Common Name: Antimony Lactate CAS Number: 58164-88-8 DOT Number: UN 1550 Date: August 1, 1987 ----------------------------------------- HAZARD SUMMARY * Antimony Lactate can affect you when breathed and by passing through skin. * Exposure can irritate the eyes, nose, throat and skin. Very high levels could cause Antimony poisoning, with symptoms of nausea, headaches, abdominal pain, trouble breathing and death. * Repeated exposure can cause abnormal chest x-ray and damage the heart and liver; prolonged or repeated contact can cause sores and ulcers. * If used near acid, Stibine gas can form. * Antimony Lactate may be contaminated with Arsenic or other toxic substances. IDENTIFICATION Antimony Lactate is a tan colored solid. It is used in fabric dyeing. REASON FOR CITATION * Antimony Lactate is on the Hazardous Substance List because it is regulated by OSHA and cited by ACGIH, DOT and NIOSH. HOW TO DETERMINE IF YOU ARE BEING EXPOSED * Exposure to hazardous substances should be routinely evaluated. This may include collecting personal and area air samples. You can obtain copies of sampling results from your employer. You have a legal right to this information under OSHA 1910. 20. * If you think you are experiencing any work-related health problems, see a doctor trained to recognize occupational diseases. Take this Fact Sheet with you. ----------------------------------------- WORKPLACE EXPOSURE LIMITS These exposure limits are recommended for Antimony and compounds (as Stibine). OSHA: The legal airborne permissible exposure limit (PEL) is 0.5mg/m3 averaged over an 8-hour workshift. NIOSH: The recommended airborne exposure limit is 0.5 mg/m3 averaged over a 10-hour workshift. ACGIH: The recommended airborne exposure limit is 0.5 mg/m3 averaged over an 8-hour workshift. * The above exposure limits are for air levels only. When skin contact also occurs, you may be overexposed, even though air levels are less than the limits listed above. WAYS OF REDUCING EXPOSURE * Where possible, enclose operations and use local exhaust ventilation at the site of chemical release. If local exhaust ventilation or enclosure is not used, respirators should be worn. * Wear protective work clothing. * Wash thoroughly immediately after exposure to Antimony Lactate and at the end of the workshift. * Post hazard and warning information in the work area. In addition, as part of an ongoing education and training effort, communicate all information on the health and safety hazards of Antimony Lactate to potentially exposed workers. This Fact Sheet is a summary source of information of all potential and most severe health hazards that may result from exposure. Duration of exposure, concentration of the substance and other factors will affect your susceptibility to any of the potential effects described below. ------------------------------------------ HEALTH HAZARD INFORMATION Acute Health Effects The following acute (short-term) health effects may occur immediately or shortly after exposure to Antimony Lactate: * Exposure can cause metallic taste, nausea, sore throat and irritation of the air passages. Higher levels can cause congestion of the lungs and make the heart beat irregularly or stop. This can cause death. * Skin contact causes irritation. Repeated or prolonged contact causes an itchy rash. * Eye contact causes irritation. Chronic Health Effects The following chronic (long-term) health effects can occur at some time after exposure to Antimony Lactate and can last for months or years: Cancer Hazard * According to the information presently available to the New Jersey Department of Health, Antimony Lactate has not been tested for its ability to cause cancer in animals. Reproductive Hazard * According to the information presently available to the New Jersey Department of Health, Antimony Lactate has not been tested for its ability to adversely affect reproduction. Other Long-Term Effects * Repeated exposure can cause headache, poor appetite, dry throat and loss of sleep. Damage to the liver and heart muscle, with abnormal EKG, may also occur, especially with frequent or higher exposures. * Years after first exposure, changes can occur on chest x-ray. At this time these are not thought to be harmful but more research is needed. MEDICAL Medical Testing Before employment and at regular times after, especially with frequent or potentially high exposures, the following is recommended: * Urine test for Antimony (and Arsenic if Arsenic contamination is suspected). If symptoms are present or overexposure suspected, consider: * EKG. * Liver function tests. * Consider chest x-ray after acute over-exposure. Any evaluation should include a careful history of past and present symptoms with an exam. Medical tests that look for damage already done are not a substitute for controlling exposure. Request copies of your medical testing. You have a legal right to this information under OSHA 1910.20. Mixed Exposures * Use of Antimony Lactate near acid can cause release of a deadly gas, Stibine. WORKPLACE CONTROLS AND PRACTICES Unless a less toxic chemical can be substituted for a hazardous substance, ENGINEERING CONTROLS are the most effective way of reducing exposure. The best protection is to enclose operations and/or provide local exhaust ventilation at the site of chemical release. Isolating operations can also reduce exposure. Using respirators or protective equipment is less effective than the controls mentioned above, but is sometimes necessary. In evaluating the controls present in your workplace, consider: (1) how hazardous the substance is, (2) how much of the substance is released into the workplace and (3) whether harmful skin or eye contact could occur. Special controls should be in place for highly toxic chemicals or when significant skin, eye, or breathing exposures are possible. In addition, the following control is recommended: * Specific engineering controls are recommended for this chemical by NIOSH. Refer to the NIOSH criteria document: Antimony #78-216. Good WORK PRACTICES can help to reduce hazardous exposures. The following work practices are recommended: * Workers whose clothing has been contaminated by Antimony Lactate should change into clean clothing promptly. * Contaminated work clothes should be laundered by individuals who have been informed of the hazards of exposure to Antimony Lactate. * If there is the possibility of skin exposure, emergency shower facilities should be provided. * On skin contact with Antimony Lactate, immediately wash or shower to remove the chemical. * Wash any areas of the body that may have contacted Antimony Lactate at the end of each workday, whether or not known skin contact has occurred. * Do not eat, smoke, or drink where Antimony Lactate is handled, processed, or stored, since the chemical can be swallowed. Wash hands carefully before eating or smoking. * Use a vacuum or a wet method to reduce dust during clean-up. Do not dry sweep. PERSONAL PROTECTIVE EQUIPMENT WORKPLACE CONTROLS ARE BETTER THAN PERSONAL PROTECTIVE EQUIPMENT. However, for some jobs (such as outside work, confined space entry, jobs done only once in a while, or jobs done while workplace controls are being installed), personal protective equipment may be appropriate. The following recommendations are only guidelines and may not apply to every situation. Clothing * Avoid skin contact with Antimony Lactate. Wear protective gloves and clothing. Safety equipment suppliers/manufacturers can provide recommendations on the most protective glove/clothing material for your operation. * All protective clothing (suits, gloves, footwear, headgear) should be clean, available each day, and put on before work. Eye Protection * Wear dust-proof goggles and face shield when working with powders or dust, unless full facepiece respiratory protection is worn. Respiratory Protection * IMPROPER USE OF RESPIRATORS IS DANGEROUS. Such equipment should only be used if the employer has a written program that takes into account workplace conditions, requirements for worker training, respirator fit testing and medical exams, as described in OSHA 1910.134. * Where the potential exists for exposures over 0.5 mg/m3, use a MSHA/NIOSH approved full facepiece respirator with a high efficiency particulate filter. Greater protection is provided by a powered-air purifying respirator. * If while wearing a filter, cartridge or canister respirator, you can smell, taste, or otherwise detect Antimony Lactate, or in the case of a full facepiece respirator you experience eye irritation, leave the area immediately. Check to make sure the respirator-to-face seal is still good. If it is, replace the filter, cartridge, or canister. If the seal is no longer good, you may need a new respirator. * Be sure to consider all potential exposures in your workplace. You may need a combination of filters, prefilters, cartridges, or canisters to protect against different forms of a chemical (such as vapor and mist) or against a mixture of chemical s. * Where the potential for high exposures exists, use a MSHA/NIOSH approved supplied-air respirator with a full face- piece operated in the positive pressure mode or with a full facepiece, hood, or helmet in the continuous flow mode. * Exposure to 80 mg/m3 is immediately dangerous to life and health. If the possibility of exposures above 80 mg/m3 exists, use a MSHA/NIOSH approved self-contained breathing apparatus with a full facepiece operated in continuous flow or other positive pressure mode. Common Name: Antimony Lactate DOT Number: UN 1550 DOT Emergency Guide code: 53 CAS Number: 58164-88-8 ---------------------------------------- NJ DOH Hazard rating FLAMMABILITY Not Found REACTIVITY Not Found ---------------------------------------- DOES NOT BURN POISONOUS GASES ARE PRODUCED IN FIRE ---------------------------------------- Hazard Rating Key: 0=minimal; 1=slight; 2=moderate; 3=serious; 4=severe FIRE HAZARDS * Extinguish fire using an agent suitable for type of surrounding fire. Antimony Lactate itself does not burn. * POISONOUS GASES ARE PRODUCED IN FIRE. * If employees are expected to fight fires, they must be trained and equipped as stated in OSHA 1910.156. SPILLS AND EMERGENCIES If Antimony Lactate is spilled, take the following steps: * Restrict persons not wearing protective equipment from area of spill until clean-up is complete. * Ventilate the area of spill. * Collect powdered material in the most convenient and safe manner and deposit in sealed containers. * It may be necessary to contain and dispose of Antimony Lactate as a HAZARDOUS WASTE. Contact your state Department of Environmental Protection (DEP) or your regional office of the federal Environmental Protection Agency (EPA) for specific recommendations. ========================================== FOR LARGE SPILLS AND FIRES immediately call your fire department. ========================================== HANDLING AND STORAGE * Prior to working with Antimony Lactate you should be trained on its proper handling and storage. * Store in tightly closed containers in a cool, well-ventilated area away from HEAT and ACIDS. Contact with acids can produce the deadly gas Stibine. * Antimony Lactate must be stored to avoid contact with OXIDIZERS (such as PERCHLORATES, PEROXIDES, PERMANGANATES, CHLORATES and NITRATES) since violent reactions occur. FIRST AID Eye Contact * Immediately flush with large amounts of water for at least 15 minutes, occasionally lifting upper and lower lids. Skin Contact * Remove contaminated clothing. Wash contaminated skin promptly with water. Breathing * Remove the person from exposure. * Begin rescue breathing if breathing has stopped and CPR if heart action has stopped. * Transfer promptly to a medical facility. Medical observation for 1 or 2 days is recommended after overexposure, as lung or heart effects may be delayed. PHYSICAL DATA Water Solubility: Soluble OTHER COMMONLY USED NAMES Chemical Name: Propanoic Acid, 2-Hydroxy- Antimony (3+) salt(3:1) Other Names and Formulations: Lactic Acid, Antimony Salt; 2-Hydroxy-, Trianhydride with Antimonic Acid (H3 sb - 03). ------------------------------------------ Not intended to be copied and sold for commercial purposes. ------------------------------------------ NEW JERSEY DEPARTMENT OF HEALTH Right to Know Program CN 368, Trenton, NJ 08625-0368 (609) 984-2202 ------------------------------------------ ------------------------------------------ ECOLOGICAL INFORMATION Antimony is an element which occurs naturally in the environment as a component of certain minerals. As antimony oxide, it is added to various materials as a flame retardant. Antimony may occur in the aquatic environment from natural weathering of mineral formations, from mining and manufacturing effluents, and from municipal wastes. ACUTE (SHORT-TERM) ECOLOGICAL EFFECTS Acute toxic effects may include the death of animals, birds, or fish, and death or low growth rate in plants. Acute effects are seen two to four days after animals or plants come in contact with a toxic chemical substance. Antimony has high acute toxicity to aquatic life. No data are available on the short-term effects of antimony to plants, birds, or land animals. CHRONIC (LONG-TERM) ECOLOGICAL EFFECTS Chronic toxic effects may include shortened lifespan, reproductive problems, lower fertility, and changes in appearance or behavior. Chronic effects can be seen long after first exposure(s) to a toxic chemical. Antimony has high chronic toxicity to aquatic life. No data are available on the long-term effects of antimony to plants, birds, or land animals. WATER SOLUBILITY Antimony and its salts have solubilities in water ranging from low to high. DISTRIBUTION AND PERSISTENCE IN THE ENVIRONMENT Antimony is highly persistent in water with a half-life of longer than 200 days. The half-life of a pollutant is the amount of time it takes for one-half of the chemical to be degraded. BIOACCUMULATION IN AQUATIC ORGANISMS Some substances increase in concentration, or bioaccumulate, in living organisms as they breathe contaminated air, drink contaminated water, or eat contaminated food. These chemicals can become concentrated in the tissues and internal organs of animals and humans. The concentration of antimony found in fish tissues is expected to be about the same as the average concentration of antimony in the water from which the fish was taken. SUPPORT DOCUMENT: AQUIRE Database, ERL-Duluth, U.S. EPA.