1000 µg/kg. Our results indicate the possible effect of quercetin on secretion of selected pituitary hormones

Blood plasma levels of anterior pituitary hormones of rabbits after apricot seed exposure in vivo

The present study describes possible changes in plasma levels of anterior pituitary hormones induced by bitter apricot (Prunus armeniaca L.) seeds in young female rabbits in vivo. Prunus armeniaca L. is an important medicinal edible plant species commonly known as “apricot”. The apricot is a member of the Rosaceae and subfamily Prunoideae. It is one of the most delicious and commercially traded fruits in the world. Apricot kernel is the inner part of the seed of the apricot fruit. The kernel is used to produce oil and other chemicals used for medicinal purposes. The seeds are potentially useful in human nutrition and for treatment several diseases especially cancer. In the present study apricot seeds were mixed with feed at different doses 0, 60, 300, 420 mg*kg-1 of body weight. ELISA was used to determine the levels of follicle stimulating hormone (FSH), luteinizing hormone (LH) and prolactin (PRL). 58-days application of apricot seeds did not affect the concentration (P≥0.05) of PRL, LH in blood plasma. Significant (P≤0.01) inhibition of FSH levels induced by the seeds was found at the dose of 420 mg*kg-1 but not at 60 and 300 mg*kg-1 of body weight. These results are suggesting that the natural substances present in apricot seeds may be involved in mechanisms of ovarian folliculogenesis

Influence of apricot kernels on blood plasma levels of selected anterior pituitary hormones in male and female rabbits in vivo

Amygdalin is represented in the family Rosacea more precisely in an apricot kernels and an almonds. There are a lot of components such as trace elements, vitamins, carbohydrates, organic acids, esters, phenols, terpenoids, except cyanogenic glycoside in the seeds. It is known that bioregulators can modulate the activity of specific enzymes and hormones very exactly at low levels and in a short time. The aim of our study was examine the effects of selected doses (0, 60, 300, 420 mg/kg b.w.) of apricot kernels in feed on the plasma levels of anterior pituitary hormones in young male and female rabbits in vivo. A sensitive, biochemical method, ELISA was used to determine the hormones prolactin (PRL), luteinizing hormone (LH) and follicle stimulating hormone (FSH). 28-day application of apricot kernels did not affect the concentration of PRL, LH, FSH in blood plasma of males. No significant (P≤0.05) differences in case of PRL and LH levels in the blood plasma of females were found. On the other hand a significant (P≤0.05) inhibition of FSH release induced by kernels at the doses 300, 420 mg/kg was found. Our results indicate that apricot kernels could affect secretion of anterior pituitary hormone FSH in female rabbits

Oral and intramuscular application of cyanogenic glycoside amygdalin did not induce changes in haematological profile of male rabbits

Amygdalin is a cyanogenic glycoside initially obtained from the seeds of bitter almonds. It is composed of one molecule of benzaldehyde, two molecules of glucose and one molecule of hydrocyanic acid. Various ways of amygdalin application play a different role in recipient organism. Intravenous infusion of amygdalin produced neither cyanidemia nor signs of toxicity, but oral administration resulted in significant blood cyanide levels. The present in vivo study was designed to reveal whether amygdalin is able to cause changes in the haematological profile and thus alter the physiological functions, using rabbits as a biological model. Adult male rabbits (n = 20) were randomly divided into five groups: the control group without any amygdalin administration, two experimental groups received a daily intramuscular injection of amygdalin at a dose 0.6 and 3.0 mg.kg-1 b.w. and other two groups were fed by crushed apricot seeds at dose 60 and 300 mg. kg-1 b.w., mixed with commercial feed over the period of 14 days. After two weeks, haematological parameters in whole blood were analysed (WBC - total white blood cell count, LYM - lymphocytes count, MID - medium size cell count, GRA - granulocytes count, RBC - red blood cell count, HGB - haemoglobin, HCT - haematocrit, MCV - mean corpuscular volume, MCH - mean corpuscular hemoglobin, MCHC - mean corpuscular hemoglobin concentration, RDWc - red cell distribution width, PLT - platelet count, PCT - platelet percentage, MPV - mean platelet volume, PDWc - platelet distribution width) using haematology analyser Abacus junior VET. Our findings indicate that intramuscular and oral application of amygdalin for two weeks did not significantly affect the haematology parameters in experimental animals. In this study, no obvious beneficial or negative effects of amygdalin administration on the blood of male rabbits were observed.</p