Towards an understanding of Amayeza esiXhosa stores (African chemists): how they operate, and the services they offer in the Eastern Cape

Cocks, Michelle

January 1997

In medical anthropology there has been a tendency to dichotomize western biomedical . healtb services, on the one hand, and traditional health care practices on the other. Much attention has been focused on the comparison between these two approaches in the hope that they might be reconciled. The problem with this approach is twofold. In the first place, it has not always acknowledged the local, historic~1, political and economic contexts in which different approaches to health care have evolved and in the second place, health care services which belong to neither the western nor traditional healing spheres and which are driven by commercial interests have been almost completely neglected because they fall outside of the basic dichotomy. Amayeza stores have been a feature of South African towns and cities for many years. They mayor may not be run by Africans, but their clientele is almost exclusively African in this region. They deal in a bewildering variety of products and remedies, from untreated herbal and animal products to pharmaceuticals specially prepared for the African market, to Dutch and Indian Remedies. These stores both reflect transfonnations in indigenous perceptions of health care and, by virtue of the choices they offer, generate change. In this empirical study three stores in the Eastern Cape are selected for detailed study - two in King William's Town, the regional capital, and one in the small town of Peddie. The approach is holistic, emphasizing the social, political and economic context, the business histories and running of each shop, and, in particular, the perceptions and choices of a sample of the customers in each case. The success of the amayeza phenomenon derives from its eclecticism and syncretism. These stores impose neither a western nor a traditional model of health care on their clients, but offer them a range of choices that reflects the complex multicultural history of their own South African society.

In vitro activity of bioactive compounds of selected South African medicinal plants on clinical isolates of Helicobacter pylori

Okeleye, Benjamin Ifeoluwa

January 2011

The stem bark of Peltophorum africanum and Bridelia micrantha are used in South Africa traditional medicine for treatment of intestinal parasites, relieve problems and human immunodeficiency virus/ acquired immune deficiency syndrome (HIV/AIDS). The growing problem of antibiotic resistance by Helicobacter pylori the major etiological agent in gastritis, gastric cancer, peptic and gastric ulcer demands the search for novel compounds from plant based sources. This study was aimed to determine the antimicrobial activity of five solvent (ethylacetate, acetone, ethanol, methanol and water) extracts of the stem bark of P. africanum and B. micrantha on clinical strains of H. pylori in a bid to identify potential sources of cheap starting materials for the synthesis of new drugs. H. pylori strains were isolated from patients presenting with gastric related morbidities at the Livingstone Hospital, Port Elizabeth for endoscopy and confirmed following standard microbiology procedures. The plant extracts including clarithromycin were tested against 31 clinical strains of H. pylori by the agar well diffusion method. The most potent extract was evaluated by the microdilution method to determine the Minimum Inhibitory Concentration (MIC50&90), followed by the rate of kill. Preliminary phytochemical analysis was carried out. The one way ANOVA test was used to statistically analyse the results. All the extracts demonstrated anti-H. pylori activity with zone diameters of inhibition that ranged from 0 to 23 mm for the extracts and 0 to 35 mm for clarithromycin. Marked susceptibility (100%) was recorded for the ethyl acetate extract of P. africanum (P. afr. EA) and the acetone extract of B. micrantha (B. mic. A), which were statistically significant (P < 0.05) compared to all other extracts and clarithromycin. For B. micrantha ethyl acetate extract, 93.5 percent susceptibility was observed while for the control iv antibiotic, clarithromycin it was 58.1 percent. The MIC50 ranged from 0.0048 to 0.313 mg/mL for P. afr. EA, and from 0.0048 to 0.156 mg/mL for B. mic. EA; MIC90 ranged from 0.156 mg/mL to 0.625 mg/mL and 0.0048 to 2.5 mg/mL for P. afr. EA and B. mic. EA respectively. There was a significant statistical difference observed in potency of both P. afr. EA and B. mic. A compared to the two antibiotics (P < 0.05). One hundred percent killing by P. afr EA was observed at 0.05 mg/mL (½ x MIC) and 0.2 mg/mL (2 x MIC) in 66 h for strain PE466C and PE252C respectively. For B. mic. EA, 100 percent killing effect of both strains (PE430C and PE369C) was observed at 0.1 mg/mL (2 x MIC) in 66 h. Qualitative phytochemical analysis confirmed the presence of alkaloids, flavonoids, steroids, tannins and saponins in the ethyl acetate extracts of both plants, which could be a potential template of lead molecule for the design of new anti- Helicobacter pylori therapies.

Helicobacter pylori

Microbial sensitivity tests

Traditional medicine -- South Africa

Gram-negative bacterial infections

An investigation of the phytochemistry and biological activity of Asparagus laricinus

Fuku, Sandile. Lawrence.

January 2014

Thesis (D. Tech. (Biomedical Technology)) -- Central University of Technology, Free State, 2014 / Medicinal plants are part of indigenous people‟s cultural heritage, thus since ancient times treatment of various diseases using medicinal plants has been part of human culture. The value of medicinal plants to mankind has been very well proven. It is estimated that 70% to 80% of people worldwide rely mainly on traditional health care systems, especially on herbal medicines (Stanley and Luz, 2003). In many societies the medicinal properties of plants were discovered mostly through trial and error, but use was also influenced by the belief systems of the people involved and often became entangled with religious and mythical practices (Mathias et al., 1996). Besides that, medicinal plants are proving to be rich resources of constituents that can be used in drug development and synthesis. Medicinal plants have been a source of a wide variety of biologically active compounds for many centuries and have been used extensively as crude material or as pure compounds for treating various disease conditions. Between 1% and 10% of plants out of an estimated 250 000 to 500 000 species of plants on earth are used by humans (Boris, 1996). 2 Plants used for medicinal purposes contribute significantly to the development of major medical drugs that are used today. Most common medicines have compounds extracted from plants as their primary active ingredients and many have provided blueprints for synthetic or partially synthesized drugs (Simpson and Ogorzaly, 2001). There has been a major resurgence of interest in traditionally used medicinal plants, with a number of international and local initiatives actively exploring the botanical resources of southern Africa with the intention to screen indigenous plants for pharmacologically active compounds (Gurib-Fakim et al., 2010; Rybicki et al., 2012). South Africa is considered a “hot spot” for biodiversity and more than 22 000 plant species occur within its boundaries. This represents 10% of the world‟s species, although the land surface of South Africa is less than 1% of the earth‟s surface (Coetzee et al., 1999). Plants have also been used by man for various purposes, among others as arrow and dart poisons for hunting, poisons for murder, hallucinogens used for ritualistic purposes, stimulants for endurance and hunger suppression, as well as medicine (Duke et al., 2008; Cragg and Newman, 2005). A derivative of the polyhydroxy diterpenoid ingenol isolated from the sap of Euphorbia peplus (known as “petty spurge” in England or “radium weed” in Australia), which is a potential chemotherapeutic agent for skin cancer, is currently under clinical development by Peplin Biotech for the topical treatment of certain skin cancers (Kedei et al., 2004; Ogbourne et al., 2004). Combretastatin A-4 phosphate, 3 a stilbene derivative from the South African bush willow, Combretum caffrum, acts as an anti-angiogenic agent causing vascular shutdowns in tumors (Newman et al., 2005; Holwell et al., 2002). Further reliance on plants for drug development is demonstrated by the use of galantamine hydrobromide, an alkaloid obtained from the plant Galanthus nivalis used traditionally in Turkey and Bulgaria for the treatment of Alzheimer‟s disease (Howes et al., 2003; Heinrich and Teoh, 2004). The plant chemicals used for the above-mentioned purposes are secondary metabolites, which are derived biosynthetically from plant primary metabolites (e.g. carbohydrates, amino acids and lipids). Secondary metabolites are organic compounds that are exclusively produced by plants and that are not directly involved in the normal growth, development and reproduction of a plant (Firn and Jones, 2003). Yet, they have many functions that are important for the plant‟s long-term health and appearance. Plants, being stationary, have to cope with a number of challenges, including engineering their own pollination and seed dispersal, local variation in the supply of the simple nutrients that they require to synthesize their food and the coexistence of herbivores and pathogens in their immediate environment. Plants have therefore evolved secondary biochemical pathways that allow them to synthesize a spectrum of organic molecules, often in response to specific environmental stimuli, such as herbivore-induced damage, pathogen attacks, or nutrient deprivation (Reymond et al., 2000; Hermsmeier et al., 2001). 4 The biosynthesis of secondary metabolites is derived from the fundamental processes of photosynthesis, glycolysis and the Krebs cycle to afford biosynthetic intermediates which, ultimately, result in the formation of secondary metabolites also known as natural products (Dewick, 2002). It is hypothesized that secondary metabolism utilizes amino acids and the acetate and shikimate pathways to produce “shunt metabolites” (intermediates) that have adopted an alternate biosynthetic route, leading to the biosynthesis of secondary metabolites (Sarker et al., 2006). Modifications in the biosynthetic pathways that produce secondary metabolites are probably due to natural causes (e.g. viruses or environmental changes) or unnatural causes (e.g. chemical or radiation processes) in an effort to adapt or provide longevity for the plant (Sarker et al., 2006). Plants‟ secondary metabolites can be classified into several groups according to their chemical classes, such alkaloids, terpenoids and phenolics (Harbone, 1984; Wink, 2003).

Asparagaceae

Botanical chemistry

Cancer - Treatment

Traditional medicine - South Africa

Traditional health practitioners' practices and the sustainability of extinction-prone traditional medicinal plants

Magoro, Madimetja David

06 1900

For centuries Traditional Health Practitioners (THPs) used their indigenous knowledge (IK) in conserving medicinal plants and environments to maintain sustainability. With the rapid environmental, social, economic and political changes occurring in many areas inhabited by rural people exist the danger that the loss of biodiversity from habitat destruction and unsustainable harvesting practices will result in some species becoming extinct. The main aim of the study was to determine the natural habitat of extinction-prone traditional medicinal plants combining the insight of THPs with an ultimate goal of guiding research for the conservation, propagation and cultivation of traditional medicinal plants. Despite problems, opportunities and challenges expressed and identified by THPs, the analysis of data from interview schedule and personal observations, show that the THPs' practices are shaped by historical processes and local cultural values, social norms and their management strategies that are influenced by a broad range of factors. / Agriculture, Animal Health & Human Ecology / M.A. (Human Ecology)

615.321

Healers -- South Africa -- Limpopo

A field-study of the use and understanding of umqalothi (Strychnos henningsii) by traditional healers in KZN and its relationship to the homoeopathic proving of the substance

Mdima, Sihle Velenkosini

January 2011

Dissertation submitted in partial compliance with the requirements of the Master’s Degree in Technology: Homoeopathy, Durban University of Technology, 2011. / The purpose of this study was to investigate the relationship between the understanding and utilization of Strychnos henningsii (umqalothi, Red bitterberry) by Zulu traditional healers and the signs and symptoms induced by the thirtieth centesimal potency (30CH) homoeopathic dilution of the crude substance in a previously conducted triple-blind placebo-controlled homoeopathic proving. Methodology The study was carried out in four dispersed areas of KZN (Harding, Durban, Weenen and Melmoth). From each area one isangoma and one inyanga were interviewed, resulting in eight interviews. All visits were conducted by the researcher, who acted as principal communicator and translator, and his supervisor, who assisted him by doing live video recording of all interviews. The methodology employed was that of qualitative interviewing using semi-structured interviews. Each video was transcribed into Zulu text and subsequently translated to English text by the researcher and his supervisor. The data obtained from the interviews was then compared to data obtained from the previously conducted homoeopathic proving of Strychnos henningsii 30CH in order to evaluate the overlap between the traditional and the homoeopathic approach to utilisation of the plant. Results After comparison, it was found that there was an overlap in the gastro-intestinal system, cardio-vascular system, respiratory system and female/male genito-urinary system and in some mental symptoms. v However, there were no overlaps found in traditional usage of the plant as an antisnake venom, and in the proving symptoms related to scalp, hair, eyes, ear, nose, face, mouth, teeth and throat. Conclusion After comparison between the understanding and utilization of Strychnos henningsii by Zulu traditional healers and the signs and symptoms induced by the proving of Strychnos henningssi 30CH, it was concluded that while there are certain overlaps, the homoeopathic proving produced a wider range of symptoms which may either serve to extend the traditional use, or overlap with existing traditional use not exposed within the scope of this study. Interviews with a greater number of traditional healers in a wider geographic area may reveal a closer correlation between homoeopathic proving symptoms and patterns of use by traditional healers.

Homeopathy

Strychnos

Alternative medicine

Healers--South Africa--KwaZulu-Natal

Traditional medicine--South Africa

The extraction, purification and evaluation of compounds from the leaves of Leonotis Leonorus for anticonvulsant activity.

Muhizi, Thèoneste

January 2002

The aim of this study is to isolate and evaluate the anticonvulsant components from the leaves of Leonotis leonorus (L) R.aR. and to see if there is any change in activity with the origin of the plant material and I or the season in which plant material is collected. Therefore, in this study, two sites were chosen for collection of plant material and the collection was made in summer and in winter. Chemical, physical and pharmacological methods were used to isolate, identify and to evaluate compounds isolated from the leaves of Leonotis leonorus for anticonvulsant activity.

Medicinal plants. South Africa

Materia medica, Vegetable. South Africa

Traditional medicine. South Africa

Pharmaceutical chemistry. South Africa

Epilepsy, Treatment.

South African medicinal orchids : a pharmacological and phytochemical evaluation.

Chinsamy, Mayashree.

January 2012

The Orchidaceae makes up the largest and most diverse family of flowering plants. Orchids are popular, often expensive ornamentals, with a broad range of ethnobotanical applications. There is very limited documented information on South African medicinal orchid species; no formal pharmacopoeia outlining ethnobotanical uses; and ethnobotanical and distribution records are either scarce or inconsistent and plant populations are becoming gradually smaller. There have been significant developments in medicinal orchid research worldwide with medicinal use and corresponding pharmacological and phytochemical properties being extensively investigated. It is evident from the literature that there is no pharmacological research on South African medicinal orchids; hence the need to explore biological activity and chemical composition of South African medicinal orchid species. The ethnobotanical approach used to select the orchid species for pharmacological and phytochemical research elsewhere, yielded valuable biological compounds. Thus, a similar approach was applied to South African medicinal orchids. There are approximately 20 000 species and 796 genera of orchids distributed across the world. In southern Africa, orchids are widely represented with 55 genera and 494 species. Approximately 75% are endemic to this region. As part of the current investigation a review of available ethnobotanical literature on South African medicinal orchids was prepared. The review revealed that an estimated 49 indigenous orchid species from 20 orchid genera are currently being informally traded and used in South African traditional medicine. They are used primarily for medicinal and cultural purposes, especially by the Zulu community in South Africa. Medicinal uses of orchid species include: treatment of inflammatory, intestinal, neurological and reproductive disorders and emetics are used to cause emesis. Non-medicinal uses of orchid species include: love, fertility, protective and lethal charms. Based on their ethnobotanical uses and endemism, South African orchids were considered to be one of the untapped sources of bioactive compounds that needed to be researched. The current investigation addressed the broader aims of medicinal plant research by determining the efficacy, safety and chemical profile of seven indigenous orchid species used in South African traditional medicine and practices. The biological and toxic effects of orchid plant extracts were assessed using established pharmacological bioassays. The phytochemical evaluation of the seven orchid plant extracts provided insight into the classes of chemical compounds present and their possible role in the observed biological activities. The potential of plant extracts from seven orchid species used in South African traditional medicine, as sources of natural bioactive products, are discussed. The current investigation determined the biological activity and chemical profile of seven orchid species commonly traded in KwaZulu-Natal herbal markets: Ansellia africana Lindl., Bulbophyllum scaberulum (Rolfe) Bolus, Cyrtorchis arcuata (Lindl.) Schltr., Eulophia hereroensis Schltr., Eulophia petersii (Rchb.f.) Rchb.f., Polystachya pubescens (Lindl.) Rchb.f. and Tridactyle tridentata (Harv.) Schltr. Well established in vitro micro-dilution bioassays were used to determine the antibacterial, antifungal, anthelmintic activities of crude orchid extracts. A minimum inhibitory and/or lethal effect of organic and aqueous crude orchid extracts was observed against Bacillus subtilis, Escherichia coli, Klebsiella pneumoniae, Staphylococcus aureus, Candida albicans and Caenorhabditis elegans. Tridactyle tridentata aqueous root extract produced the most effective antibacterial activity against S. aureus (0.049 mg/ml). All T. tridentata organic root extracts produced significant inhibitory activities against B. subtilis and S. aureus. Eulophia petersii DCM pseudobulb extracts significantly inhibited all bacterial strains tested (0.39 mg/ml against S. aureus and 0.78 mg/ml against B. subtilis, E. coli, and K. pneumoniae). Eulophia hereroensis 80% EtOH root extract was the only other extract to exhibit significant inhibitory effects against K. pneumoniae (0.65 mg/ml). After 48 h C. albicans was most susceptible to P. pubescens aqueous pseudobulb extract (0.0816 mg/ml). Eulophia petersii DCM pseudobulb extract however, exhibited significant activity against C. albicans (0.65 mg/ml) over 72 h. Cyrtorchis arcuata leaf and root extracts were the most effective anthelmintic extracts with MLCs of 0.041 mg/ml for 80% EtOH leaf and root extracts; 0.049 mg/ml for aqueous leaf extracts and 0.78 mg/ml for aqueous and DCM root extracts. Caenorhabditis elegans was most susceptible to all A. africana and T. tridentata organic root extracts. A similar significant effect was observed for all E. petersii organic pseudobulb extracts, DCM extracts and organic root extracts of B. scaberulum. Only the DCM tuber and root extracts of E. hereroensis exhibited lethal effects on C. elegans. All of the P. pubescens extracts showed poor anthelmintic activity. Similarly, in vitro enzyme based cyclooxygenase (COX) 1 and 2 and acetylcholinesterase (AChE) inhibitory bioassays, revealed significant inhibition of COX-1, COX-2 and AChE enzymes by crude organic and certain aqueous orchid extracts. Out of a total of 53 evaluated extracts, 21 and 13 extracts exhibited significant anti-inflammatory activity in the COX-1 and COX-2 assays respectively. The DCM tuber extract of E. hereroensis was the only extract to significantly inhibit both COX enzymes, 100.02±0.11% and 87.97±8.38% respectively. All B. scaberulum root extracts (DCM, EtOH and water) exhibited COX-2 selective inhibitory activity (100.06±0.01, 93.31±2.33 and 58.09±3.25%). Overall, the DCM root extract of A. africana was found to be the most potent extract (EC50 0.25±0.10 mg/ml). The 80% EtOH root extract of B. scaberulum was the most potent in the COX-2 assay (EC50 0.44±0.32 mg/ml). Generally the root extracts exhibited greater AChE inhibitory activity; where the most active extract was B. scaberulum DCM root extract (EC50 0.02±0.00 mg/ml). All aqueous extracts, except that of A. africana roots and B. scaberulum pseudobulbs, showed poor or no COX-1 and COX-2 inhibition. The antioxidant capacity of crude orchid extracts was determined using: hydrogen atom transfer (HAT) (β-carotene/linoleic acid assay) and single electron transfer (SET) (2,2‟-diphenylpicrylhydrazyl (DPPH) free radical scavenging assay and ferric reducing antioxidant power (FRAP) assay) reaction-based assays. Potent antioxidant effects were observed for certain crude methanolic orchid extracts. Generally, there was a dose-dependent change in radical scavenging activities of crude extracts from which EC50 values were determined. The root extracts of all species, except that of E. petersii, had consistently more effective radical scavenging activity than that of other plant parts within each species. The pseudobulb extract of E. petersii, was the most potent extract (EC50 1.32±0.86 mg/ml). In the β-carotene-linoleic acid assay, based on the oxidation rate ratio (ORR), the leaf extract of T. tridentata and the root extracts of C. arcuata and E. hereroensis exhibited the best antioxidant effects (0.02, 0.023 and -0.15 respectively). Similarly, the average antioxidant activity (%ANT) of these samples was greater than that of BHT (95.88±6.90%) and all other samples. Bulbophyllum scaberulum leaf, pseudobulb and root extracts, E. petersii pseudobulb extract and T. tridentata root extract also exhibited a greater capacity to prevent β-carotene oxidation when compared to BHT. All crude orchid extracts tested demonstrated a general dose-dependent response in the ferric reducing power assay. The reducing power of ascorbic acid (0.08 mM) and BHT (0.05 mM), as measured as absorbance, was 1.12±0.12 and 0.73±0.08 respectively. At 6.25 mg/ml, A. africana root and E. petersii pseudobulb extracts were the most effective in reducing power activity. The short-term bacterial reverse mutation Ames Salmonella/microsome mutagenicity (ASMM) assay, which makes use of mutant histidine-dependent Salmonella typhimurium strains, was used to determine the mutagenicity and toxicity of crude orchid extracts. In the presence of a mutagen S. typhimurium TA98 strain detects frameshift events while the TA100 and TA102 strains detect base-pair substitutions. In the absence of metabolic activation, mutagenic extracts were observed against the TA98 strain only. All A. africana DCM leaf and stem extracts tested, the DCM root extract (0.5, 0.05 mg/ml) and EtOH leaf, stem and root extracts at 5 mg/ml exhibited mutagenic effects. The EtOH root extracts (5, 0.5 mg/ml) of B. scaberulum exhibited mutagenic indices (MI) comparable to that of 4NQO (17.00 and 13.00, respectively). Eulophia petersii PE pseudobulb extract demonstrated mutagenic potential at 5 mg/ml. The ethanolic root extracts of T. tridentata showed mutagenic effects at 5 and 0.5 mg/ml. The mutagenicity index (MI) with metabolic activation (S9) was determined using only the TA98 strain; where no mutagenic effects were observed. In the phytochemical evaluation of crude methanol orchid extracts, the Folin-Ciocalteu assay for total phenolics, butanol-HCl assay for condensed tannins, rhodanine assay for gallotannins and vanillin assay for flavonoids revealed a quantitative chemical profile of the tested samples. The correlation between observed biological effects and chemical compounds present was found to be generally significant. The significant antimicrobial, anthelmintic, anti-inflammatory and antioxidant activity of E. petersii pseudobulb extracts and E. hereroensis tuber and root extracts may be attributed to their high total phenolic content. Alternatively, the significant levels of gallotannin content in E. hereroensis may have contributed to the bioactivity. The flavonoid content of B. scaberulum and T. tridentata may explain the potent activity observed in the anti-inflammatory, antioxidant and acetylcholinesterase inhibitory assays; while the flavonoid content C. arcuata may have contributed to the potent anthelmintic and antioxidant activities. The significantly higher levels of gallotannin content may explain the significant anti-inflammatory and anthelmintic activity of A. africana. A number of biologically active compounds have been isolated from certain Orchidaceae species around the world on the basis of their traditional medicinal uses. The traditional uses of these orchid species were scientifically validated. No pharmacological research has been previously conducted on South African medicinal orchids; therefore the current investigation has produced novel findings on the efficacy and safety of these orchid species and promotes the continued research of medicinal orchids in South Africa. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2012.

Orchids--South Africa.

Medicinal plants--South Africa.

Ethnobotany--South Africa.

Pharmacognosy--South Africa.

Phytochemicals.

Traditional medicine--South Africa.

Theses--Botany.

Supercritical fluid extraction and analysis of indigenous medicinal plants for uterotonic activity.

Sewram, Vikash.

January 1997

Ingestion of extracts prepared from various medicinal plants to induce or augment labour is common amongst Black South African women during the late stages of pregnancy. This applies particularly to the rural areas where modern health care facilities are often lacking. Many of these plants have not been investigated scientifically and one needs to substantiate claims of quality, safety and efficacy. Furthermore, it is believed that the consumption of these plant extracts can result in foetal meconium staining at delivery. An investigation into the uterotonic properties of three plants viz. Ekebergia capensis Sparrm. Clivia miniata (Lindl.) Regel. and Grewia occidentalis L. were carried out using guinea pig uterine smooth muscle in vitro. Supercritical fluid extraction was performed with water modified supercritical carbon dioxide to extract the uterotonic components. An attempt was also made to couple supercritical fluid extraction directly on-line to the bioassay so that on line screening of crude plant extracts could be performed within short periods of time. The effects of supercritical CO2 decompression on temperature and pH of the muscle bathing solution were considered since these factors affect muscle contractility. The direct effects of excess CO2 on intracellular mechanisms were eliminated by constructing a CO2 reduction interface together with passage of carbogen which aided in the rapid displacement of excess CO2, As samples of these extracts were found to induce muscle contraction, supercritical fluid fractionation (SFF) was performed by sequentially increasing the fluid density. Extracted fractions were obtained by sequentially increasing the pressure at constant temperature and modifier concentration in an attempt to identify the active fractions. Extractions were performed at 200 atm, 300 atm and 400 atm respectively. Subsequent testing of these fractions enabled the detection of active and inactive fractions as well as a fraction that had a spasmolytic effect on uterine muscle. The 400 atm extracts of E. capensis and C. miniata displayed maximum activity while only the 300 atm extract of G. occidentalis induced uterine muscle contraction. Subsequent analysis of the sequentially extracted fractions, by high performance liquid chromatography and micellar electrokinetic capillary chromatography revealed that certain compounds present in the fractions that stimulated muscle contraction, were sensitive to the extraction pressure hence making it possible to determine the compounds that were likely to be active. Column chromatography followed by various spectroscopic techniques were performed in an attempt to isolate and elucidate the structures of the compounds that were present in the plant extracts. The extract of Ekebergia capensis yielded five known compounds (B-sitosterol, oleanonic acid, 3-epioleanolic acid, 2,3,22,23-tetrahydroxy-2,6,1 0, 15,19 ,23-hexamethyl-6, 10, 14, 18- tetracosatetrene and 7-hydroxy-6-methoxy coumarin. The extract of Clivia miniata yieded linoleic acid and 5-hydroxymethyl-2-furancarboxaldehyde while the extract of Grewia occidentalis yielded 3-(4-hydroxy-3-methoxyphenyl)-2-propenal, a novel compound 2,2' ,6,6'-tetramethoxy-4'-al-4-(w-oxo-E-propenyl)-biphenyl and oleanonic acid. The pure compounds were further evaluated pharmacologically to identify the active components and assess the physiological mode of action by the use of various receptor blockers. Oleanonic acid, 3-epioleanolic acid, linoleic acid and 5- hydroxymethyl-2-furancarboxaldehyde and 3-(4-hydroxy-3-methoxyphenyl)-2-propenal were found to induce an agonistic muscle response. All these compounds were observed to mediate their effects through the cholinergic receptors. The results obtained in this study supports the claim of these plants possessing uterotonic properties. / Thesis (Ph.D.)-University of Natal, Durban, 1997.

Supercritical fluid extraction.

Medicinal plants--Analysis.

Meliaceae.

Amaryllidaceae.

Tiliaceae

Labour, Induced (Obstetrics)

Traditional medicine--South Africa.

Theses--Chemistry.

Chemical investigation of isihlambezo or traditional pregnancy-related medicines.

Brookes, Kathleen Bridget.

January 2004

This study was undertaken to redress the scant knowledge regarding the chemistry and mode of action of pregnancy-related traditional medicines, or isihlambezo (Zulu), which are used by 60 to 80% of women in South Africa. The three selected plants are among the six most frequently cited species from the approximately 90 used by traditional healers. The purpose of the study was to identify components which could cause uterine contractions, those with nutritional value for the foetus and mother, and those with any toxic effects. Plant root extracts were purified via silica gel column chromatography and bioassays were carried out on the fractions, using isolated rat uterine tissue. Purified compounds were identified via spectral techniques, and some were characterised by comparison to authentic standards using HPLC, and others by matching their GC-MS spectra to library standards. Thirty-eight compounds were identified in total, the majority of these being novel to the species concerned. Those isolated from Combretum kraussii were 1 sitosterol, 2 combretastatin, 3 3',4-tri-O-methylellagic acid, 4 combretastatin B-1, 5 combretastatin A-1, 6 3,3'-di-O-ellagic acid lactone, 7a ellagic acid lactone, 7b ellagic acid, 8 and 9 a mixture of combretastatin B-1 and A-1 glucosides, 10 and 11 partly characterised glucosides of ellagic acid. Those isolated from Gunnera perpensa were 12 3',4-tri-methylellagic acid, 13 ellagic acid lactone, 14 1,1'-biphenyl-4,4'-diacetic acid, 15 p-hydroxybenzaldehyde, 16 Z-methyl lespedezate, 17 and 18 partly characterized higher glucosides of Z-methyllespedezate. Those isolated rom Rhoicissus tridentata were 19 (-)-epigallocatechin, 20 (+)-gallocatechin, 21 procyanidin B3, 22 procyanidin B4, 23 (+)-catechin hydrate, 24 (+)-mollisacacidin, 25 (+)-epicatechin, 26 fisetinidol-(4a-8) catechin, 27 (-)-fisetinidol, 28 fisetinidol-(4b-8)catechin, 29 gallic acid, 30 epicatechin-3-0-gallate, 31 partly characterized hydrogel of glucose, 32 sitosterol, 33 sitosterolin, 34 y-sitosterol, 35 oleanolic acid, 36 lupen-3-one, 37 20-epi-y-taraxastananol and 38 triacontanol. The compounds with the greatest in vitro uteroactivity were predominantly proanthocyanidins or phenolic glucosides. It is proposed that effects of phenolic glucosides could be due to the interaction of the sugar moiety as well as the phenolic moiety with the receptor site in muscle tissue. The corresponding phenolic aglycones isolated were only moderately uterotonic, or unreactive by comparison. Non-polar compounds such as sitosterol and sitosterolin showed minimal enhancement of the uterine response at low concentrations, and inhibition at higher concentrations. Aqueous root extracts of the plants were all found to be non-toxic according to cell-viability tests using monkey vero cells and human fibroblasts. Extracts are therefore considered safe for human consumption, although it is recommended that Rhoicissus tridentata be used with caution because it showed the lowest cell viability of the three species, and uterine hyperstimulation has been attributed to this species, as well as CNS depression and respiratory arrest. Ions which could be nutritionally beneficial in pregnancy, calcium, iron, and phospate, were present in low in aqueous extracts. Levels of calcium and potassium ions were considered to be too low to directly stimulate uterine muscle. Proanthocyanidins, combretastatins, ellagic acid derivatives and phytosterols, with health-promoting properties, were also identified. / Thesis (Ph.D.)-University of KwaZulu-Natal, Durban, 2004.

Medicinal plants--Analysis.

Botanical chemistry.

Botany, Medical.

Traditional medicine--South Africa.

Pregnancy--Physiological aspects.

Pregnancy--Nutritional aspects.

Theses--Physiology.

The extraction, purification and evaluation of compounds from the leaves of Leonotis Leonorus for anticonvulsant activity.

Muhizi, Thèoneste

January 2002

The aim of this study is to isolate and evaluate the anticonvulsant components from the leaves of Leonotis leonorus (L) R.aR. and to see if there is any change in activity with the origin of the plant material and I or the season in which plant material is collected. Therefore, in this study, two sites were chosen for collection of plant material and the collection was made in summer and in winter. Chemical, physical and pharmacological methods were used to isolate, identify and to evaluate compounds isolated from the leaves of Leonotis leonorus for anticonvulsant activity.

Medicinal plants. South Africa

Materia medica, Vegetable. South Africa

Traditional medicine. South Africa

Pharmaceutical chemistry. South Africa

Epilepsy, Treatment.