In humans, teeth serve to: • support the lips and cheeks, providing for a fuller, more aesthetically pleasing appearance • maintain an individual's
vertical dimension of occlusion • along with the tongue and lips, allow for the proper pronunciation of various sounds • preserve and maintain the height of the
alveolar ridge •
cut, grind, and otherwise chew food Beyond impairing physical function, tooth loss also has a psychological impact: it has been shown to generally lower a patient's
quality of life, with this compromised oral function leading to decreased self-esteem and a decline in psychological well-being. Patients may be embarrassed to smile, eat and talk.
Facial support and aesthetics When an individual's mouth is at rest, the teeth in the opposing jaws are nearly touching; there is what is referred to as a "freeway space" of roughly 2–3 mm. However, this distance is partially maintained as a result of the teeth limiting any further closure past the point of
maximum intercuspidation. When there are no teeth present in the mouth, the natural
vertical dimension of occlusion is lost and the mouth has a tendency to overclose. This causes the cheeks to exhibit a "sunken-in" appearance and wrinkle lines to form at the
commissures. Additionally, the
anterior teeth, when present, serve to properly support the lips and provide for certain aesthetic features, such as an
acute nasiolabial angle. Loss of
muscle tone and skin elasticity due to old age, when most individuals begin to experience edentulism, tend to further exacerbate this condition. The
tongue, which consists of a very dynamic group of muscles, tends to fill the space it is allowed, and in the absence of teeth, will broaden out. This makes it initially difficult to fabricate both
complete dentures and
removable partial dentures for patients exhibiting complete and partial edentulism, respectively; however, once the space is "taken back" by the prosthetic teeth, the tongue will return to a narrower body.
Vertical dimension of occlusion As stated, the position of maximal closure in the presence of teeth is referred to as
maximum intercuspidation, and the vertical jaw relationship in this position is referred to as the
vertical dimension of occlusion. With the loss of teeth, there is a decrease in this vertical dimension, as the mouth is allowed to overclose when there are no teeth present to block the further upward movement of the
mandible towards the
maxilla. This may contribute, as explained above, to a sunken-in appearance of the cheeks, because there is now "too much" cheek than is needed to extend from the maxilla to the mandible when in an over closed position. If this situation is left untreated for many years, the muscles and tendons of the mandible and the
TMJ may manifest with altered tone and elasticity.
Pronunciation The teeth play a major role in speech. Some letter sounds require the lips and/or tongue to make contact with teeth for proper pronunciation of the sound, and lack of teeth will obviously affect the way in which an edentulous individual can pronounce these sounds. For example, the consonant sounds of the
English language s,
z,
j,
x ,
d,
n,
l,
t, and
th are achieved with tongue-to-tooth contact; the fricatives
f and
v are achieved through lip-to-tooth contact. The edentulous individual finds these sounds very difficult to enunciate properly.
Preservation of alveolar ridge height dimensions of a newly edentulous ridge, while the blue line indicates these dimensions after the occurrence of very severe resorption. The
alveolar ridges are columns of bone that surround and anchor the teeth and run the entire length,
mesiodistally, of both the
maxillary and
mandibular dental arches. The alveolar bone is unique in that it exists for the sake of the teeth that it retains; when the teeth are absent, the bone slowly
resorbs. The maxilla resorbs in a
superioposterior direction, and the mandible resorbs in an
inferioanterior direction, thus eventually converting an individual's
occlusal scheme from a
Class I to a
Class III. Loss of teeth alters the form of the alveolar bone in 91% of cases. In addition to this resorption of bone in the vertical and anterioposterior dimensions, the alveolus also resorbs
faciolingually, thus diminishing the width of the ridge. What initially began as a tall
bell curve (in the faciolingual dimension) eventually becomes much shorter and broader. Resorption is exacerbated by pressure on the bone; thus, long-term
complete denture wearers will experience more drastic reductions to their ridges than non-denture wearers. Those individuals who do wear dentures can decrease the amount of bone loss by retaining some tooth roots in the form of overdenture abutments or have
implants placed. Note that the depiction above shows a very excessive change caused by year of denture usage. Ridge resorption may also alter the form of the ridges to less predictable shapes, such as bulbous ridges with undercuts or even sharp, thin, knife-edged ridges, depending on the many possible factors that influenced the resorption. Bone loss with missing teeth, partials and complete dentures is progressive. According to
Wolff's law, bone is stimulated, strengthened and continually renewed directly by a tooth or an implant. Teeth and implants provide this direct stimulation which develops stronger bone around them. A 1970 research study of 1012 patients by Jozewicz showed denture wearers had a significantly higher rate of bone loss. Tallgren's 25-year study in 1972 also showed denture wearers have continued bone loss over the years. The biting force on the gum tissue irritates the bone and it undergoes resorption with a decrease in volume and density. Carlsson's 1967 study showed a significant bone loss during the first year after a tooth extraction which continues over the years, even without a denture or partial on it. The longer people are missing teeth, wear dentures or partials, the less bone they have in their jaws. This may result in decreased ability to chew food well, a decreased quality of life, social insecurity and decreasing esthetics because of a collapsing of the lower third of their face. The bone loss also results in a significant decrease in chewing force, prompting many denture and partial wearers to avoid certain kinds of food. Collection of food particles under the appliance may inadvertently affect the patients choice of food. There are several reports that correlate the quality and length of peoples lives with their ability to chew. Dental implant studies from 1977 by Branemark and countless others show dental implants stop this progressive loss and stabilize the bone over the long term. . Dental implants provide good
Osseointegration and are hence stable and are often associated with better ease of use and an improved quality of life than traditional dentures.
Masticatory efficiency Physiologically, teeth provide for greater chewing ability. Teeth allow humans to
masticate food thoroughly, increasing the surface area necessary to allow for the
enzymes present in the saliva, as well as in the stomach and intestines, to digest the food. Chewing also allows food to be prepared into small
boli that are more readily swallowed than inconsistent chunks of different sizes. For those who are even partially edentulous, it may become extremely difficult to chew food efficiently enough to swallow comfortably, although this is entirely dependent upon which teeth are lost. When an individual loses enough posterior teeth to make it difficult to chew, he or she may need to cut their food into very small pieces and learn how to make use of their anterior teeth to chew. If enough posterior teeth are missing, this will not only affect their chewing abilities, but also their
occlusion; posterior teeth, in a
mutually protected occlusion, help to protect the anterior teeth and the
vertical dimension of occlusion and, when missing, the anterior teeth begin to bear a greater amount of force than they are structurally prepared for. Thus, loss of posterior teeth will cause the anterior teeth to splay. This can be prevented by obtaining dental prostheses, such as
removable partial dentures,
bridges or
implant-supported crowns. In addition to reestablishing a protected occlusion, these prostheses can greatly improve one's chewing abilities. As a consequence of a lack of certain nutrition due to altered eating habits, various health problems can occur, from the mild to the extreme. Lack of certain
vitamins (
A,
E and
C) and low levels of
riboflavin and
thiamin can produce a variety of conditions, ranging from
constipation, weight loss,
arthritis and
rheumatism. There are more serious conditions such as heart disease and
Parkinson's disease and even to the extreme, certain types of
cancer. Treatments include changing approaches to eating such as cutting food in advance to make eating easier and less likely to avoid as well as consumer health products such as multivitamins and multi-minerals which aid in fulfilling the nutritional deficit found in denture users. Numerous studies linking edentulism with instances of disease and medical conditions have been reported. In a cross-sectional study, Hamasha and others found significant differences between edentulous and dentate individuals with respect to rates of atherosclerotic vascular disease, heart failure, ischemic heart disease and joint disease. ==Cause==