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Symptoms » Kidney damage » Glossary
 

Glossary for Kidney damage

Medical terms related to Kidney damage or mentioned in this section include:

  • AIDS-Associated Nephropathy: Kidney disease associated with AIDS.
  • Abdominal symptoms: Symptoms affecting the abdomen or digestive tract
  • Accelerated hypertension: Accelerated hypertension is a condition characterized by a rapid increase in blood pressure. The condition is a medical emergency which can cause organ damage if not treated promptly.
  • Acorn poisoning: Acorns contain tannic acid which affects the metabolism of proteins and causing serious symptoms if large amounts are consumed. The amount of tannin in the acorn varies amongst species - higher tannin content results in a more bitter tasting acorn.
  • Acute Pesticide poisoning -- Triforine: Triforine is an ingredient used in certain herbicides. Exposure to the chemical can cause a range of symptoms depending on the level and route of exposure. Exposure can occur through inhalation, ingestion, the skin or eyes. Acute exposure involves a exposure over a short period of time whereas chronic exposure occurs over a longer period of time.
  • Adverse reaction to chemical -- 1,2-Dibromoethane: 1,2-Dibromoethane is a chemical used in gasoline, soil fumigants, fire extinguishers, flue gases and mechanical gauge fluid. Excessive exposure to this chemical can cause serious symptoms. The severity of symptoms varies amongst patients.
  • Alport Syndrome: A rare hereditary disorder involving the progressive deterioration of parts of the kidney resulting in chronic kidney disease.
  • Alport syndrome, dominant type: A rare syndrome characterized by kidney problems and hearing loss. The condition is inherited as a dominant trait.
  • Alport syndrome, recessive type: A rare syndrome characterized by kidney problems and hearing loss. The condition is inherited as a recessive trait.
  • Amyloidosis: A disease characterized by the accumulation of insoluble amyloid protein in tissues and organs which in turn affects the functioning of these tissues and organs.
  • Analgesic nephropathy syndrome: Kidney damage caused by excessive use of pain-killing drugs. Aspirin and phenacetin mixtures are the most common causes.
  • Analgesic syndrome: The use of large quantities of pain-killer drugs can sometimes cause serious kidney damage as well as various other problems.
  • Armani-Ebstein nephropathy: Abnormal deposits of glycogen in the kidneys that occurs in diabetics with very high levels of sugar in the blood and urine.
  • BEEC: A rare syndrome characterized by a birth defect where the bladder is inside out and protrudes from the lower abdominal wall. The urethra and genitals are also abnormally formed. The degree of malformation is variable.
  • Benign Prostate Hyperplasia: Non-cancerous prostrate enlargement common with aging
  • Boston Ivy poisoning: The leaves of the Boston Ivy plant oxalates which is toxic to humans. The severity of symptoms depends on the quantity of leaves consumed. Skin symptoms can also occur if the skin comes into contact with the leaves.
  • Buttercup poisoning: The buttercup plant contains a toxic compound called protoanemonin. The plant is most toxic while it is flowering with the sap being poisonous portion of the plant. Poisoning by eating the plant is unlikely due to the fact that skin contact is quite painful.
  • Chemical poisoning -- 1,1-Dimethylhydrazine: 1,1-Dimethylhydrazine is a chemical used mainly in jet fuel and rocket fuel, plant growth agent, photography and various other industrial uses. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- 1,2-Dibromo-3-Chloropropane: 1,2-Dibromo-3-Chloropropane is a chemical used in soil fumigants and as a nematocide for various field crops. Commercial examples include Fumagon, Nemagon, Fumazone, Nemapax, Nemafume. Excessive exposure to this chemical can cause relatively mild symptoms. The chemical may be absorbed through the skin. The severity of symptoms varies depending on the amount of chemical involved and the route of exposure.
  • Chemical poisoning -- 1,2-Dibromoethane: 1,2-Dibromoethane is a chemical used in gasoline, soil fumigants, fire extinguishers, flue gases and mechanical gauge fluid. Excessive exposure to this chemical can cause serious symptoms. Some people can suffer an adverse reaction to the chemical. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- 2,4,6-Trinitrotoluene: 2,4,6-Trinitrotoluene is a chemical used mainly as an explosive agent and in the production of dyes and photographic chemicals. The chemical may be absorbed through the skin. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Acetylsalicylic Acid: Acetylsalicylic Acid is also known as aspirin and is primarily used to relieve pain, fever and inflammation. Excessive exposure to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Aldrin: Aldrin is a chemical once used mainly in insecticides for crops and as a termite preventative. The chemical can readily be absorbed through the skin. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Allyl chloride: Allyl chloride is a chemical used mainly in the manufacture of epichlorohydrin and glycerin but is also used in the production of products such as polyester, varnish plastic adhesive, insecticides, perfumes and pharmaceuticals. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Ammonium Bifluoride: Ammonium Bifluoride is a chemical used wheel cleaners, herbicides and in the manufacture of magnesium. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Aniline: Aniline is a chemical used mainly in the manufacture of perfumes, varnishes, resins, dyes, paint removers, herbicides, fungicides, explosives, solvents and photographic chemicals. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Anti-rust products: Anti-rust products contain various chemicals which are toxic if ingested. The ingested chemicals can continue to cause damage to the organs and gastrointestinal lining for weeks after the ingestion and severe cases can result in death. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Bromates: Bromate is a chemical used mainly in perming solution neutralizers and in small amounts as a bread preservative. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Bromoform: Bromoform is a chemical with limited industrial uses but is used as a laboratory chemical and can be present in treated water. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Carbon Disulfide: Carbon Disulfide is a chemical used mainly in corrosion inhibitors, cold and nickel plating, photography applications and as a solvent in gums and resins. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Carbon Tetrachloride: Carbon tetrachloride is a chemical used mainly in grain fumigants, insecticides and in the production of fluorocarbons. Ingestion and other exposures to the chemical can cause various symptoms. The chemical is readily absorbed through the skin. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Castor oil: Castor oil is a type of vegetable oil often used in medicinal or therapeutic products that improve bowel functioning. However, excessive ingestion of castor oil can cause various symptoms.
  • Chemical poisoning -- Chlordane: Chlordane is a poison use to control termites - is banned in the US and many other countries due to its harmful effects. Ingestion and other exposures to the chemical can cause various symptoms. The chemical is readily absorbed through the skin. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Chlordecone: Chlordecone is an insecticide used to control pests in crops such as bananas and tobacco. Ingestion and other exposures to the chemical can cause various symptoms. The chemical may be readily absorbed through the skin. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Chloromethane: Chloromethane is a chemical used mainly in the production of silicones as well as agricultural chemicals, butyl rubber and other products. Ingestion and other exposures to the chemical can cause various symptoms. The chemical is readily absorbed through the skin. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Cresols: Cresols are a group of chemicals that occur naturally in mammals and various plants. It is also manufactured and used in the production of disinfectants, deodorizers and pesticides. Ingestion and other exposures to the chemical can cause various symptoms. The chemical is readily absorbed through the skin. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Cresylic acid: Cresylic acids are a group of chemicals that are used as solvents and in the manufacture of various products such as deodorants, disinfectants, pesticides, glues, paints, herbicides, pharmaceuticals as well as others. Ingestion and other exposures to the chemical can cause various symptoms. The chemical is readily absorbed through the skin. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Dieldrin: Dieldrin is a chemical used mainly to prevent termite infestations. Ingestion and other exposures to the chemical can cause various symptoms. This chemical may be absorbed readily through the skin. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Diethylene Glycol: Diethylene Glycol is a chemical used mainly in coolants, manufacture of plastic products and resins as well as other uses. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Diquat Dibromide: Diquat Dibromide is a chemical used mainly in herbicides. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Ethylene Dichloride: Ethylene Dichloride is a chemical used mainly in fat solvents and as a fumigant. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Ethyleneamine: Ethyleneamine is a chemical which is widely used in the manufacture of products such as adhesive, paper, textiles, fuels, lubricants, varnishes, lacquers, coating resins, cosmetics, photographic chemicals and agricultural chemicals. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Ethylenediamine: Ethylenediamine is a chemical used mainly as a solvent in the manufacturing process for the production of things such as fungicides, waxes, gasoline additives and pharmaceuticals. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Gasoline: Gasoline is a chemical used as a fuel for combustion engines. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Glaze: Glazes are used to put a shiny finish on various surfaces such as pottery. Glazes contain chemicals such as lead and zinc oxide which can cause serious symptoms if sufficient quantities are eaten. The chemicals cause damage to the gastrointestinal lining and the damage may continue for weeks after the poison was ingested. Death can result in severe cases. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Glyphosate: Glyphosate is a chemical used mainly in herbicides. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Hexabromobiphenyl: Hexabromobiphenyl is a chemical used mainly in fire retardant in thermoplastics found in such things as electrical equipment, car upholstery and motor housing.. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Jet Fuel-4: Jet Fuel-4 is an aviation turbine fuel used by the US military. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Lead-containing Paint: Lead pain contains lead as well as other harmful chemicals. The lead in the pain is toxic (especially to young children) and ingesting fresh or old paint can cause serious symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Manganese: Manganese is a chemical used mainly in fertilizers, welding rods, matches, electrical coils, ceramics and animal food additives. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Mirex: Mirex is a chemical used mainly to control fire ants but also other insecticides such as mealy bugs. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Morpholine: Morpholine is a chemical used in a variety of applications: rubber industry, corrosion inhibitor, pharmaceuticals, dyes, crop pesticides and as a solvent in various manufacturing processes. The chemical may be absorbed through the skin. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Pentachlorophenol: Pentachlorophenol is a chemical used mainly in fungicides, herbicides, insecticides, molluscicides, algicides and bactericides. It is commonly used as a wood preservative. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Phenol: Phenol is a chemical used mainly in the production of fertilizer, explosives, rubber, paint, paint remover, perfumes, asbestos products, wood preservatives, resins, textiles, pharmaceuticals and drugs. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Sodium Monofluoroacetate: Sodium Monofluoroacetate is a chemical used mainly as a rodenticides, often to control mammal pests in crops. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Solder: Solder contains various chemicals and heavy metals which can cause serious symptoms if sufficient quantities are swallowed. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Toluene: Toluene is a chemical used mainly in pesticides, degreasers, glues and pain removers. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Tungsten: Tungsten is an element used mainly in light bulb filaments, X-ray tubes, electrodes, superalloys, heating elements and various other high temperature uses. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chemical poisoning -- Uranium: Uranium is an element used mainly in commercial nuclear power plants. Ingestion and other exposures to the chemical can cause various symptoms. The type and severity of symptoms varies depending on the amount of chemical involved and the nature of the exposure.
  • Chromium toxicity: Excessive consumption of chromium can cause symptoms of toxicity.
  • Crystal meth addiction: An uncontrollable desire to use crystal meth on a regular basis. Crystal meth is a powerful stimulant used illegally for its effects. It is highly addictive and known by street names such as ice, speed, glass, crank and chalk. Frequent use leads to an increased tolerance to the drug so higher and higher doses are required to achieve the desired euphoric feeling.
  • Cystinuria: A rare inherited condition characterized by the abnormal transport of various amino acids (cystine, lysine, arginine, ornithine) resulting in excess amounts in the urinary system where it can form stones.
  • Dehydration: Loss and reduction in body water levels
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 1: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 1 is linked to a defect on chromosome 6p21.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 10: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 10 is linked to a defect on chromosome 10p15.1.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 11: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 11 is linked to a defect on chromosome 14q24.3-q31.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 12: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 12 is linked to a defect on chromosome 2q33.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 13: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 13 is linked to a defect on chromosome 2q34.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 15: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 15 is linked to a defect on chromosome 6q21.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 17: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 17 is linked to a defect on chromosome 10q25.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 18: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 18 is linked to a defect on chromosome 5q31.1-q33.1.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 19: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 19 is linked to a defect on chromosome 2q24.3.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 2: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 2 is linked to a defect on chromosome 11p15.5.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 20: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 20 is linked to a defect on chromosome 12q24.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 21: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 21 is linked to a defect on chromosome 6q25.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 22: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 22 is linked to a defect on chromosome 3p21.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 23: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 23 is linked to a defect on chromosome 4q27.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 24: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 24 is linked to a defect on chromosome 10q23.31.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 3: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 3 is linked to a defect on chromosome 15q26.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 4: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 4 is linked to a defect on chromosome 11q13.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 5: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 5 is linked to a defect on chromosome 6q25.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 6: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 6 is linked to a defect on chromosome 18q21.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 7: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 7 is linked to a defect on chromosome 2q31.
  • Diabetes Mellitus, Insulin-Dependent, Susceptibility to, 8: Insulin-dependent diabetes is a condition where the body is unable to produce its own insulin in sufficient quantities to regulate blood sugar levels. Researchers have discovered a number of genes which are linked to an increased risk of developing type 1 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 81 is linked to a defect on chromosome 6q25-q27.
  • Diabetes Mellitus, Noninsulin-Dependent, Susceptibility to, 1: Noninsulin-dependent diabetes (Type 2 diabetes) is a type of diabetes that doesn't respond to insulin but does tend to respond to dietary measures and diabetes medication. Researchers have discovered a number of genes which are linked to an increased risk of developing Type 2 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 1 is linked to a defect on chromosome 2q37.3.
  • Diabetes Mellitus, Noninsulin-Dependent, Susceptibility to, 2: Noninsulin-dependent diabetes (Type 2 diabetes) is a type of diabetes that doesn't respond to insulin but does tend to respond to dietary measures and diabetes medication. Researchers have discovered a number of genes which are linked to an increased risk of developing Type 2 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 2 is linked to a defect on chromosome 12q24.2.
  • Diabetes Mellitus, Noninsulin-Dependent, Susceptibility to, 3: Noninsulin-dependent diabetes (Type 2 diabetes) is a type of diabetes that doesn't respond to insulin but does tend to respond to dietary measures and diabetes medication. Researchers have discovered a number of genes which are linked to an increased risk of developing Type 2 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 3 is linked to a defect on chromosome 20q12-q13.1.
  • Diabetes Mellitus, Noninsulin-Dependent, Susceptibility to, 4: Noninsulin-dependent diabetes (Type 2 diabetes) is a type of diabetes that doesn't respond to insulin but does tend to respond to dietary measures and diabetes medication. Researchers have discovered a number of genes which are linked to an increased risk of developing Type 2 diabetes. The genetic anomaly alone is not enough to cause the disease but simply increases the risk. Type 4 is linked to a defect on chromosome 5q34-q35.2.
  • Digestive symptoms: Any symptoms affecting the digestive tract.
  • Female reproductive toxicity -- Acetaminophen: Taking excessive doses of acetaminophen during pregnancy can result in kidney and liver problems in the baby. Pregnant women should avoid taking more than the recommended amount of the drug.
  • Galloway syndrome: A rare genetic disorder primarily involving physical and developmental abnormalities.
  • Galloway-Mowat Syndrome: A condition which is characterized by microcephaly, hiatal hernia and nephrotic syndrome
  • Garland flower Daphne poisoning: Garland flower Daphne is a small shrub bearing clusters of small pink or white fragrant flowers and white or yellow berries. The plant originated in Europe and is often used as an ornamental plant in gardens. The plant contains chemicals which can cause poisoning symptoms if eaten. Severe cases can result in death. Skin irritation can also occur on skin exposure.
  • Glomerulonephritis: A condition which affects the kidneys and is characterized by inflammatory changes that occur in the glomeruli
  • Goodpasture's syndrome: A condition which is characterized by glomerulonephritis and pulmonary hemorrhage with circulating antibodies against basement membranes.
  • Gout: Painful joints, most commonly the big toe.
  • Head symptoms: Symptoms affecting the head or brain
  • Herbal Agent adverse reaction -- Chaparral: Chaparral can be used as a herbal agent to treat abdominal cramps, pain and acne. The herbal agent contains a chemical called NDGA which can cause an adverse reaction in some people. Skin contact can also result in dermatitis. Patients with preexisting liver or kidney conditions are particularly susceptible to an adverse reaction to the herbal agent.
  • Herbal Agent adverse reaction -- Pennyroyal Oil: Pennyroyal Oil can be used as a herbal agent to treat delayed menstruation and as an insect repellent. The herbal agent can cause an adverse reaction in some people.
  • Herbal Agent overdose -- Buckthorn Bark: Buckthorn Bark can be used as a herbal agent used as a laxative. The herbal agent contains a chemical called frangulin and the ingestion of excessive amounts of these can result in unwanted symptoms. Chronic use can affect the electrolyte balance in the body.
  • Herbal Agent overdose -- Horse Chestnuts: Horse Chestnuts can be used as a herbal agent to treat varicose veins, improve blood circulation through veins and to prevent fluid buildup following operations. The herbal agent contains a chemical called aesculin which can cause various symptoms if excessive quantities are taken. As little as one seed can cause symptoms such as headache and vomiting in some people.
  • Herbal Agent overdose -- Rhubarb: Rhubarb can be used as a herbal agent to treat constipation. Excessive intake of rhubarb can result in overdose symptoms.
  • High blood pressure: Excessive blood pressure.
  • Hydronephrosis: Swelling of the kidney resulting from a blockage to the flow of urine.
  • Hypovolemia: a state of decreased blood volume; more specifically, decrease in volume of blood plasma
  • Interstitial nephritis: Any primary or secondary condition which affects the renal interstitial tissue
  • Kidney conditions: Any condition affecting the kidney organs.
  • Kidney damage -- 1,2-Dichloromethane: Damage or injury to kidneys caused by exposure to a hydrocarbon called 1,2-Dichloromethane. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Acetaminophen: Damage or injury to kidneys caused by a type of analgesic called acetaminophen (Tylenol). Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Aminoglycosides: Damage or injury to kidneys caused by aminoglycoside antibiotics. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Aminosalicylic Acid: Damage or injury to kidneys caused by a type of antibiotic called aminosalicylic acid. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Amphotericin B: Damage or injury to kidneys caused by an antibiotic called amphotericin B. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Amyl Alcohol: Damage or injury to kidneys caused by exposure to amyl alcohol. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Anti-cancer drugs: Damage or injury to kidneys caused by exposure to anti-cancer drugs such as cyclosporine and cisplatin. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Aristolochic acid: Damage or injury to kidneys caused by exposure to aristolochic acid. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Arsenic: Damage or injury to kidneys caused by exposure to arsenic. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Aspirin: Damage or injury to kidneys caused by a type of analgesic called Aspirin. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Automobile exhaust: Damage or injury to kidneys caused by exposure to Automobile exhaust. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Bacitracin: Damage or injury to kidneys caused by a type of antibiotic called bacitracin. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Bismuth: Damage or injury to kidneys caused by exposure to bismuth. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Cadmium: Damage or injury to kidneys caused by exposure to cadmium. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Carbon Tetrachloride: Damage or injury to kidneys caused by exposure to Carbon tetrachloride. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Cephaloridine: Damage or injury to kidneys caused by a type of antibiotic called Cephaloridine. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Chloroform: Damage or injury to kidneys caused by exposure to a hydrocarbon called chloroform. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Chlortetracycline: Damage or injury to kidneys caused by a type of antibiotic called Chlorotetracycline. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Chromium: Damage or injury to kidneys caused by exposure to chromium. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Cisplatin: Damage or injury to kidneys caused by exposure to an anti-cancer drug called Cisplatin. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Contrast agents: Damage or injury to kidneys caused by a contrast agent called sodium iodide used in some diagnostic tests. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Copper: Damage or injury to kidneys caused by exposure to copper. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Cyclophosphamide: Damage or injury to kidneys caused by exposure to an anti-cancer drug called Cyclophosphamide. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Cyclosporin: Damage or injury to kidneys caused by exposure to an anti-cancer drug called cyclosporine. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Degreasing solvents: Damage or injury to kidneys caused by exposure to degreasing solvents. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Dichloroacetylene: Damage or injury to kidneys caused by exposure to a hydrocarbon called Dichloroacetylene. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Diethylene glycol: Damage or injury to kidneys caused by exposure to a hydrocarbon called Diethylene glycol. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Dioxane: Damage or injury to kidneys caused by exposure to a hydrocarbon called Dioxane. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Ethylene Glycol: Damage or injury to kidneys caused by exposure to ethylene glycol. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Ethylene glycol ethers: Damage or injury to kidneys caused by exposure to Ethylene glycol ethers. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Fuels: Damage or injury to kidneys caused by exposure to fuel. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Gasoline: Damage or injury to kidneys caused by exposure to gasoline. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Germanium: Damage or injury to kidneys caused by exposure to germanium. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Glue solvent vapors: Damage or injury to kidneys caused by exposure to glue solvent vapors. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Glues: Damage or injury to kidneys caused by exposure to glues. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Gold: Damage or injury to kidneys caused by exposure to gold. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Hairdressing solvents: Damage or injury to kidneys caused by exposure to hairdressing solvents. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Hairdressing sprays: Damage or injury to kidneys caused by exposure to hairdressing sprays. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Heavy metals: Damage or injury to kidneys caused by exposure to heavy metals. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Herbicide: Damage or injury to kidneys caused by exposure to herbicides. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Hexachloro-1,3-butadiene: Damage or injury to kidneys caused by exposure to a hydrocarbon called Hexachloro-1,3-butadiene. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Hydrocarbons: Damage or injury to kidneys caused by exposure to hydrocarbons such as chloroform and styrene. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Ibuprofen: Damage or injury to kidneys caused by a type of analgesic called Ibuprofen. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Lead: Damage or injury to kidneys caused by exposure to lead. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Lithium: Damage or injury to kidneys caused by exposure to lithium. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Mercury: Damage or injury to kidneys caused by exposure to mercury. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Methanol: Damage or injury to kidneys caused by exposure to methanol. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Methemoglobin-producing agents: Damage or injury to kidneys caused by exposure to methemoglobin-producing agents. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Methicillin: Damage or injury to kidneys caused by a type of antibiotic called methicillin. Kidney damage usually occurs as a result of an allergic reaction to the antibiotic. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Neomycin: Damage or injury to kidneys caused by a type of antibiotic called Neomycin. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Nonsteroidal anti-inflammatory drugs: Damage or injury to kidneys caused by a type of analgesic called nonsteroidal anti-inflammatory drugs. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Oxytetracycline: Damage or injury to kidneys caused by a type of antibiotic called Oxytetracycline. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Paint solvents: Damage or injury to kidneys caused by exposure to paint solvents. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Paint thinners: Damage or injury to kidneys caused by exposure to paint thinners. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Paints: Damage or injury to kidneys caused by exposure to paints. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Paraquat ochratoxin A: Damage or injury to kidneys caused by exposure to paraquat ochratoxin A. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Perchloroethylene: Damage or injury to kidneys caused by exposure to a hydrocarbon called Perchloroethylene. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Pesticide solvents: Damage or injury to kidneys caused by exposure to pesticide solvents. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Pesticides: Damage or injury to kidneys caused by exposure to pesticides. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Platinum: Damage or injury to kidneys caused by exposure to platinum. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Polymyxin: Damage or injury to kidneys caused by a type of antibiotic called polymyxin. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Prostaglandin synthetase inhibitors: Damage or injury to kidneys caused by a type of analgesic called prostaglandin synthetase inhibitors. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Rifampin: Damage or injury to kidneys caused by a type of antibiotic called rifampin. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Silica: Damage or injury to kidneys caused by exposure to silica. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Silicon compounds: Damage or injury to kidneys caused by exposure to silicon compounds. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Silver: Damage or injury to kidneys caused by exposure to silver. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Solvents: Damage or injury to kidneys caused by exposure to solvents. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Styrene: Damage or injury to kidneys caused by exposure to a hydrocarbon called styrene. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Sulphonamides: Damage or injury to kidneys caused by sulphonamide antibiotics. The kidney damage usually occurs as a result of an allergic reaction to the antibiotic. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Thallium: Damage or injury to kidneys caused by exposure to thallium. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Toluene: Damage or injury to kidneys caused by exposure to a hydrocarbon called toluene. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Trichloroethane: Damage or injury to kidneys caused by exposure to a hydrocarbon called Trichloroethane. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Trichloroethylene: Damage or injury to kidneys caused by exposure to a hydrocarbon called trichloroethylene. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Trimethropin: Damage or injury to kidneys caused by a type of antibiotic called trimethropin. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- Uranium: Damage or injury to kidneys caused by exposure to Uranium. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- analgesics: Damage or injury to kidneys caused by analgesics such as acetaminophen and nonsteroidal anti-inflammatory drugs. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage -- antibiotics: Damage or injury to kidneys caused by antibiotics. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the toxicity. Kidney problems usually only occur with chronic use of the drug. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms.
  • Kidney damage due to chemicals: Damage or injury to kidneys caused by substances such as chemicals and medicines. Often other organs and tissues are also affected but only the kidney toxicity symptoms are listed below. Symptoms vary depending on the degree of exposure and hence extent of the kidney damage or injury. Mild kidney damage may cause few if any symptoms whereas severe damage can ultimately result in kidney failure. Symptoms may be acute, subacute or chronic depending on the severity of the exposure. Factors such as age, dehydration and underlying kidney problems may also influence a person's risk of developing kidney problems and the severity of the symptoms. Occupational kidney damage is considered relatively uncommon due to current safe industrial practices.
  • Kidney damage in pregnancy: Problems with the kidney that can arise either because of pregnancy or coincidentally.
  • Kidney pain: The occurrence of pain that comes from the kidney
  • Kidney stones: A crystal deposit that is made of urates and phosphates that occurs in the kidneys
  • Kidney symptoms: Symptoms affecting one or both kidneys.
  • Lead poisoning: A type of heavy metal poisoning caused by excessive exposure to lead.
  • Leptospirosis: Bacterial infection usually caught from animal urine.
  • Lymphatic Filariasis: Parasitic worm infection of the lympatic system
  • Malignant hypertension: Malignant hypertension is a condition characterized by very high blood pressure and swelling of the optic nerve. This type of hypertension is more common in people with kidney problems such as narrowed kidney blood vessels. The condition is a medical emergency which can cause organ damage if not treated promptly.
  • Marsh marigold poisoning: Marsh marigold is a low growing plant with rounded leaves and small yellow flowers. The plant can be found growing in the wild or in gardens. The leaves from the plant contain a chemical called protoanemonin which can cause symptoms if large quantities are eaten. The young leaves are actually edible if they are boiled with frequent changes of water.
  • Mercury poisoning -- Folk Remedies: Various folk remedies and medicines contain inorganic mercury and mercury salts. They can lead to mercury poisoning and severe cases can result in death. Children tend to be more sensitive to the effects of mercury poisoning than adults. Even low levels of exposure can cause neurological symptoms in infants and young children. Fetal exposure to mercury can also result in symptoms.
  • Mercury poisoning -- consumption of contaminated fish: Eating fish contaminated with mercury can lead to mercury poisoning in humans. The severity and range of symptoms experienced can vary greatly depending on the level and duration of exposure. Severe poisoning can lead to death. Pregnant women who eat mercury contaminated fish may give birth to infants who suffer symptoms such as ataxia, tremors, seizures, mental retardation and cerebral palsy. An epidemic was reported where hundreds of Japanese villagers suffered mercury poisoning after eating fish contaminated by a nearby factory. Nearly half of the victims eventually died and children born during that period suffered a variety of neurological problems.
  • Microcephaly, hiatal hernia and nephrotic syndrome: A rare genetic disorder primarily involving physical and developmental abnormalities as well as kidney disease.
  • Molybdenum poisoning: A type of heavy metal poisoning caused by excessive exposure to molybdenum.
  • Multiple endocrine neoplasia type 1: Rare inherited disease causing tumors in multiple glands
  • Multiple myeloma: A rare malignant cancer that occurs in the bone marrow. More common in skull, spine, rib cage, pelvis and legs.
  • Mushroom poisoning:
  • Myoglobinuria: Myoglobin (muscle protein) in the urine. It is often caused by destruction of muscle tissue for a variety of reasons such as certain drugs, metabolic abnormalities and trauma.
  • Nephrosis neuronal dysmigration Syndrome: A rare genetic disorder primarily involving physical and developmental abnormalities as well as kidney disease. The type and severity of symptoms that can occur is variable.
  • Nerve symptoms: Symptoms affecting the nerves
  • Neurogenic bladder: Neurogenic bladder is a condition in which the bladder, which stores urine, is unable to fully empty and eliminate urine because of a disease, disorder, or condition of the nervous system.
  • Obstructive nephropathies: nephropathy from obstruction to the kidneys
  • Oriental Hornet poisoning: The Oriental hornet can deliver a venomous sting which can result in serious and even life-threatening symptoms. Allergies to the venom are also a possible life-threatening consequence. Multiple stings increase the severity of symptoms.
  • Oxalosis: A rare inherited metabolic disorder where excess oxalic acid forms crystals which make up urinary stones. In type I primary hyperoxaluria there is a deficiency of peroxisomal alanine-glyoxalate aminotransferase and type II involves a deficiency of the enzyme glyoxylate reductase/hydroxypyruvate reductase.
  • Oxalosis, Type II: A rare inherited metabolic disorder where excess oxalic acid forms crystals which make up urinary stones. In type I primary hyperoxaluria there is a deficiency of the enzyme glyoxylate reductase/hydroxypyruvate reductase.
  • Oxalosis, type I: A rare inherited metabolic disorder where excess oxalic acid forms crystals which make up urinary stones. In type I primary hyperoxaluria there is a deficiency of alanine-glyoxalate aminotransferase.
  • Pancreatitis: Any inflammation that occurs in the pancreas
  • Plant poisoning -- Anthraquinone: Anthraquinone is a toxin found naturally in plants such as aloe vera, senna, rhubarb and Cascara buckthorn. The main symptoms are gastrointestinal which can range in severity depending on the amount consumed. Severe cases can result in kidney damage and gastrointestinal bleeding.
  • Plant poisoning -- Boston ivy (Parthenocissus tricuspidata): Ingestion of Boston ivy can cause kidney damage.
  • Plant poisoning -- Calcium oxalate crystals: Calcium oxalate crystals is a chemical found naturally in plants such as dumb cane and rhubarb leaves. The amount of calcium oxalate crystals varies amongst species of plant. The crystals are quite sharp and abrasive and ingestion of plants containing them can cause abrasive and irritation injuries. Eating large amounts can cause kidney and liver damage and even death in serious cases.
  • Plant poisoning -- Tannin: Tannin is a bitter-tasting chemical found in many types of plants. Most plants contain insufficient quantities to cause any real problem. Acorns contain tannins and can cause symptoms if sufficient quantities of untreated nuts are eaten.
  • Plant poisoning -- Toxalbumin: Toxalbumin is a toxin found naturally in plants such as the castor bean. The severity of symptoms depends on the particular species of plant involved and the amount consumed. For example the toxalbumin called ricin found in castor beans is extremely toxic.
  • Plant poisoning -- rhubarb (Rheum rhabarbum): Ingestion of rhubarb can cause kidney damage due to its relatively high oxalic acid content in the leaves. A large amount of leaves would have to be consumed to cause a poisonous effect.
  • Polycystic kidney disease: Genetic kidney disease causing kidney cysts.
  • Reflux nephropathy: A condition which is characterized by reflux of urine from the bladder back up the ureters
  • Rhabdomyolysis: The destruction of the striated muscle fibres with excretion of myoglobin in the urine
  • Rheumatoid vasculitis: A rare disorder where sufferers of rheumatoid arthritis with joint inflammation develop inflammation of small and medium sized blood vessels. It tends to mostly affect the blood vessels in the skin. The symptoms are determined by which part of the body is affected.
  • Sarcoidosis: Rare autoimmune disease usually affecting the lungs.
  • Scleroderma, diffuse: A rare autoimmune connective tissue disease where the body attacks parts of the body and causes scarring and thickness of the tissue. In the diffuse form the the disorder, large areas of skin as well as organs are involved. Death can occur.
  • Scleroderma, systemic: A rare autoimmune connective tissue disease where the body attacks parts of the body and causes scarring and thickness of the tissue. In the systemic form, the skin and organs are involved.
  • Shock: Physical and mental reaction to reduced circulation
  • Smoking stools syndrome: Ingestion of yellow phosphorus (chemical found in many rodent poisons) which is toxic to the body. There is an initial phase involving symptoms such as vomiting and burning which is followed by an asymptomatic period (may last for weeks) and then symptoms caused by toxicity of various organs. Obviously symptoms and survival depend on the quantity of phosphorus involved.
  • Stones: The formation of consolidations that are stone like in nature
  • Toxic mushrooms -- Renal toxic (orelline): Some mushrooms (Amanita smithiana) contain chemicals (allenic norleucine, chlorocrotyglycine) which can cause kidney damage.
  • Trauma-related symptoms: Symptoms related to trauma or injury.
  • Upper abdominal symptoms: Symptoms affecting the upper abdominal region.
  • Urinary symptoms: Symptoms affecting urination or related organs.
  • Vasculitis: A condition which is characterized by inflammation to blood vessels
  • Vitamin D -- adverse effects: Excessive use of vitamin D supplements can cause symptoms.
  • Weil's syndrome: Severe form of Leptospirosis
  • Wilson's disease: Wilson disease, or hepatolenticular degeneration, is a neurodegenerative disease of copper metabolism.
  • X-linked sideroblastic anaemia:
  • X-linked sideroblastic anemia: X-linked sideroblastic anemia is a rare inherited blood disorder characterized by abnormal deposits of iron in the red blood cells which makes them unable to function properly. The body continues to absorb more iron from digesting food in order to try and correct the problem but this simply leads to excessive iron being deposited in body tissues as the it can't use the iron properly. The severity of the condition is variable.

Conditions listing medical symptoms: Kidney damage:

The following list of conditions have 'Kidney damage' or similar listed as a symptom in our database. This computer-generated list may be inaccurate or incomplete. Always seek prompt professional medical advice about the cause of any symptom.

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Conditions listing medical complications: Kidney damage:

The following list of medical conditions have 'Kidney damage' or similar listed as a medical complication in our database.

 

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