Research Journal of Pharmacognosy and Phytochemistry

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Herbs: An Alternative Approach in Nephroprotection


Affiliations
1 Department of Pharmacognosy, Babu Banarasi Das National Institute of Technology and Management (BBD University), BBD City, Faizabad Road, Lucknow- 227105 (U.P), India
     

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Kidney stone formation is a worldwide problem, spacing no geographical, cultural, or racial group. It is an ailment affecting human kind for many centuries. Epidemiological studies revealed that nephrolithiasis is more common in man (12%) than in woman (6%) and is more prevalent between the ages of 20-40 in both the sexes. Estimates of Global burden of disease indicate that disease of the kidney and urinary tract account for approximately 8, 30,000 deaths and 18,46,700 disability-adjusted life years annually. Calcium containing stones are the most common comprising about 75% of all urinary calculi. A number of foods such as spinach, rhubarb, beets, nuts, strawberries etc. are known to contain high oxalate level, which may combine with calcium to form crystals that may block urine flow and cause severe pain, while the plants like Crataeva magna, Tribulus terrestris, Bergenia ligulata, Costus spiralis were advantageous in inhibiting stone formation. According to the American Dietetic Association Nutrition Care Manual, patient with kidney stones is to restrict dietary oxalate to less than 40-50mg per day. Medicinal plants have been known for millennia and are highly esteemed all over the world as a rich source of therapeutic agents for the prevention of various ailments. The present study revealed that approx. 60 plants belonging to different families are extensively used to treat kidney stones. The review therefore critically evaluates the potential usefulness of herbal medicine in the management of Nephrolithiasis.

Keywords

Kidney Stones, Management of Kidney Stones, Medicinal Plants, Nephroprotective Plants, Nephrolithiasis.
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  • Beghalia M, Ghalem S, Allali H, et al. Inhibition of calcium oxalate monohydrate crystal growth using Algerian medicinal plants. Journal of Medicinal Plants. 2; 2008: 066-070.

  • Sekar Kumaran MZ and Patki PS. Evaluation of an Ayurvedic formulation (Cystone), in urolithiasis: A double blind, placebocontrolled study. European Journal of Integrative Medicine. 3; 2011: 23–28.

  • Prachi, Chauhan N, Kumar D, et al. Medicinal plants of Muzaffarnagar district used in treatment of urinary tract and kidney stones. Indian Journal of Traditional Knowledge. 8; 2009: 191-195.

  • Ogawa Y, Yonou H, Hokama S, et al. Urinary Saturation and Risk Factors For Calcium Oxalate Stone Disease Based on Spot and 24- Hour Urine Specimens. Frontiers in Bioscience. 8; 2003: 167-176.

  • Jeng-Yu Tsai, Jong-Khing Huang, Tony T. Wu, et al. Comparison of Oxalate Content in Foods and Beverages in Taiwan. JTUA. 16(3); 2005: 93-98.

  • Bijarnia RK, Kaur T, Singla SK, et al. Non-surgical management therapies for kidney stones. J Pharmceutical Education and Research. 1(1); 2010: 21-25.

  • Butterweck V and Khan SR. Herbal Medicines in the Management of Urolithiasis: Alternative or Complementary. Planta Med. 75; 2009: 1095–1103.

  • Bouanani S, Henchiri C, Migianu-Griffoni E, et al. Pharmacological and toxicological effects of Paronychia argentea in experimental calcium oxalate nephrolithiasis in rats. Journal of Ethnopharmacology. 129; 2010: 38–45.

  • Knoll T. Epidemiology, Pathogenesis, and Pathophysiology of Urolithiasis. European Urology. 9; 2010: 802 –806.

  • Aloisi G. An alternative origin for nanobacteria in kidney stones. Bioscience Hypotheses. 1; 2008: 138-141.

  • Vupputuri S, Soucie JM, McClellan W, et al. History of Kidney Stones as a Possible Risk Factor for Chronic Kidney Disease. AEP. 14(3); 2004: 222–228.

  • Cupisti A, Meola M, Alessandro CD, et al. Insulin resistance and low urinary citrate excretion in calcium stone formers. Biomedicine and Pharmacotherapy. 61; 2007: 86-90.

  • Canales B K, Anderson L, Higgins L, et al. Proteome of Human Calcium Kidney Stones. Urology Journal. 76 (4); 2010: 13-20.

  • Bagnis CI, Deray G, Baumelo A, et al. Herbs and the Kidney. American Journal of Kidney Diseases. 44(1); 2004: 1-11.

  • Saha and Verma RJ. Bergenia ciliata extract prevents Ethylene Glycol induced histopathological changes in the Kidney. Acta Poloniae Pharmaceutica-Drug Research. 68(5); 2011: 711- 715.

  • Bashir S and Gilani AH. Antiurolithic effect of Bergenia ligulata rhizome: An explanation of the underlying mechanisms. Journal of Ethnopharmacology. 122; 2009: 106-116.

  • Harsoliya MS, Pathan JK, Khan N, et al. Effect of Ethanolic extracts of Bergenia Ligulata, Nigella Sativa and combination on Calcium Oxalate Urolithiasis in Rats. International Journal of Drug Formulation and Research. 2; 2011: 268-280.

  • Choubey Ankur, Choubey Aadarsh, Jain P, et al. Assessment of Ceiba pentandra on Calcium Oxalate Urolithiasis in Rats. Scholars Research Library Der Pharma Chemica. 2; 2010: 144-156.

  • Ghosh RB, Sur TK, Maity LN, et al. Antiurolithiatic activity of Coleus aromaticus Benth. in Rats. Ancient Science of Life. XX (1and2); 2000: 1-4.

  • Viel Araújo, Domingos CD, Da Silva Monteiro AP, et al. Evaluation of the antiurolithiatic activity of the extract of Costus spiralis Roscoe. in rats. Journal of Ethnopharmacology. 66; 1999: 193-198.

  • Mekap SK, Mishra S, Sahoo S, et al. Antiurolithiatic activity of Crataeva magna Lour. Bark. Indian Journal of Natural Products and Resources. 2; 2011: 28-33.

  • Jayakumari S, Anbu J and Ravichandran V. Antiurolithiatic activity of Dichrostachys cinerea (L.) Wight and Arn ischolar_main extract. Journal of Pharmacy Research. 4; 2011: 1206-1208.

  • Bahuguna YM, Rawat MSM, Juyall V, et al. Antilithiatic effect of grains of Eleusine Coracana. Saudi Pharmaceutical Journal. 17; 2009: 182-188.

  • Khan NI, Shinge JS and Naikwade NS. Antilithiatic effect of Helianthus Annuus Linn. Leaf Extract in Ethylene Glycol and ammonium chloride induced Nephrolithiasis. International Journal of Pharmacy and Pharmaceutical Sciences. 2; 2010: 180-184.

  • Shri Vijaya Kirubha T, Senthamarai R, Vasuki K, et al. Antiurolithiatic activity Of Herpestis Monniera aerial parts in rats. Advanced Pharmacology Toxicology. 12; 2011: 25-29.

  • Anbu J, Suman S, K Swaroop Kumar SLVVSN, et al. Antiurolithiatic Activity of Ethyl Acetate Root Extract of Ichnocarpus frutescens using Ethylene Glycol Induced Method in Rats. Journal of Pharmaceutical Sciences and Research. 3; 2011: 1182-1189.

  • Bahuguna Y, Rawat MM, Juyal V, et al. Antilithiatic effect of flowers of Jasminum Auriculatum Vahl. International Journal of Green Pharmacy. 3; 2009: 155-158.

  • Mayee R and Thosar A. Evaluation of Lantana camara Linn. (Verbenaceae) for Antiurolithiatic and Antioxidant Activities in Rats. International Journal of Pharmaceutical Clinical Research. 3; 2011:10-14.

  • Kore KJ, Shete RV, Jadhav PJ, et al. Antiurolithiatic effects of Hydroalcoholic extract of Lawsonia Inermis L. Leaves. International Journal of Universal Pharmacy and Life Sciences. 1; 2011: 81-95.

  • Yadav RD, Jain SK, Alok S, et al. Herbal Plants used in the treatment of Urolithiasis: A Review. International Journal of Pharmaceutical Sciences and Research. 2; 2011: 1412-1420.

  • Ashok P, Basavaraj CK and Vishwanathswamy AHM. Antiurolithiatic and antioxidant activity of Mimusops elengi on ethylene glycol-induced urolithiasis in rats. Indian Journal of Pharmacology. 42; 2010: 380-383.

  • Shah BN, Raiyani KD and Modi DC. Antiurolithiatic activity studies of Momordica charantia Linn. Fruits. International Journal of Pharmacy Research and Technology. 1; 2011: 06-11.

  • Jameel Fahad, Vijayalakshmi, Kumar MCS, et al. Antiurolithiatic activity of aqueous extract of bark of Moringa oleifera (lam.) in rats. Health. 2; 2010: 352-355.

  • Prasobh GR and Revikumar KG. Use of Musa AAB in Kidney Stone Treatment and other Diseases. Asian Journal of Pharmaceutical and Clinical Research. 4; 2011: 117-118.

  • Ananta Teepa KS, Kokilavani R, Balakrishnan A, et al. Effect of Ethanolic fruit extract of Pedalium murex L. in ethylene glycol induced Urolithiasis in male Wistar albino rats. Ancient Science of Life. 29; 2010: 29-34.

  • Hosseinzadeh H, Khooei AR, Khashayarmanesh Z, et al. Antiurolithiatic Activity of Pinus Eldarica Medw. Fruits Aqueous Extract in Rats. Urology Journal. 7; 2010: 232-237.

  • Divakar K, Pawar AT, Chandrasekhar SB, et al. Protective effect of the hydro-alcoholic extract of Rubia cordifolia ischolar_mains against ethylene glycol induced urolithiasis in rats. Food and Chemical Toxicology. 48; 2010: 1013-1018. 38. Vargas R, and Pérez RM. Antiurolithiatic Activity of Salix taxifolia Aqueous Extract. Pharmaceutical Biology (Formerly International Journal of Pharmacognosy). 40; 2002: 561-563.

  • Chaudhary A, Singla SK and Tandon C. In vitro Evaluation of Terminalia arjuna on Calcium Phosphate and Calcium Oxalate Crystallization. Indian Journal of Pharmaceutical Sciences. 72; 2010: 340-345.

  • Kumar GP, Mittal Arun and Kumar Rishi. Evaluation of Tinospora cordifolia for Antiurolithiatic Potential. Journal of Pharmaceutical and Biomedical Sciences. 9; 2011: 1-5.

  • Arasaratnam V, Balakumar S, Senthuran A, et al. A study of Tribulus terrestris extract on risk factors for urinary stone in normal subjects and urolithic patients. Journal of National Science Foundation of Sri Lanka. 38; 2010: 187-191.

  • Sailaja B, Bharathi K and Prasad KVSRG. Protective Effect of Tridax Procumbens L. on Calcium Oxalate Urolithiasis and Oxidative Stress. PHARMANEST - An International Journal of Advances in Pharmaceutical Sciences. 2; 2011: 9-14.

  • Afzal M, Khan NA, Ghufran A, et al. Diuretic and nephroprotective effect of Jawarish Zarooni Sada—a polyherbal unani formulation. Journal of Ethnopharmacology. 91; 2004: 219–223.

  • Pareta SK, Patra KC and Harwansh R. In-vitro calcium oxalate crystallization inhibition by Achyranthes indica Linn. hydroalcoholic extract: An Approach to Antilithiasis. International Journal of Pharmaceutical and Biomedical Sciences. 2; 2011: 432-437.

  • Soundararajan P, Mahesh R, Ramesh T, et al. Effest of Aerva lanata on calcium oxalate urolithiasis in rats. Indian Journal of Experimental Biology. 44; 2006: 981-986.

  • Nayeem K, Gupta D, Nayana H, et al. Antiurolithiatic potential of the fruit extracts of Carica papaya on ethylene glycol induced urolithiatic rats. Journal of Pharmacy Research. 3; 2010: 2772-2775.

  • Sathish R, Natarajan K and Nikhad MM. Effect of Hygrophila Spinosa T. Anders on Ethylene Glycol induced Urolithiasis in Rats. Asian Journal of Pharmaceutical and Clinical Research. 3; 2010: 61-63.

  • Hadjzadeh MA, Khoei A, Hadjzadeh Z, et al. Ethanolic extract of nigella sativa L. seeds on ethylene glycol-induced kidney calculi in rats. Urology Journal. 4; 2007:86-90.

  • Vyas BA, Vyas RB, Joshi SV, et al. Antiurolithiatic Activity of Whole-Plant Hydroalcoholic Extract of Pergularia daemia in Rats. Journal of Young Pharmacist. 3; 2011: 36-40.

  • Dodoala S, Ranjanayakulu D, Koganti B, et al. Effect of ethanolic extract of Phyla nodiflora Linn. Greene against calculi producing diet induced urolithiasis. Indian journal of natural Products and Resources. 1; 2010: 314-321.

  • Gilhotra UK and Christina AJM. Effect of Rotula aquatica Lour. on ethylene-glycol induced urolithiasis in rats. International Journal of Drug Development and Research. 3; 2011: 273-280.

  • Lvyi Chen, Huafeng Yin, Zhou Lan, et al. Anti-hyperuricemic and nephroprotective effects of Smilax china L. Journal of Ethnopharmacology. 135; 2011: 399–405.

  • Kaur T, Bijarnia RK, Singla SK, et al. In vivo efficacy of Trachyspermum ammi anticalcifying protein in urolithiatic rat model. Journal of Ethnopharmacology. 126; 2009: 459–462.


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  • Herbs: An Alternative Approach in Nephroprotection

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Authors

Suman
Department of Pharmacognosy, Babu Banarasi Das National Institute of Technology and Management (BBD University), BBD City, Faizabad Road, Lucknow- 227105 (U.P), India

Abstract


Kidney stone formation is a worldwide problem, spacing no geographical, cultural, or racial group. It is an ailment affecting human kind for many centuries. Epidemiological studies revealed that nephrolithiasis is more common in man (12%) than in woman (6%) and is more prevalent between the ages of 20-40 in both the sexes. Estimates of Global burden of disease indicate that disease of the kidney and urinary tract account for approximately 8, 30,000 deaths and 18,46,700 disability-adjusted life years annually. Calcium containing stones are the most common comprising about 75% of all urinary calculi. A number of foods such as spinach, rhubarb, beets, nuts, strawberries etc. are known to contain high oxalate level, which may combine with calcium to form crystals that may block urine flow and cause severe pain, while the plants like Crataeva magna, Tribulus terrestris, Bergenia ligulata, Costus spiralis were advantageous in inhibiting stone formation. According to the American Dietetic Association Nutrition Care Manual, patient with kidney stones is to restrict dietary oxalate to less than 40-50mg per day. Medicinal plants have been known for millennia and are highly esteemed all over the world as a rich source of therapeutic agents for the prevention of various ailments. The present study revealed that approx. 60 plants belonging to different families are extensively used to treat kidney stones. The review therefore critically evaluates the potential usefulness of herbal medicine in the management of Nephrolithiasis.

Keywords


Kidney Stones, Management of Kidney Stones, Medicinal Plants, Nephroprotective Plants, Nephrolithiasis.

References