Dental Hygiene and the safety of Fluoride Essay
The most interesting finding was that, with all variables taken into account, nurses with a bachelor’s degree corresponded to a 5% decrease in the likelihood of patient death and failure to rescue on the part of these nurses. Using this as a basis, it is evident that having bachelor prepared nurses is important in maintaining the health of patients. Sasichay-Akkadechanunt, Scalzi, & Jawad (2003) found similar results. This study examined data from 2531 patients in various surgical and ward units in one large hospital in Thailand. The patients were split into four major categories (disease of the heart, disease of the lung, all types of cancer and cerebrovascular diseases) and data was observationally taken from their charts, as well as information from the nursing staff. The results showed again that there was a decrease in in-hospital mortality with bachelor prepared nurses. Dental Hygiene and the safety of Fluoride Essay. It should be noted that using this technique means that many diseases are ignored by the study which may not benefit from nurse education at this level, but it seems suggestible from the research that it is. Primm (1987) compared the competency of AND prepared nurses to BSN prepared nurses. BSN qualifications take roughly twice the amount of time as an AND qualification. Although both lead to RN status, Primm found evidence to suggest that BSN prepared nurses had a higher competence rating in the majority of the five areas surveyed in the study. This gives further evidence that bachelor preparation may lead to better prepared nurses, although the evidence from one study should be carefully used when generalising as many programs can be different between areas. White, Coyne & Patel (2001) investigated all members of the Oncology Nursing Society to ascertain whether nurses felt adequately prepared for end-of-life care. All the respondents said that end-of-life care was an important aspect of their work life, and each of them had covered this area in their bachelor preparation. One aspect that came up is that nurses felt that continuing education was very important, although only two respondents had covered end-of-life care in the previous two years. This suggests that, whilst bachelor prepared nurses are important and feel qualified, there could be more education provided for nurses during their career. It must be noted that the nurses here were only questioned on their participation in end-of-life care so we must be careful not to generalize these views without careful consideration. Further evidence that bachelor prepared nurses are useful in specialized situations is provided by Kardong-Edgren & Campinha-Bacote (2008).Dental Hygiene and the safety of Fluoride Essay. This paper examined four groups of nurses, each from different geographical areas, and surveyed the cultural sensitivity of those with an American BSN qualification. The study found that, because cultural sensitivity and awareness of beliefs is an important aspect of gaining the BSN qualification, nurses with the qualification were more highly prepared to deal with various groups of patients. This is important as it shows that nurses with bachelor preparation may be more able to create a comfortable environment for the patient which will lead to lower in-hospital death rates and a more pleasant experience for the patient. It is important to note that this is an important aspect of nursing that can be overlooked by the literature. Thornton (1997) .
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Appropriate oral health care is fundamental for any individual’s health. Dental caries is still one of the major public health problems. The most effective way of caries prevention is the use of fluoride.
The aim of our research was to review the literature about fluoride toxicity and to inform physicians, dentists and public health specialists whether fluoride use is expedient and safe.
Data we used in our review were systematically searched and collected from web pages and documents published from different international institutions.
Fluoride occurs naturally in our environment but we consume it in small amounts. Exposure can occur through dietary intake, respiration and fluoride supplements. The most important factor for fluoride presence in alimentation is fluoridated water. Methods, which led to greater fluoride exposure and lowered caries prevalence, are considered to be one of the greatest accomplishments in the 20th century`s public dental health. During pregnancy, the placenta acts as a barrier. Dental Hygiene and the safety of Fluoride Essay. The fluoride, therefore, crosses the placenta in low concentrations. Fluoride can be transmitted through the plasma into the mother’s milk; however, the concentration is low. The most important action of fluoride is topical, when it is present in the saliva in the appropriate concentration. The most important effect of fluoride on caries incidence is through its role in the process of remineralization and demineralization of tooth enamel. Acute toxicity can occur after ingesting one or more doses of fluoride over a short time period which then leads to poisoning. Today, poisoning is mainly due to unsupervised ingestion of products for dental and oral hygiene and over-fluoridated water.
Even though fluoride can be toxic in extremely high concentrations, it`s topical use is safe. The European Academy of Paediatric Dentistry (EAPD) recommends a preventive topical use of fluoride supplements because of their cariostatic effect.
The most efficient way to prevent caries is by using fluoridated dental products (1, 2). Fluoride enters the body with food, through respiration and products containing fluoride (3). Fluoride is a part of the natural environment and is therefore constantly present in people’s lives. However, concentration of fluoride can vary from one region to another. From a chemical point of view, it is the most electronegative and reactive of all the elements due to its small atomic radius. Since it is highly reactive, it is usually bound as inorganic fluoride and not found in its elementary state (4). It ranks 13th in terrestrial abundance and represents 0.06-0.09% of weight of the Earth’s crust. Fluorine is present in the lithosphere, atmosphere, hydrosphere and biosphere. A large amount of fluorine can be found in rocks of volcanic origin. It enters the environment through volcanic eruptions, rock dissolution and numerous human activities (coal burning, ore processing, production and use of fertilizers, and industrial plants) (4, 5). Fluoride is found in all natural waters. Seawater contains 1.2-1.5 ppm of fluoride. Freshwater concentrations are usually lower ranging from 0.01 to 0.3 ppm. Higher concentrations of fluoride in water can be present near hot springs of volcanic origin (5). Normal accumulation of fluoride from the soil is low. Flora growing in acidic soil tends to accumulate more fluoride. There are some plants which can accumulate a few 100 ppm of fluoride; the best known is the tea plant (Camellia sinensis, syn. Thea sinensis) (6).
The aim of our research was to review the literature about fluoride toxicity and to inform physicians, dentists and public health specialists whether fluoride use is expedient and safe. Dental Hygiene and the safety of Fluoride Essay.
Data we used in our review were systematically searched from articles published until 2015 and collected from official web pages and documents published from different international institutions. Professional criteria were taken into account. The search was conducted between 16th and 27th March 2015 and revised between 1st and 18thDecember 2015. At the end of our review we summarized current EAPD guidelines for fluoride use published in 2009 (7).
Topics discussed in this review are:
Dietary intake of fluoride,
Fluoride metabolism,
History of fluoride use,
The mechanism of fluoride action,
Overuse and toxicity of fluoride.
Even though fluoride is generally present in our everyday life, we consume it in small amounts. In general, it can be found in meat, fish, and cereals (2, 5). In higher concentrations, it can also be found in canned anchovies, canned fruits, ground chicken meat products (with a higher percentage of ground bones), chocolate milk and some baby dietary supplements (8). Table 1 shows the average concentrations of fluoride in different types of food (8).
Fluoride content in food can also depend on materials used in food preparation. For instance, Teflon cookware is a great source of fluoride ions (9). The most important factor for fluoride presence in alimentation is fluoridated water (8). The reason behind this are preventive programs for fluoridation of drinking water (in the USA, the Healthy People 2010 objective was to increase proportion of USA population served by community water systems with optimally fluoridate water to 75%) (10). These methods are especially important in regions where other preventive programs are not available (11).
In certain countries, preventive methods also include fluoridated milk and salt (7). Fluoridated salt has been widely used in Germany, France and Switzerland since 1955. Nowadays, 30 to 80% of marketed salt is fluoridated (12). Salt usually contains 250 ppm of fluoride (11), whereas milk contains 2.5 ppm or up to 5 ppm of fluoride (11). However, this method is becoming less suitable, because of modern guidelines for low salt diets (7). Dental Hygiene and the safety of Fluoride Essay. According to different evidence based research, there is insufficient evidence that fluoridated milk has caries-protective effects (13). Products used for oral hygiene are also an important means of systemic fluoride intake. A certain amount of toothpaste is consumed during brushing. It is therefore recommended that children use toothpaste with a lower fluoride concentration in small amounts (Table 2) (14).
About 90% of fluoride is absorbed in the gastrointestinal tract after consumption (up to 25% in the stomach and around 77% in proximal part of the small intestine). The remaining 10% is excreted in feces (15). After absorption, fluoride is transported into the bloodstream and is distributed through the organism (4). The mean time of the peak concentration is 20-60 minutes after consumption (15). In the plasma, fluoride ions are bound to plasma protein (15). Concentration rarely exceeds 0.06 ppm (parts per million). It is usually about 0.01 ppm and is not homeostatically regulated in the blood. Adults retain around 36% of fluoride, whereas children retain approximately 50% of fluoride; 99% of that is contained in mineralized tissues (bone and teeth) and 1% can be found in soft tissue (15). The remaining part of the absorbed fluoride is excreted through the kidneys into the urine; excretion through saliva and sweat is negligible (4). The kidneys are therefore the only human organ that helps maintain the fluoride concentration in our bodies. There are different factors that can influence fluoride metabolism. The most important are: acid base disorders, hematocrit, altitude, physical activity, circadian rhythm, hormones, kidney function, genetic predispositions and diet (15). In pregnant women, uptake of fluorides in the placenta is dependent on the fluoride concentration in the mother`s bloodstream. Dental Hygiene and the safety of Fluoride Essay. When the concentration is low, fluoride is transmitted into the placenta (16). On average, the concentration in the placenta is about 60% of the concentration in the mother`s bloodstream (17). If the fluoride concentration increases over 0.4 ppm (17), the placenta works as a barrier, preventing the fluoride from passing through and thus protecting the fetus from a high fluoride concentration (16). Fluoride can also be transmitted through the plasma into the mother’s milk; however, the concentration is low (18).
The idea of using fluoride as a beneficial agent in caries prevention is not new. The pioneers in the field were Black and McKay. They started observing and describing the effects of fluoride in the late 19th and beginning of the 20th century (19). McKay was studying brown stains on enamel observed in the population from different parts of the USA. A condition which he termed mottled enamel. In 1931, Churchill’s chemical analysis discovered the reason behind those changes – fluoride (20, 21). After the discovery, Dean systematically conducted a series of epidemiological investigations (22). He listed enamel spots based on size and color and measured the degree of tooth impairment. He compared enamel changes to fluoride concentration in drinking water and made the connection between fluoride content and the quantity of enamel spots, which he termed dental fluorosis (23). He documented dental fluorosis prevalence in the USA until 1942 and then compared it to caries prevalence in children. He noticed a strong inverse relationship (24). After concluding his 21-city study (25, 26), he found that drinking water with 1 ppm of fluoride can prevent dental caries, increase tooth strength and does not have a negative impact on enamel. The first studies about positive effects were conducted in 1945 with systemic fluoridation of drinking water in four American cities (Grand Rapids, Evanston, Brantford and Newberg), where 1 mg of fluoride per liter was added to drinking water. The results were convincing. Caries incidence reduction was at least 50%. Dental Hygiene and the safety of Fluoride Essay. They came to the conclusion that fluoride in suitable concentrations significantly affects dental caries prevalence (27-30). These observations and discoveries triggered massive drinking water fluoridation, the use of fluoridated salt and milk and an increase in diet supplement production (pills, drops, chewing gum, lozenges). Consequently, caries prevalence was successfully decreased. In 1950, Bibby et al (31) conducted a study comparing the efficacy of fluoride-coated pills intended to be swallowed, with fluoride lozenges intended to be dissolved slowly in the mouth. Research showed a lower number of new caries lesions in the research group which consumed lozenges. This research triggered different studies comparing pre- and post-eruptive effects, which consequently led to a rethinking of the theory of systemic use of fluoride and its incorporation into enamel during teeth development (odontogenesis). In the last 30 years, studies have shown that the maximum anti-caries benefits of fluoride are primarily through topical use and direct contact on the tooth surface. Daily use of topical supplements with suitable fluoride concentration is beneficial (2).
Methods, which led to greater fluoride exposure and lowered caries prevalence, are considered to be one of the greatest accomplishments in the 20th century`s public dental health (32).
The primary and most important action of fluoride is topical, when the fluoride ion is present in the saliva (33) in the appropriate concentration. Hydroxyapatite is the main mineral responsible for building the permanent tooth enamel after the development of the teeth is finished (34). During tooth growth, the enamel is constantly exposed to numerous demineralization processes, but also important remineralization processes, if the appropriate ions are present in the saliva. These processes can either weaken or strengthen the enamel. The presence of fluoride in an acidic environment reduces the dissolution of calcium hydroxyapatite. The main action is inhibition of demineralization of enamel, which is carried out through different mechanisms. There are different cariogenic bacteria in the plaque fluid the most important being S. mutans. When bacteria metabolize sugars, they produce lactic acid (33) which decreases the pH in saliva. When the pH falls below the critical level of hydroxyapatite (pH 5.5), the process of demineralization of enamel takes place and caries is formed. At the beginning, the process is reversible and it is possible to reduce the formation of new lesions with appropriate preventive measures. If fluoride is present in plaque fluid, it will reduce the demineralization, as it will adsorb into the crystal surface and protect crystals from dissolution. Dental Hygiene and the safety of Fluoride Essay. Because the fluoride ion coating is only partial, the uncoated parts of the crystal will undergo dissolution on certain parts of the tooth, if the pH falls below level 5.5. When the pH rises above the critical level of 5.5, the increased level of fluoride ion leads to remineralization, because it absorbs itself into the enamel and forms fluorhydroxyapatite (33). After repeated cycles of demineralization and remineralization, the outer parts of enamel may change and become more resistant to the acidic environment due to a lowered critical pH level of newly formed crystals (pH 4.5) (33). The most important effect of fluoride on caries progression is thus on demineralization and remineralization processes. It has also been proposed, that the fluoride ion can affect the physiology of microbial cells, which can indirectly affect demineralization. Fluoride ions affect bacterial cells through several mechanisms. One of them being a direct inhibition of cellular enzymes – glycolytic enzymes, H+ATPases). It affects cellular membrane permeability and also lowers cytoplasmic pH, resulting in a decrease in acid production from glycolysis (33).
Dental fluorosis is a developmental disturbance of enamel which occurs during enamel forming. It is caused by systemic overexposure to fluoride during the first six years of life, when the enamel of the crowns of permanent teeth is formed. The enamel contains more protein, is porous, opaque and less transparent. Clinical manifestation vary from (quantitative) narrow, white horizontally running lines, larger patches or yellow to light brown colored areas of porous enamel, to (qualitative) loss of enamel in varying degrees (35). For the optimal effect of fluoride toothpaste, it is important to follow recommended guidelines for the use of products containing fluorides (Table 2) (7). In this way, the probability for fluorosis is decreased and the protective effect of fluoride on the development of caries is significantly important (1).
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Just like any other substance we are exposed to in our everyday lives (oxygen, water, table salt), fluoride can be toxic in certain quantities. Acute toxicity can occur after ingesting one or more doses of fluoride over a short time period which then leads to poisoning. The stomach is the first organ that is affected. First signs and symptoms are nausea, abdominal pain, bloody vomiting and diarrhea. This is followed by a collapse with paleness, weakness, shallow breathing, weak heart sounds, wet, cold skin, cyanosis, dilated pupils, hypocalcaemia and hyperkalemia, and in to two to four hours even death. Other possible effects include muscle paralysis, carpopedal spasms and extremity spasms. Based on research papers and some overdose cases, the probable toxic dose (PTD) was defined at 5 mg/kg of body mass. The PTD is the minimal dose that could trigger serious and life-threatening signs and symptoms and requires immediate treatment and hospitalization (36). Example: PTD in a 20 kg child would be achieved at ingesting 100g (75 ml) of toothpaste which contains 1000-1500 ppm of fluorides or 100 pills, that contain fluorides (0,5-1 mg fluoride) (36). Dental Hygiene and the safety of Fluoride Essay/
Despite the widespread presence of fluoride in our life and the seriousness of the conditions associated with its toxicity, the number of cases of acute toxicity today, compared to the first half of twenty first century, is very rare. At that time, sodium fluoride was used as a pesticide and rat poison. Because of its appearance it was often mistaken for flour, powdered sugar or any other white powder product, which is used in the kitchen. The most notable example is from the Oregon State Hospital from 1942. During the preparation of scrambled eggs powdered milk was replaced by sodium fluoride which caused 467 cases of acute poisoning of which 47 were fatal. This incident is considered to be the largest mass fluoride poisoning (37).
Today, poisoning is mainly due to unsupervised ingestion of products for dental and oral hygiene and over-fluoridated water (example: Hooper Bay, Alaska, 1992) (37).
The European Academy of Paediatric Dentistry (EAPD) recommends to everybody, including pregnant women, the preventive use of fluoride toothpaste as a primary preventive measure against caries (7). The most effective way to prevent dental caries is tooth brushing twice a day. Children should only spit out the toothpaste and not rinse with water afterwards.
Parents should start brushing children’s teeth with fluoride toothpaste as soon as the first tooth erupts in the concentration and quantity recommended by the EAPD (Table 2) (7). Parents should use the recommended amount of toothpaste and assist or supervise their children with tooth brushing at least up to the age of 7.
Fluoride occurs naturally in our environment and is always present in our lives. Exposure can occur through dietary intake, respiration and fluoride supplements. Fluoride can be toxic in extremely high concentrations. Its everyday use in concentrations present in beverages for dental hygiene is safe. The European Academy of Paediatric Dentistry (EAPD) recommends a preventive topical use of fluoride supplements because of their cariostatic effect. Dental Hygiene and the safety of Fluoride Essay.