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Journal articles on the topic 'Aristolochia clematitis L'

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Published: 4 June 2025
Last updated: 15 July 2025

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1

Slavík, Jiří, Jitka Bochořáková, and Leonora Slavíková. "Occurrence of magnoflorine and corytuberine in some wild or cultivated plants of Czechoslovakia." Collection of Czechoslovak Chemical Communications 52, no. 3 (1987): 804–12. http://dx.doi.org/10.1135/cccc19870804.

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Magnoflorine was isolated for the first time from Adonis vernalis L., Clematis recta L., and Epimedium versicolor MORR., further also from Aquilegia sp., Caltha palustris L., Isopyrum thalictroides L., and Aristolochia clematitis L. It was detected in Adonis aestivalis L., Clematis vitalba L., Consolida regalis GRAY, and Helleborus viridis L. Corytuberine was isolated for the first time from Caltha palustris L. and detected in small amounts in Adonis vernalis, A. aestivalis, Aquilegia sp., Consolida regalis, Clematis recta, Eranthis hiemalis L., Helleborus foetidus L., H. niger L., H. viridis,
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2

Pohodina, L.I, and N.Ye Burda. "Determination of aristolochic acid I in a thick extract of Aristolochia clematitis herb by HPLC and the establishment of its cytotoxic activity." Annals of Mechnikov Institute, no. 1 (March 13, 2022): 73–76. https://doi.org/10.5281/zenodo.6350303.

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<strong>Introduction</strong>. <em>Aristolochia clematitis</em> L. is a perennial herbaceous plant with a short rhizome and a characteristic odor. In different countries of the world, including Ukraine, this plant is grown as an ornamental or can be found as a weed. The chemical composition of raw materials of <em>Aristolochia clematitis</em> is represented by different classes of biologically active substances, in particular aristolochic acids. Aristolochic acid I is the most common aristolochic acid, found in almost all species of the genus <em>Aristolochia</em>, in particular in <em>Aristol
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3

Pohodina, LI, NYe Burda, VS Kyslychenko, and AV Martynov. "Detection of biologically active substances in Aristolochia clematitis L. herb by HPLC and determination of antimicrobial activity of this raw material." Annals of Mechnikov Institute, no. 3 (September 10, 2021): 52–57. https://doi.org/10.5281/zenodo.5499700.

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<strong>Introduction. </strong><em>Aristolochia clematitis </em>L<em>. </em>is a perennial herbaceous plant,&nbsp; family<em> Aristolochiaceae</em>. At present, there are some difficulties with the use of&nbsp; <em>Aristolochia clematitis </em>in medicine. They are primarily due to side effects, including nephropathy. Therefore, today scientists from different countries are conducting in-depth research to study the chemical composition and pharmacological activity to understand the safe use of drugs based on raw materials of plants of the genus <em>Aristolochia </em>L<em>.</em> There are posit
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4

Brzić, Ivan, Magdalena Brener, Andraž Čarni, et al. "Different Ecological Niches of Poisonous Aristolochia clematitis in Central and Marginal Distribution Ranges—Another Contribution to a Better Understanding of Balkan Endemic Nephropathy." Plants 12, no. 17 (2023): 3022. http://dx.doi.org/10.3390/plants12173022.

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Aristolochia clematitis L. is a perennial herbaceous plant distributed throughout Europe, Asia Minor and Caucasus. It has been used as a medicinal plant since antiquity but not in recent times because it contains poisonous aristolochic acid, causing progressive kidney failure. The aim of this work was to study Aristolochia clematitis ecology on the basis of vegetation plots from the European Vegetation Archive, and to investigate the differentiation of its ecological niche using a co-occurrence-based measure of ecological specialization (ESI). The ecological niche was studied on three spatial
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5

Pricop, Maria-Alexandra, Alexandra Teodora Lukinich-Gruia, Iustina-Mirabela Cristea, Virgil Păunescu, and Călin Adrian Tatu. "Aristolochia clematitis L. Ethanolic Extracts: In Vitro Evaluation of Antioxidant Activity and Cytotoxicity on Caco-2 Cell Line." Plants 13, no. 21 (2024): 2987. http://dx.doi.org/10.3390/plants13212987.

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Aristolochia sp. plants are used in traditional medicine because of their immunostimulatory and anticarcinogenic properties, despite their content of aristolochic acids (AAs), carcinogenic and nephrotoxic agents. Therefore, ethanolic extracts of Aristolochia clematitis leaves, a specie growing in Western Romania, were obtained to study antioxidant and cytotoxic effects. The antioxidant capacity of the extract was evaluated by five in vitro chemical-based assays, proving that ABTS assay was a better method for this type of evaluation showing an IC50 of 160.89 ± 0.21 µg/mL. Furthermore, the cyto
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6

Suina, Irina Olegovna, Inna Ivanovna Terninko, Yuliya Eduardovna Generalova, Yelena Vladimirovna Burtseva, and Yelizaveta Sergeyevna Bazanova. "STUDY OF SEPARATE FRACTIONS OF ARISTOLOCHIA CLEMATITIS L. HERB FOR THE PRESENCE OF DIFFER-ENT GROUPS OF BAS." chemistry of plant raw material, no. 2 (June 10, 2020): 197–207. http://dx.doi.org/10.14258/jcprm.2020026462.

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The objective of the work was generation of Aristolochia clematitis L. herb fractions and their further study for the presence of different groups of biologically active substances (including aristolochic acids), which was achieved by addressing the following tasks: obtaining fractions from A. clematitis L. herb, preliminary TLC test, HPLC fraction analysis. Fractionation scheme for A. clematitis L. herb extracts was proposed. 4 fractions with different distribution of biologically active substances (chloroform, butanol, ethylacetate and water) were obtained. Using the TLC method and HPLC anal
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7

Chan, Chi-Kong, Yushuo Liu, Nikola Pavlović, and Wan Chan. "Aristolochic Acids: Newly Identified Exposure Pathways of this Class of Environmental and Food-Borne Contaminants and its Potential Link to Chronic Kidney Diseases." Toxics 7, no. 1 (2019): 14. http://dx.doi.org/10.3390/toxics7010014.

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Aristolochic acids (AAs) are nitrophenanthrene carboxylic acids naturally produced by Aristolochia plants. These plants were widely used to prepare herbal remedies until AAs were observed to be highly nephrotoxic and carcinogenic to humans. Although the use of AA-containing Aristolochia plants in herbal medicine is prohibited in countries worldwide, emerging evidence nevertheless has indicated that AAs are the causative agents of Balkan endemic nephropathy (BEN), an environmentally derived disease threatening numerous residents of rural farming villages along the Danube River in countries of t
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8

Pohodina, Lala, Nadiia Burda, Viktoriia Kyslychenko, Larisa Andryukova, and Artur Martynov. "ARISTOLOCHIC ACID I DETERMINATION IN ARISTOLOCHIA CLEMATITIS L. RAW MATERIALS BY HPLC METHOD." Bulletin of Pharmaceutical Sciences. Assiut 43, no. 2 (2020): 149–55. http://dx.doi.org/10.21608/bfsa.2020.127407.

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9

Szadziewski, Ryszard, Rumsais Blatrix, and Patrycja Dominiak. "A new species of Dasyhelea Kieffer, 1911 (Diptera: Ceratopogonidae) visiting flowers of Aristolochia in France." Polish Journal of Entomology 93 (September 26, 2024): 17–22. http://dx.doi.org/10.5604/01.3001.0054.7587.

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Both sexes of Dasyhelea porczynskii Szadziewski, Blatrix et Dominiak, n. sp. collected from flowers of Aristolochia clematitis L. in southern France are described and illustrated. The new species is closely related to D. leptoclada Remm, 1967 female of which is briefly diagnosed for the first time.
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10

Bartha, Gergely Sámuel, Gergő Tóth, Péter Horváth, Eszter Kiss, Nóra Papp, and Monika Kerényi. "Analysis of aristolochlic acids and evaluation of antibacterial activity of Aristolochia clematitis L." Biologia Futura 70, no. 4 (2019): 323–29. http://dx.doi.org/10.1556/019.70.2019.36.

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Introduction Several Aristolochia species were used as medicinal herb across Europe and in recent years, their antimicrobial activity has also been investigated. Materials and methods In this study, A. clematitis was selected to evaluate the aristolochic acids I and II (AA I and AA II) concentrations and the antimicrobial activity of methanol, hexane, butanol, and ethyl acetate extracts of the root, stem, leaf, root, and fruit. AA I and AA II contents were measured by a validated high-performance liquid chromatography–ultraviolet method. Results Each fraction of the plant contained AA I and AA
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11

Pohodina, L. I., N. Ye Burda, and V. S. Kyslychenko. "THE STUDY OF THE AMINO ACID COMPOSITION OF BIRTHWORT DUTCHMAN’S PIPE (ARISTOLOCHIA CLEMATITIS L.)." Fitoterapia 3, no. 3 (2019): 49–52. http://dx.doi.org/10.33617/2522-9680-2019-3-49.

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12

Samsonova, O. E., V. N. Belous, and Yu A. Dudar’. "Pharmacological characterization of Aristolochia clematitis L. growing in the Stavropol Region." Pharmaceutical Chemistry Journal 40, no. 4 (2006): 199–201. http://dx.doi.org/10.1007/s11094-006-0091-x.

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13

Pohodina, L. I., N. Ye Burda, V. S. Kyslychenko, and A. A. Voloshyna. "THE STUDY OF THE MINERAL COMPOSITION OF BIRTHWORT DUTCHMAN’S PIPE (A." Fitoterapia 2, no. 2 (2020): 55–57. http://dx.doi.org/10.33617/2522-9680-2020-2-55.

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14

Benmehdi, Houcine, Asma Behilil, Faïza Memmou, and Abdelillah Amrouche. "Free radical scavenging activity, kinetic behaviour and phytochemical constituents of Aristolochia clematitis L. roots." Arabian Journal of Chemistry 10 (February 2017): S1402—S1408. http://dx.doi.org/10.1016/j.arabjc.2013.04.015.

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15

Puławska, Zofia. "Tissues development in stems of Aristolochia clematitis L. in the point of view of multicellular complexes formation." Acta Societatis Botanicorum Poloniae 51, no. 1 (2014): 107–25. http://dx.doi.org/10.5586/asbp.1982.010.

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After cytokinesis the cells do not separate but remain within the wall of the mother cell. After a series of divisions a multicellular complex arises. In the stems of &lt;em&gt;Aristolochia clematitis&lt;/em&gt; procambium is closer related to protoxylem than to protophloem, and metaphloem is closer related to metaxylem than to protophloem. Since protophloem has a closer common origin with fibre primordia than with the remaining tissues, it cannot be decided unequivocally what is the origin of the fibres or when procambium differentiates. The common origin of the primary vascular tissues is vi
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16

Ducu, Catalin, Georgiana Cirstea, Sorin Moga, et al. "THERAPEUTIC POTENTIAL OF HYDROGELS BASED ON PLANT EXTRACTS AND ZINC OXIDE NANOPARTICLES IN SKIN LESIONS." Current Trends in Natural Sciences 11, no. 21 (2022): 128–33. http://dx.doi.org/10.47068/ctns.2022.v11i21.014.

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Colonization of skin lesions with various infectious agents is still a major health threat. The misuse and abuse of antibiotics and synthetic drugs has led to increased resistance of pathogens and therefore difficulties in treating these medical conditions, requiring the development of new materials with antimicrobial efficacy. Thus, the aim of the study was to determine the therapeutic potential of hydrogels based on plant extracts (Chelidonium majus L., Arnica montana L., Calendula officinalis L., Aristolochia clematitis L., Hippophae rhamnoides L.) and zinc oxide nanoparticles in skin lesio
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17

Puławska, Zofia. "Longitudinal arrangement of leaf traces and compound vascular bundles in the stem of Aristolochia clematitis L." Acta Societatis Botanicorum Poloniae 51, no. 3-4 (2014): 361–75. http://dx.doi.org/10.5586/asbp.1982.033.

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The compound vascular bundles in the &lt;em&gt;Aristolochia clematitis&lt;/em&gt; stems are entirely composed of leaf traces. At the stage of protoxylem differentiation there is not one vessel in the compound vascular bundle which would belong solely to the stem. In a mature compound vascular bundle less xylem belongs to traces of higher lying leaves than to these of the lower situated ones. The lower ends of the particular traces, components of the compound vascular bundle, gradually become thinner. The traces of the upper leaves are represented in the xylem of the compound vascular bundle in
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18

Zhatova, H. O., L. M. Bondarieva, and Y. V. Koplyk. "Features of the rhiospheric microbiota of medicinal plants." Bulletin of Sumy National Agrarian University. The series: Agronomy and Biology, no. 4(38) (December 25, 2019): 61–65. http://dx.doi.org/10.32845/agrobio.2019.4.9.

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Medicinal plants are the source of biologically active compounds that are in constant demand for the pharmacological industry. Active production of plant secondary metabolites is possible only under optimal conditions of plant growth and development. The state of medicinal plants is controlled not only by genotype and environmental conditions but by the qualitative and quantitative composition of their microbiota as well. The study of the structure and function of the rhizospheric communities of medicinal plants is important for obtaining of high quality medicinal raw materials. Microorganisms
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19

Dorofeyeva, Ludmila. "Lianas collection from the Botanical Garden and its science-practice utilization." BIO Web of Conferences 38 (2021): 00025. http://dx.doi.org/10.1051/bioconf/20213800025.

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Collection of many years’ lianas gathered in Botanical Garden, placed in south-taiga boreal area of Middle Ural. The collection bank of voluble plants is exposed of 12 genus and 17 families growing wild species of lianas originating from various areas of the Earth temperate zone and contains of more than 200 taxons. The most imposing among them is collection of genus Clematis L., which contains species of natural flora and sorts of Clematis from Russian and World selection of more than 200 taxons. Taxons are listed and analyzed by biomorphic and geographic criteria. Many years observing of col
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20

Zazharskyi, V. V., P. О. Davydenko, O. М. Kulishenko, I. V. Borovik, N. M. Zazharska, and V. V. Brygadyrenko. "Antibacterial and fungicidal activities of ethanol extracts of 38 species of plants." Biosystems Diversity 28, no. 3 (2020): 281–89. http://dx.doi.org/10.15421/012037.

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Galenic preparations are broadly used against microorganisms pathogenic to humans, thought their poteintial in this aspect is not studied completely. In our in vitro experiment we studied the influence of alcohol tinctures from 38 species of plants on 15 species of bacteria and one species of fungus. Zones of growth inhibition of colonies measuring over 8 mm were observed during the use of ethanol extracts of Maclura pomifera against eight species of microorganisms (Escherichia сoli, Proteus mirabilis, Serratia marcescens, Yersinia enterocolitica, Salmonella typhimurium, Rhodococcus equi, Camp
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21

И.И., Тернинко, Суина И.О., Генералова Ю.Э. та Дитковская З.Р. "ДИНАМИКА МИНЕРАЛЬНОГО СОСТАВА СЫРЬЯ КИРКАЗОНА ЛОМОНОСОВИДНОГО И ПОЧВЫ С МЕСТА ЕГО ПРОИЗРАСТАНИЯ". Вопросы обеспечения качества лекарственных средств, № 1(27) (20 березня 2020). http://dx.doi.org/10.34907/jpqai.2020.31.52.007.

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Методом атомно-эмиссионной спектрометрии с индуктивно-связанной плазмой был проведен анализ элементного состава травы кирказона ломоносовидного (Aristolochia clematitis L.) и образцов почвы с места его произрастания в динамике 2017-2019 годов. Мажоритарными макро- и микроэлементами являются калий, магний и кальций, железо, марганец и цинк соответственно. Определено содержание тяжелых металлов и определены КБП травы кирказона. The ultimate composition of the Aristolochia clematitis L. herb and soil samples from the place of its growth in the dynamics of 2017-2019 was analyzed by atomic emission
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22

Pohodina, Lala, Nadiia Burda, Viktoriia Kyslychenko, Larisa Andryukova, and Artur Martynov. "AristoLochic acid I Determination in AristoLochia Clematitis L. raw materials by HPLC Method." Bulletin of Pharmaceutical Sciences. Assiut, October 3, 2020, 0. http://dx.doi.org/10.21608/bfsa.2020.38940.1018.

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23

Suina, Irina O., Olga V. Yakovleva, Inna I. Terninko, Maria N. Povydysh, and Miroslava V. Ogloblina. "Morphological and anatomical diagnostic features of Aristolochia clematitis L. herb." Thai Journal of Pharmaceutical Sciences 43, no. 4 (2025). https://doi.org/10.56808/3027-7922.3057.

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24

-, Marclin Joe Felix D., Dr M. Arul Sheeba Rani -, S. Kiruthika -, and M. J. Monisha Violet -. "Heavy Metal Analysis Of Some Phytotherapeutic Plants In Sanamavu Forest, Krishnagiri District Of Tamil Nadu, India." International Journal For Multidisciplinary Research 5, no. 5 (2023). http://dx.doi.org/10.36948/ijfmr.2023.v05i05.7887.

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ABSTRACT Phytotherapeutic plants such as Aristolochia indica L. Bidens pilosa L. Clematis zeylanica L. (Pori.) Syn: Naravelia zeylanica L. Corallocarpus epigaeus (Rottl.) Ex Willd. and Plectranthus caninus L. are used as important source of medicine for village people near the Sanamavu Forest area, Krishnagiri District. The concentration of five heavy metals Cadmium (Cd), Lead (Pb), Arsenic (As), Mercury (Hg) and Thalium (TI) are investigated using Inductively Coupled Plasma Mass Spectrometer (ICP-MS). Heavy metal analysis shows that the high amount of lead (Pb) 2.36 mg/kg is identified in Pla
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