8614 Volume 5- Issue 4: 2018 ISSN: 2574-1241 DOI: 10.26717/BJSTR.2018.11.002121 Merike Vaher. Biomed J Sci & Tech Res Short Communication Biomedical Journal of Scientific & Technical Research (BJSTR) Open Access Introduction Lyme borreliosis, although new, is the most common zoonotic disease in Europe, with an estimated 650 000 – 850 000 cases total and a higher incidence rate in Central Europe [1]. Treatment with antibiotics is not always effective [2] therefore, it seems logical to turn to medicinal plants for new treatment options. Liebold et al. showed that lipophilic extract from Dipsacus sylvesteris has activity against Borrelia burgdorferi [3]. Dipsacus fullonum has been used as a case study to show a promising herb that simply has no research on whether it helps people with Lyme borreliosis or any tick-borne infection [4]. Several herbal lymphatics, including Galium verum, can also be used for treatment [5]. Iridoids and polyphenols are present in many medicinal plants and their strong anti-inflammatory effects have been proven [6]. Extraction is the crucial first step in the analysis of medicinal plants. It is necessary to extract these desired chemical components from plants for further separation and characterization. For extraction, different methods were used. Mazina et al. successfully used 80% methanol and ultrasonic bath for the extraction of bioactive compounds from medicinal plants [7]. The aim of the study was to compare the different extraction methods, determine the most suitable for the extraction of bioactive compounds, and identify the major constituents. Materials and Methods Extraction Procedure: 1 g of dried plant was treated with 10 ml of 80% (v/v) methanol or 70% (v/v) ethanol and sonicated for 30 min at 40 °C. For Hot Water Extraction (HWE) – 10 mL of boiling water was added to 1 g of plant material and sonicated for 30 min at 80 °C. Pressurized Hot Water Extraction (PHWE) was carried out using 100 mL autoclave, produced by NWA analytics Meßgeräte GmbH. 6 g of dried material and 60 mL of water were loaded into the reactor. Extraction was carried out for 30 min at 80 bar and 100 °C. All obtained extracts were centrifuged for 15 min at 4000 rpm and the supernatant was diluted in accordance with needs. Results and Discussion The efficiency of the extraction methods was evaluated by quantitative analysis of four phenolic compounds – chlorogenic acid, rutin, protocatechuic acid and caffeic acid. The obtained results did not clearly favor one method. HWE and PHWE provided the most effective extraction of chlorogenic acid (6.9± 0.3 mg/g and 6.7±0.3 mg/g respectively) from Galium verum. At the same time, the highest yield of this acid in Dipsacus fullonum was obtained with methanolic and ethanolic extractions (8.2±0.3 mg/g and 8.1±0.3 Extraction and Analysis of Bioactive Compounds from Dipsacus Fullonum and Galium Verum for Lyme Borreliosis Treatment Maria Kuhtinskaja and Merike Vaher* Institute of Chemistry and Biotechnology, Tallinn University of Technology, Estonia Received: : November 22, 2018; Published: : November 29, 2018 *Corresponding author: Merike Vaher, Institute of Chemistry and Biotechnology, Estonia Abstract Four different methods for the extraction of bioactive compounds from the two medicinal plants were compared. Based on qualitative analysis and comparison of chromatograms, all extracts can be characterized by a high content of polyphenols and iridoids. The identification of major bioactive compounds in both plant extracts were carried out using HPLC-MS analysis. More than fifteen different constituents were identified. The highest amount of iridoid glucosides were observed in Dipsacus samples. Keywords:Bioactive Compounds, Dipsacus Fullonum, Galium Verum, HPLC-MS, Extraction, Lyme Borreliosis Abbreviations: HWE - Hot Water Extraction; PHWE - Pressurized Hot Water Extraction