ライフサイエンスコーパス: beeswax

1 ng/g in pollen, and 0.51, 0.69, 0.63 ng/g in beeswax.

2 whereas lead and molybdene occurred only in beeswax.

3 nd 1-eicosanol are reported to be present in beeswax.

4 oach from less than 2 g of honey, pollen, or beeswax.

5 cted components between pure and adulterated beeswax.

6 ulation and its two main products: honey and beeswax.

7 hilic pesticides were predominantly found in beeswax.

8 performing lubricant is a mixture of 20 wt% beeswax, 40 wt% olive oil, and 40 wt% mineral oil, which

9 These findings suggest that adulterated beeswax affects composition of honey as the set of alter

10 isiloxane surfactants were detected in every beeswax and 60% of the pollen samples.

11 Other pesticide residues were detected in beeswax and bee bread at various levels.

12 NA oligomers and to a mixture of unprocessed beeswax and decanol.

13 tability was attributed to the modulation of beeswax and WPI on the micropolarity and microviscosity

14 , such as pollen, royal jelly, propolis, and beeswax, are also vulnerable to PA contamination.

15 g a naturally derived FDA approved material (beeswax) as the drug carrier and fenofibrate as the drug

16 the drug to be evenly distributed within the beeswax at the bulk scale with evidence of some localiza

17 erentiate authentic and paraffin adulterated beeswax based on the chemical profile obtained.

18 TOs) exhibited 20 times higher hardness than beeswax-based oleogels (BWOs), which showed stronger coh

19 easing saturated fatty acid amount, while in beeswax-based oleogels a more interconnected structure w

20 nce and distribution of chemical residues in beeswax, bee bread and honey and determinates in what ex

21 his study was to assess the impact of HIU on beeswax (BEW), candelilla wax (CLW), carnauba wax (CBW),

22 W contains many similar compounds to that of beeswax (BW) and carnauba wax (CW).

23 particles (SLNs) using safe/low-cost natural beeswax (BW) and propolis wax (PW) and by the simple and

24 of hydroxypropyl methylcellulose (HPMC) and beeswax (BW) at concentrations of 10%, 20%, and 40% (dry

25 Notably, the core with beeswax (BW) crystal network, effectively improved the s

26 l nanostructured lipid carriers (NLCs) using beeswax (BW), propolis wax (PW) and pomegranate seed oil

27 -H) and compared to honey ripened in genuine beeswax (BWF-H) using physico-chemical and spectroscopic

28 identified by the presence of non-naturally beeswax components, and by the differences of values of

29 We reared queens in beeswax cups with or without a pesticide treatment withi

30 A mixture of beeswax, Euphorbia resin, and possibly egg, wrapped in v

31 art in a prehistoric Holocene context and a beeswax find in a pre-agriculturalist site.

32 ed formulations featuring varying degrees of beeswax for internal structure and whey protein isolate

33 ents (TE) contents of honey, royal-jelly and beeswax from a historical Zn-Pb mining district have bee

34 termined in 90 samples of Spanish commercial beeswax from Apis mellifera L.

35 Hazard Quotient comparable to the average in beeswax from commercial colonies, and it had no measurab

36 Beeswax had a similar trend as the global production per

37 n history, with direct chemical evidence for beeswax identified in prehistoric ceramic vessels from E

38 oatings of hydroxypropyl methylcellulose and beeswax in concentrations of 10, 20, and 40% in 'Palmer'

39 oatings of hydroxypropyl methylcellulose and beeswax in concentrations of 10, 20, and 40% in 'Palmer'

40 Here we present secure identifications of beeswax in lipid residues preserved in pottery vessels o

41 re developed using carnauba, candelilla, and beeswax in the presence of glycerol monostearate crystal

42 f trace elements and pesticides in honey and beeswax may pose a health hazard to consumers.

43 First, our study showed that neither beeswax nor LDPE alone favor the growth of young larvae.

44 Many major components (>50) of beeswax, odd and even hydrocarbons, oleofin, palmitate,

45 mical characterization and authentication of beeswax of Apis mellifera was performed by high temperat

46 ent wax-oil combinations were prepared using beeswax, paraffin wax, olive oil, and mineral oil.

47 Our analysis revealed balms consisting of beeswax, plant oil, fats, bitumen, Pinaceae resins, a ba

48 onies (85.0%), honey production (181.0%) and beeswax production (116.0%).

49 Thus, the chemical 'fingerprint' of beeswax provides a reliable basis for detecting this com

50 Independent assessment of beeswax quality and performance of the unsupervised clas

51 ides and trace elements in Israeli honey and beeswax samples in relation to human risk assessment.

52 st two pesticides contaminated the honey and beeswax samples simultaneously, in which, amitraz metabo

53 Five honey, 10 pollen, and 10 beeswax samples were analyzed.

54 rules for authentic and paraffin adulterated beeswax samples were developed.

55 ker components characteristic of fats, oils, beeswax, sugar gum, petroleum bitumen, and coniferous, P

56 cate that the daily consumption of honey and beeswax together may compromise children's health.

57 ethods for detection of paraffin adulterated beeswax was superior to the discriminating power of clas

58 Treatment with 20% beeswax was the most suitable for industrial application

59 One of the major products of A. mellifera is beeswax, which is composed of a complex suite of lipids

60 s were determined using pure and adulterated beeswax with different amounts of added waxes (5%, 10%,