Vicia
Levodopa
Dyskinesias
Seeds
Plant Extracts
Medicine, Ayurvedic
Natural abundance carbon isotope composition of isoprene reflects incomplete coupling between isoprene synthesis and photosynthetic carbon flow. (1/32)
Isoprene emission from leaves is dynamically coupled to photosynthesis through the use of primary and recent photosynthate in the chloroplast. However, natural abundance carbon isotope composition (delta(13)C) measurements in myrtle (Myrtus communis), buckthorn (Rhamnus alaternus), and velvet bean (Mucuna pruriens) showed that only 72% to 91% of the variations in the delta(13)C values of fixed carbon were reflected in the delta(13)C values of concurrently emitted isoprene. The results indicated that 9% to 28% carbon was contributed from alternative, slow turnover, carbon source(s). This contribution increased when photosynthesis was inhibited by CO(2)-free air. The observed variations in the delta(13)C of isoprene under ambient and CO(2)-free air were consistent with contributions to isoprene synthesis in the chloroplast from pyruvate associated with cytosolic Glc metabolism. Irrespective of alternative carbon source(s), isoprene was depleted in (13)C relative to mean photosynthetically fixed carbon by 4 per thousand to 11 per thousand. Variable (13)C discrimination, its increase by partially inhibiting isoprene synthesis with fosmidomicin, and the associated accumulation of pyruvate suggested that the main isotopic discrimination step was the deoxyxylulose-5-phosphate synthase reaction. (+info)Allelopathy in the natural and agricultural ecosystems and isolation of potent allelochemicals from Velvet bean (Mucuna pruriens) and Hairy vetch (Vicia villosa). (2/32)
We have studied on allelopathy of plants and developed methods to identify the effective substances in root exudates, leaf leacheate, and volatile chemicals emitted from plants. We found traditional cover plants that show allelopathic activity are useful for weed control. It could eliminate the use of synthetic chemicals for this purpose. Allelopathy is a natural power of plants to protect themselves by producing natural organic chemicals. Some endemic plants in Asia, already known by farmers in the region, as either cover crops used in intercropping, hedgerow, or agroforestry, were found to possess strong allelopathic abilities. Our group identified several allelochemicals from these plants. These allelopathic cover crops, mostly leguminous plants, provide protein rich food, and grow easily without artificial fertilizers, herbicides, insecticides and fungicides. In this regards, these allelopathic cover crops could save food shortage in rural area, and are useful for environmental conservation. Screenings of allelopathic plants by specific bioassays and field tests have been conducted. Hairy vetch (Vicia villosa) and Velvet bean (Mucuna pruriens) are two promising species for the practical application of allelopathy. An amino acid, L-DOPA, unusual in plants, plays an important role as allelochemical in Velvet bean (Mucuna pruriens). Hairy vetch is the most promising cover plant for the weed control in orchard, vegetable and rice production and even for landscape amendment in abandoned field in Japan. We have isolated "cyanamide", a well known nitrogen fertilizer, from Hairy vetch. This is the first finding of naturally produced cyanamide in the world. (+info)Reduced allelopathic inhibition of lettuce (Lactuca sativa) growth caused by velvet bean (Mucuna pruriens) under 3D-clinorotation. (3/32)
Allelopathy between Mucuna pruriens (velvet bean) and Lactuca sativa (lettuce) was studied under 3D-clinorotation. Growth of both roots and shoots of lettuce seedlings was suppressed by the presence of velvet bean. The degree of suppression was less on the clinostat compared to the normal static earth gravity. L-DOPA (L-3, 4-dihydroxyphenylalanine) is known to be a major substance in allelopathy of velvet bean. Amount of L-DOPA diffused out from a sintered filter paper into agar medium was compared between clinorotation and control group, and found no significant difference. It was concluded that some factors related to release, transport, and sensing phenomena of allelopathic substances may be responsible to the new findings in this study. (+info)Mucuna pruriens in Parkinson's disease: a double blind clinical and pharmacological study. (4/32)
BACKGROUND: The seed powder of the leguminous plant, Mucuna pruriens has long been used in traditional Ayurvedic Indian medicine for diseases including parkinsonism. We have assessed the clinical effects and levodopa (L-dopa) pharmacokinetics following two different doses of mucuna preparation and compared them with standard L-dopa/carbidopa (LD/CD). METHODS: Eight Parkinson's disease patients with a short duration L-dopa response and on period dyskinesias completed a randomised, controlled, double blind crossover trial. Patients were challenged with single doses of 200/50 mg LD/CD, and 15 and 30 g of mucuna preparation in randomised order at weekly intervals. L-dopa pharmacokinetics were determined, and Unified Parkinson's Disease Rating Scale and tapping speed were obtained at baseline and repeatedly during the 4 h following drug ingestion. Dyskinesias were assessed using modified AIMS and Goetz scales. RESULTS: Compared with standard LD/CD, the 30 g mucuna preparation led to a considerably faster onset of effect (34.6 v 68.5 min; p = 0.021), reflected in shorter latencies to peak L-dopa plasma concentrations. Mean on time was 21.9% (37 min) longer with 30 g mucuna than with LD/CD (p = 0.021); peak L-dopa plasma concentrations were 110% higher and the area under the plasma concentration v time curve (area under curve) was 165.3% larger (p = 0.012). No significant differences in dyskinesias or tolerability occurred. CONCLUSIONS: The rapid onset of action and longer on time without concomitant increase in dyskinesias on mucuna seed powder formulation suggest that this natural source of L-dopa might possess advantages over conventional L-dopa preparations in the long term management of PD. Assessment of long term efficacy and tolerability in a randomised, controlled study is warranted. (+info)Optical resolution by preferential crystallization of (1RS,3RS)-1,2,3,4-tetrahydro-6,7-dihydroxy-1-methyl-3-isoquinolinecarboxylic acid. (5/32)
The racemic structure of (1RS,3RS)-1,2,3,4-tetrahydro-6,7-dihydroxy-1-methyl-3-isoquinolinecarboxylic acid [(1RS,3RS)-1] was examined based on the melting point, solubility, and IR spectrum, with the aim of optical resolution by preferential crystallization. (1RS,3RS)-1 was indicated from these results to exist as a conglomerate. The successive optical resolution by preferential crystallization of (1RS,3RS)-1 yielded (1S,3S)- and (1R,3R)-1 with optical purities of 85--95% at 66--81% degrees of resolution, which were fully purified by recrystallization. (+info)Psychophysical and physiological evidence for parallel afferent pathways mediating the sensation of itch. (6/32)
The neuronal pathways for itch have been characterized mainly based on responses to histamine. Intracutaneous application of histamine produces intense itch and a large area of axon-reflexive vasodilation ("flare") around the application site. Both phenomena are thought to be mediated through neuronal activity in itch-specific, mechanoinsensitive C-fiber afferents (CMi). However, mechanical and electrical stimuli that do not activate CMi fibers can cause the sensation of itch, and itch may occur without flare, suggesting that other neuronal itch pathways exist. Because cutaneous application of spicules from the plant Mucuna pruriens (cowhage) has been anecdotally reported to produce itch without flare, we performed psychophysical experiments to investigate whether the mechanisms underlying cowhage- and histamine-induced itch differ. Although histamine and cowhage produced itch of similar magnitude, the itch to cowhage was not correlated with the itch to histamine; some subjects had intense itch to cowhage and little itch to histamine and visa versa. Laser Doppler measurements of blood flow revealed that histamine led to a large area of vasodilation, whereas cowhage produced vasodilation restricted to the application site. Pretreatment of the skin with an antihistamine blocked the itch produced by histamine but did not prevent cowhage-induced itch. Desensitization of the skin with topical capsaicin abolished cowhage-induced itch but did not significantly alter histamine-induced itch. These findings indicate that cowhage itch is signaled through a population of capsaicin-sensitive afferent nerve fibers that is distinct from CMi fibers mediating histamine-induced itch. Cowhage may be useful to investigate the neural pathway mediating nonhistaminergic itch. (+info)Estimation of L-dopa from Mucuna pruriens LINN and formulations containing M. pruriens by HPTLC method. (7/32)
A selective, precise, and accurate high-performance thin-layer chromatographic (HPTLC) method has been developed for the analysis of L-dopa in Mucuna pruriens seed extract and its formulations. The method involves densitometric evaluation of L-dopa after resolving it by HPTLC on silica gel plates with n-butanol-acetic acid-water (4.0+1.0+1.0, v/v) as the mobile phase. Densitometric analysis of L-dopa was carried out in the absorbance mode at 280 nm. The relationship between the concentration of L-dopa and corresponding peak areas was found to be linear in the range of 100 to 1200 ng/spot. The method was validated for precision (inter and intraday), repeatability, and accuracy. Mean recovery was 100.30%. The relative standard deviation (RSD) values of the precision were found to be in the range 0.64-1.52%. In conclusion, the proposed TLC method was found to be precise, specific and accurate and can be used for identification and quantitative determination of L-dopa in herbal extract and its formulations. (+info)Cowhage-evoked itch is mediated by a novel cysteine protease: a ligand of protease-activated receptors. (8/32)
(+info)Mucuna is a genus of tropical leguminous plants, and the term is often used in a medical context to refer to one specific species: Mucuna pruriens. This plant, also known as velvet bean, has been used in traditional medicine for various purposes, including the treatment of Parkinson's disease.
Mucuna pruriens contains high levels of L-dopa, a precursor to dopamine, which is a neurotransmitter that plays an important role in regulating movement and mood. As such, Mucuna has been studied as a potential alternative treatment for Parkinson's disease, which is characterized by low levels of dopamine in the brain.
It's worth noting that while some studies have suggested that Mucuna may be effective in reducing symptoms of Parkinson's disease, more research is needed to fully understand its safety and efficacy. Additionally, Mucuna can contain other compounds that may have negative effects, so it should only be used under the guidance of a healthcare professional.
I apologize for any confusion, but "Violaceae" is not a medical term. It is the biological name of a family of flowering plants, also known as the violet family. This family includes various plants that may have medicinal uses, such as violets and pansies, but "Violaceae" itself does not have a specific medical definition.
"Vicia" is a genus of plants, commonly known as vetch or faba beans. It's not a medical term, but rather a term used in botany to describe a group of leguminous plants that are part of the Fabaceae family. Some species of Vicia have been used in traditional medicine for various purposes, such as treating skin conditions and respiratory issues. However, I am an assistant and do not have real-time access to databases or medical resources, so please consult a reliable medical source for more detailed and accurate information.
Fertility agents for males are medications or supplements that are used to improve male fertility. They can work by increasing sperm count, improving sperm motility (movement), and enhancing overall sperm quality. Some examples of male fertility agents include:
1. Clomiphene citrate: This medication is typically used to treat infertility in women, but it can also be prescribed off-label for men with low sperm counts. It works by stimulating the production of follicle-stimulating hormone (FSH) and luteinizing hormone (LH), which are important for sperm production.
2. Gonadotropins: These are hormones that can be given as injections to stimulate the testicles to produce more testosterone and sperm. Human chorionic gonadotropin (hCG) and human menopausal gonadotropin (hMG) are examples of gonadotropins used for male fertility treatment.
3. Antioxidants: Certain antioxidant supplements, such as vitamin C, vitamin E, coenzyme Q10, and L-carnitine, have been shown to improve sperm quality by reducing oxidative stress and DNA damage in sperm cells.
4. Herbal supplements: Some herbs, such as tribulus terrestris, maca root, and ashwagandha, are believed to boost male fertility by increasing testosterone levels and improving sperm count and motility. However, their effectiveness is not well-established, and they should be used with caution under the guidance of a healthcare provider.
5. Varicocele repair: In some cases, a varicocele (dilated vein in the scrotum) can contribute to male infertility by increasing the temperature around the testicles and impairing sperm production. Surgical repair of a varicocele may be recommended to improve fertility.
It is important to consult with a healthcare provider before starting any fertility treatment, as these agents may have side effects or interact with other medications. A thorough evaluation of male fertility factors, such as hormone levels, semen analysis, and physical examination, should be performed to determine the most appropriate treatment approach.
Levodopa, also known as L-dopa, is a medication used primarily in the treatment of Parkinson's disease. It is a direct precursor to the neurotransmitter dopamine and works by being converted into dopamine in the brain, helping to restore the balance between dopamine and other neurotransmitters. This helps alleviate symptoms such as stiffness, tremors, spasms, and poor muscle control. Levodopa is often combined with carbidopa (a peripheral decarboxylase inhibitor) to prevent the conversion of levodopa to dopamine outside of the brain, reducing side effects like nausea and vomiting.
Dyskinesias are a type of movement disorder characterized by involuntary, erratic, and often repetitive muscle movements. These movements can affect any part of the body and can include twisting, writhing, or jerking motions, as well as slow, writhing contortions. Dyskinesias can be caused by a variety of factors, including certain medications (such as those used to treat Parkinson's disease), brain injury, stroke, infection, or exposure to toxins. They can also be a side effect of some medical treatments, such as radiation therapy or chemotherapy.
Dyskinesias can have a significant impact on a person's daily life, making it difficult for them to perform routine tasks and affecting their overall quality of life. Treatment for dyskinesias depends on the underlying cause and may include medication adjustments, surgery, or physical therapy. In some cases, dyskinesias may be managed with the use of assistive devices or by modifying the person's environment to make it easier for them to move around.
In medical terms, "seeds" are often referred to as a small amount of a substance, such as a radioactive material or drug, that is inserted into a tissue or placed inside a capsule for the purpose of treating a medical condition. This can include procedures like brachytherapy, where seeds containing radioactive materials are used in the treatment of cancer to kill cancer cells and shrink tumors. Similarly, in some forms of drug delivery, seeds containing medication can be used to gradually release the drug into the body over an extended period of time.
It's important to note that "seeds" have different meanings and applications depending on the medical context. In other cases, "seeds" may simply refer to small particles or structures found in the body, such as those present in the eye's retina.
A plant extract is a preparation containing chemical constituents that have been extracted from a plant using a solvent. The resulting extract may contain a single compound or a mixture of several compounds, depending on the extraction process and the specific plant material used. These extracts are often used in various industries including pharmaceuticals, nutraceuticals, cosmetics, and food and beverage, due to their potential therapeutic or beneficial properties. The composition of plant extracts can vary widely, and it is important to ensure their quality, safety, and efficacy before use in any application.
Ayurvedic medicine, also known as Ayurveda, is a traditional system of medicine that has been practiced in India for thousands of years. It is based on the belief that health and wellness depend on a delicate balance between the mind, body, and spirit. The goal of Ayurvedic medicine is to promote good health, rather than fight disease.
In Ayurveda, each person has a unique constitution, or dosha, that is determined by the balance of three energies: Vata (air and space), Pitta (fire and water), and Kapha (water and earth). These doshas are believed to govern all physical and mental processes and to be responsible for an individual's physical and mental health.
Ayurvedic treatments may include herbal remedies, special diets, detoxification programs, meditation, yoga, and massage therapy. The aim of Ayurvedic medicine is to cleanse the body of toxins, balance the doshas, and promote good health and well-being.
It's important to note that while some people find Ayurvedic practices helpful for maintaining their overall health, there is limited scientific evidence supporting the safety and effectiveness of many Ayurvedic treatments. Additionally, some Ayurvedic products may contain harmful levels of heavy metals, such as lead, mercury, and arsenic, which can be toxic if ingested or absorbed through the skin. It's important to consult with a qualified healthcare provider before starting any new treatment regimen, including Ayurvedic medicine.
I'm sorry for any confusion, but "Sesbania" is not a medical term. It is a genus of flowering plants in the pea and bean family Fabaceae, also known as "sesban" or "hummingbird tree." These plants have various uses, including as food sources for people and animals, as well as traditional medicinal applications in some cultures. However, there isn't a widely accepted medical definition associated with "Sesbania." If you have any questions related to health or medicine, I'd be happy to try to help with those!
In the context of medical terminology, "powders" do not have a specific technical definition. However, in a general sense, powders refer to dry, finely ground or pulverized solid substances that can be dispersed in air or liquid mediums. In medicine, powders may include various forms of medications, such as crushed tablets or capsules, which are intended to be taken orally, mixed with liquids, or applied topically. Additionally, certain medical treatments and therapies may involve the use of medicated powders for various purposes, such as drying agents, abrasives, or delivery systems for active ingredients.
Mucuna