Embalming chemicals are a variety of preservatives, sanitising and disinfectant agents, and additives used in modern embalming to temporarily prevent decomposition and restore a natural appearance for viewing a body after death. A mixture of these chemicals is known as embalming fluid and is used to preserve bodies of deceased persons for both funeral purposes and in medical research in anatomical laboratories. The period for which a body is embalmed is dependent on time, expertise of the embalmer and factors regarding duration of stay and purpose.
Typically, embalming fluid contains a mixture of formaldehyde, glutaraldehyde, methanol, and other solvents. The formaldehyde content generally ranges from 5 to 37 percent and the methanol content may range from 9 to 56 percent.
In the United States alone, about 20 million liters (roughly 5.3 million gallons) of embalming fluid are used every year.[1]
Embalming fluid acts to fix (denature) cellular proteins, meaning that they cannot act as a nutrient source for bacteria; embalming fluid also kills the bacteria themselves. Formaldehyde or glutaraldehyde fixes tissue or cells by irreversibly connecting a primary amine group in a protein molecule with a nearby nitrogen in a protein or DNA molecule through a -CH2- linkage called a Schiff base. The end result also creates the simulation, via color changes, of the appearance of blood flowing under the skin.
Modern embalming is not done with a single fixative. Instead, various chemicals are used to create a mixture, called an arterial solution, which is uniquely generated for the needs of each case. For example, a body needing to be repatriated overseas needs a higher index (percentage of diluted preservative chemical) than one simply for viewing (known in the United States and Canada as a funeral visitation) at a funeral home before cremation or burial.
Embalming fluid is injected into the arterial system of the deceased's abdomen and a trocar is inserted into the body cavity. The organs in the chest cavity and the abdomen are then punctured and drained of gas and fluid contents.. Many other bodily fluids may also be displaced and removed from the body using the arterial system and in the case of cavity treatment aspirated from the body and replaced with a specialty fluid known as cavity fluid.
It is important to distinguish between an arterial chemical (or fluid), which is generally taken to be the product in its original composition, and an arterial solution, which is a diluted mixture of chemicals and made to order for each body. Non-preservative chemicals in an arterial solution are generally called "accessory chemicals" or co/pre-injectants, depending on their time of utilization.
Potential ingredients in an arterial solution include:
Prior to the advent of the modern range of embalming chemicals a variety of alternative additives have been used by embalmers, including epsom salts for edema cases,[citation needed] but these are of limited effectiveness and can be chalked up as "embalmer tricks", as the validity of their use has never been demonstrated by professional embalmers or mortuary science programs.
During the American Civil War, the Union Army, wanting to transport slain soldiers from the battlefields back home for burial, consulted with Dr. Thomas Holmes, who developed a technique that involved draining a corpse's blood and embalming it with a fluid made with arsenic for preservation.[1]
Embalming chemicals are generally produced by specialist manufacturers. The oldest embalming fluid company was founded as the Hill Fluid Company, in 1878, and was then incorporated by Dr. A.A. Bakker, as the Champion Company, in 1880, making The Champion Company 143 years old. Champion was still owned and operated by the Bakker Family until the death of Dr. Bakker's granddaughter, in the late 1970's. Champion still operates today and is still family owned by the Giankopulous Family. They continuously operate today. They are located in Springfield, OH. The Frigid Fluid Company was founded in 1892, followed by the Dodge Company in 1893, with other companies including Egyptian, now U.S. Chemical, as well as Kelco Supply Company (formerly L H Kellogg), Pierce Chemical Company (now owned by The Wilbert Company), Bondol Chemical Company, and Hydrol Chemical Company. There are many smaller and regional producers as well. Some funeral homes produce their own embalming fluids, although this practice has declined in recent decades as commercially available products have become of better quality and more readily available.
Despite genuine concerns, formaldehyde is a naturally occurring substance, of which human beings produce approximately 1.5 oz a day as a normal part of a healthy metabolism. Formaldehyde also occurs naturally in many fruits, such as bananas, apples, and carrots, and does not bioaccumulate in either plants or animals. [4]
Formaldehyde works to fixate the tissue of the deceased. This is the characteristic that also makes concentrated formaldehyde hazardous when not handled using appropriate personal protective equipment. The carbon atom in formaldehyde, CH2O, carries a slight positive charge due to the high electronegativity of the oxygen double bonded with the carbon. The electropositive carbon will react with a negatively charged molecule and other electron-rich species. As a result, the carbon in the formaldehyde molecule bonds with electron-rich nitrogen groups called amines found in plant and animal tissue. This leads to formaldehyde cross-linking, bonding proteins with other proteins and DNA, rendering them dysfunctional or no longer useful.[5] This is the reason for usage of formaldehyde as a preservative, as it thus prevents cellular decay and renders the tissue unsuitable for use as a nutrient source for bacteria.
Formaldehyde is carcinogenic in humans and animals at excessive levels[6][7] because the cross-linking can cause DNA to keep cells from halting the replication process. This unwarranted replication of cells can lead to cancer.[5] Unicellular organisms found in the soil and groundwater are also quite sensitive to cross-linking, experiencing damage at a concentration of 0.3 mg to 22 mg per liter.[6] Formaldehyde also affects aquatic invertebrates, with crustaceans being the most sensitive type. The range of concentration damaging them is 0.4 mg to 20 mg per liter.[6]
Formaldehyde released from the cremation of embalmed bodies enters the atmosphere and can remain suspended for up to 250 hours.[6] It is readily soluble[7] in water so it will bond with moisture in the atmosphere and rain down onto plants, animals, and water supplies below. As a result, formaldehyde content in precipitation can range from 110 μg to 1380 μg per liter.[6] These concerns notwithstanding, according to the American Chemistry Council, formaldehyde, as a ubiquitous chemical produced by living beings, is eminently biodegradable by both sunlight in air and bacteria in soil and water. [8]
The growth of the environment movement has caused some people to consider green burials where there are either no aldehyde-based chemicals used in the embalming process, or there is no embalming process at all.[9] Embalming fluid meeting specific criteria for such burials is commercially available, and although it is not as effective as aldehyde-based solutions, is approved by the Green Burial Association of America. Only the Champion Company has created and distribute their 4th generation of fluids called “Enigma”, created in the early 2000’s. All of Champion’s enigma products have been approved by the green Burial Council.