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Lupine Publishers | The Oral and Dental Health Status in Children Under Haemodialysis

Lupine Publishers | Journal of Pediatric Dentistry

Abstract

Untreated dental infection in End Stage Renal Disease (ESRD) patients can potentially contribute to morbidity and transplant rejection. There is a need for detailed assessment and provision of good dental care following the diagnosis of chronic renal failure (CRF). Hence, regular clinical review is important for the early identification of oral complications of renal disease.

Aim: The present study was carried out at Pediatric Nephrology Unit in Zigzag University Hospital to evaluate the dental health status in CRF children.

Design: The dental health status of 50 children under 15 years suffering from CRF were compared results to the results of an age and sex matched control group (n=50). This study was done to evaluate enamel hypoplasia, dmft, DMFT, Gingival Index (GI), Plaque Index (PI), intrinsic and extrinsic stain and the changes in oral microflora including salivary Calcium, phosphorus, alkaline phosphatase and urea concentrations were measured using phenol Sulphur acid colorimetric method. The estimated stimulated salivary pH, buffering capacity and count of Streptococcal Mutants and lactobacilli were determined on selective media of all participants.

Results: The study and control groups did not significantly differ in daily tooth brushing frequency and periodic dental check up frequency. Severe enamel hypoplasia was present in study group. The means of dmft, DMFT and PI were significantly greater in the study group (p< 0.05). The differences among groups for GI were statistically insignificant. Our findings of intrinsic brown staining were 22% and 20% extrinsic staining of patients.

Conclusion: The salivary pH of patients and salivary levels of cariogenic S. mutans and lactobacilli in the study group were significantly lower than the control group, probably due to increased concentrations of antibacterial chemicals such as urea in the saliva of CRF children. The presence of uremia during the development of dentitions cause Intrinsic staining but black brown extrinsic staining due to using ferrous sulfate syrup for treatment CRF children anemia. Although dental treatment need is not high, these children should receive dental health education, including oral hygiene instruction, in order to improve their overall oral health.

Keywords:End Stage Renal Disease Orthodontic; Chronic Renal Failure; Dental; Streptococcal Mutans; Caries; Children; Haemodialysis

Introduction

Chronic kidney disease (CKD) is a major health problem worldwide with increasing incidence and prevalence that is threatening to bring on the onset of a real ‘epidemic and characterized by a gradual loss of kidney function over time [1-3]. Childhood CKD presents clinical features that are specific and totally peculiar to the paediatric age, such as the impact of the disease on growth. In addition, some of the typical characteristics of paediatric CKD, such as the etiology or cardiovascular complications, represent variables, not only influencing the health of the patient during childhood, but also having an impact on the life of the adult that this child will become. CKD in children is a major problem of public health both in poor and developed countries and it is an important cause of morbidity and mortality in children worldwide [4,5]. There is limited information on the epidemiology of CKD in the pediatric population due to the absence of a common definition and well-defined classification [6]. According to ItalKid Project, a prospective, population-based Italian study on CKD epidemiology, and the North American Pediatric Renal Trials and Collaborative Studies (NAPRTCS), CKD was defined as having a glomerular filtration rate (GFR) of below 75ml/min/1.73m2 [7,8]. While other authors based their definition on serum creatinine levels themselves or on other thresholds of GFR [9,10]. The National Kidney Foundation’s Kidney Disease Outcomes Quality Initiative (NKF-K/ DOQI) published a guideline on CKD, which included a classification system for CKD severity, independent of cause, and applicable to children. This classification system identifies five stages of CKD based on the level of GFR. CKD is now defined by the presence of kidney damage (for example, any structural or functional abnormality involving pathological, laboratory or imaging findings) for≥3 months or a GFR< 60 ml/min/1.73 m2 for ≥3 months [11]. CKD causes are different between children and those in adults. The congenital causes, including congenital anomalies of the kidney and urinary tract (CAKUT) (48%) which is predominated in younger patients and hereditary nephropathies (10%), were the most common. Glomerulonephritis accounts for 14% of cases which is the leading cause in children older than 12 years of age and there are variations of the cause’s distribution with ages and races, according to NAPRTCS annual report [12]. According to United States Renal Data System (URDS) Registry, the congenital disorders (CAKUT and hereditary nephropathies) were the most common etiologies in the youngest ESRD group, whereas the proportion of acquired diseases increased progressively with age [13]. The similar distribution of causes of CKD has been reported in Europe, where the proportions of CAKUT and hereditary nephropathies were 58-59% and 15-19%, respectively. The proportion of glomerulonephritis was (5–7%) which was lower than United States that’s could be due to the difference in racial distribution [14]. CAKUT is the leading cause of CKD (47– 62%) with clear predominance of uropathies over hypo dysplasia followed by hereditary nephropathies (17 to 30%) in Middle East [10,15]. But the neuropathic bladder remained an important cause of CKD in Turkey (15%) than other Middle East communities [16]. The prevalence of dialysis patients in Egypt is presumed to have increased from 10 per million population (pmp) in 1974 to about 165 (pmp) in 1995 and more recent study showed a further increase in CRF prevalence to 225 (pmp) in 1999 [17]. The highest prevalence was 483 (pmp) in 2004 as reported by Afifi et al. [18] in the ninth annual scientific meeting of the Egyptian Renal Registry in 2008. Most CRF patients are treated by haemodialysis, as reported in different studies [18,19]. The chronic glomerulonephritis is the main reported cause of CKD in various studies and this may be related to high prevalence of bacterial, viral, and parasitic infections that commonly affect the kidneys in developing countries, as well as a different age distribution dies from Southeast Asia, Latin America and Caribbean area with a prevalence ranging from 30 to almost 60% [20,21]. The CAKUT are the main causes, accounting for (34- 43%) of pediatric ESRD cases in Europe, Japan, Australia, and New Zealand. The proportion of ESRD caused by glomerulonephritis was lower in Europe according to the ESPN/ERA-EDTA registry (15%) compared with a Japanese study (22%) and the Australia and New Zealand Dialysis and Transplant Registry (ANZDATA) this may be due to the age distribution of patients, with fewer young patients being treated for ESRD at that time [22,23].

Clinical Features of CKD in Children

Growth impairment is a common and perhaps the most visible complication of CKD in children and its increase as GFR declines, even though a significant decrease in growth was seen at all levels of kidney function [1,24-26]. In children with CKD the risk factors that contribute to impaired growth include: malnutrition, metabolic acidosis, mineral and bone disorders, anaemia, and fluid and electrolyte abnormalities [27,28]. That’s making the inadequate nutrition (due to anorexia or vomiting) appears to be the most important factor contributing to growth impairment at that age and maximizing caloric intake to at least 80% of requirements has been found to effectively improve growth in children who developed CKD as infants [29]. Anemia is one from the most a common complication in children with CKD causing many adverse clinical consequences such as; poor quality of life, depressed neurocognitive ability, reduced exercise capacity and progression of cardiovascular risk factors, such as left ventricular hypertrophy (LVH) [30,31]. However the diagnosis of anemia in children with CKD is not as straightforward and its s in prevalence with advancing stages of CKD. Anemia of CKD is the result of many interacting factors, but decreased production of erythropoietin by the unhealthy kidney and iron dysregulation (including iron deficiency and iron-restricted erythropoiesis) are the primary defects [32]. The hypertension can be present from the earliest stages of the disease and its prevalence increases as GFR progressively declines [33,34]. effective control of BP reduces not only cardiovascular morbidity and mortality, but also the rate of progression of CKD [35]. The CKD have significantly increased rates of cardiovascular morbidity and mortality in both adult and paediatric compared to the general populations [36,37]. For paediatric population with CKD the risk reach 1000 times higher in the ESRD group compared with the age-matched non-CKD population [38]. CVD in the CKD population ensues from a combination of traditional (e.g. hypertension, dyslipidaemia, abnormal glucose metabolism and obesity) and CKDrelated risk factors (e.g. increased calcium-phosphorus product, hyperparathyroidism and anemia) [34] and there are evidences that the cardiovascular anomalies begin early in the course of renal failure, irrespective of the age of onset, and rapidly progress when dialysis is initiated [39]. Chronic kidney disease–mineral and bone disorder (CKD-MBD) is defined by the presence of one or a combination of the following findings: abnormalities in calcium, phosphorus, parathyroid hormone (PTH) or vitamin D metabolism; abnormalities in bone histology, linear growth, or strength; vascular or other soft tissue calcifications [40]. The Renal osteodystrophy is an aspect of CKD-MBD that refers only to bone pathology. The changes in calcium and phosphorus metabolism can significantly alter bone remodeling and somatic growth making the optimization of bone health, growth and final adult height must be a focus of CKD management in children [41]. The effective treatment of CKD-MBD affects the progression of cardiovascular disease, as phosphate is also a strong vascular toxin either or through its effect on PTH and fibroblast growth factor 23 [42,43]. Progressive loss of renal function causes retention of excretory products leading to uremia and azetomia [44]. Azetomia is an increase in blood urea nitrogen (BUN) may be associated with adverse clinical signs and symptoms to produce uremia that is with malnutrition resulting from a protein-restricted diet leads to an immune deficient state resulting in a significant impaired host deficiency and higher susceptibility to infection [45]. Dialysis patients may form calculus more rapidly than healthy individuals may possibly due to high salivary urea and phosphate levels. Calculus is always covered with a non-mineralized layer of plaque [46]. Renal failure is also associated with a reduced prevalence of caries, and its early intraoral symptoms include bad metallic taste and ammonia odor. Loss of lamina dura, loosening of teeth, bony fractures, bone tumors, radiolucent cyst-like lesions, malocclusion, narrow pulp chamber, and thick pre-dentin may also be seen in these patients [47,48]. Davidovich et al. [49] reported that, the patients suffering from (ESRF) and those receiving dialysis are more prone to periodontal disease and other oral health problems. The renal failure patients had higher gingival index (GI) and bleeding; probing depths, attachment loss, hypoplasia, obliteration and less caries. The plaque was found to be higher in the dialysis and pre-dialysis patients than the normal. Infections in the oral cavity may act as foci for disease or injury in other sites of the body [50]. Many researchers have investigated the salivary content and flow rate in adults with CRF. Significantly, higher concentrations of salivary proteins, potassium and sodium were observed in unstimulated saliva collected from adults undergoing haemodialysis compared with healthy volunteers [51]. Others reported that the pH and buffer capacity of the unstimulated saliva was also increased in haemodialysis patients [52]. Various authors examined the relationship between the composition of saliva and cariogenic activity and the control of inflammatory processes of the mouth. A rise in the levels of free radicals (reactive oxygen species) has been found to be the common factor in these processes [53]. Untreated dental infection in immunosuppressed individuals can potentially contribute to morbidity and transplant rejection [54]. There is a need for detailed assessment and provision of good dental care following the diagnosis of chronic renal failure (CRF) so that, regular clinical review is important for the early identification of oral complications of renal disease [55,56]. Advances in pediatric nephrology during the last two decades have resulted in a marked increase in the number of children surviving with CRF. Considering the consequences of oral health concerns for children with CRF and ESRD, the present study was conducted to gain further insight into oral microflora changes of these patients in comparison with the healthy control group (Figure 1).

Figure 1: 8 years old child with ESRD on haemodialysis machine. .

Subjects and Methods

Table 1: Primary kidney disorders in children with end-stage renal disease (ESRD).

According to World Medical Association, declaration of Helsinki [57], study population and ethical local institutional approval for study in this cross-sectional study sample comprised 100 participants with the same socioeconomic conditions and aged from 2-15 years. Control group (G1) was composed of 50 healthy randomly selected individuals whose were scheduled for treatment at (Outpatient Dental Clinics, Zigzag University Hospital, Egypt). Patients with debilitating diseases or neurological disorder or who examined for possible ear infections were excluded from the study. Another study group (G2) consisted of 50 CRF patients were undergoing regular haemodialysis treatment in the paediatric nephrology unit at Zigzag University Hospital, Egypt which their information retrieved from their files, patients were categorized according to the primary kidney disorder (Table 1). No other systemic disease was diagnosed in any of these patients. All parents or legal guardians received adequate information and written consent to participate in the study. The study did not include any invasive technique leading to contamination to or from these patients. The same examiner performed the clinical examination and allocated participants in both groups blindly.

Clinical Examinations

The examination of each patient was carried out using a mouth mirror and a probe according to the criteria of the World Health Organization [58,59]. Each subject was assessed for daily tooth brushing frequency and periodic dental checkup frequency. Following a general appraisal of the mouth, the teeth were examined in both study and control groups for tooth caries, hypoplasia, discolorations, gingival status, and plaque indices.

a) Caries Status: Determined by recording the number of decayed (d, D), missing (m, M), and filled (f, F) teeth in the primary and permanent dentitions for each patient and were referred to as dmft for primary teeth and DMFT for permanent teeth.

b) Dental Plaque Recording: The deposits were assessed using the Plaque Index. The children were asked for crushing the disclosing tablet or applying disclosing solution for young children and the plaque assessed by numerical scoring of plaque (PI) Plaque Index [60] (Table 2).

Table 2:

Figure 2: Painted teeth after using disclosing tablets to detect amount of plaque on teeth surfaces.

Figure 3: Gingiva of child suffer from CRF from one a year ago with pale gingival color but can bleed easily.

c) Gingivitis Recording: The gum status was assessed using the Gingival Indices The gingiva were examined for inflammation using a Gingival Index (GI) by using mouth mirror and blunt periodontal explorer [61] (Table 3).

Table 3:

d) Discolorations Recording: Detect any discoloration on the teeth of child and differentiate if it was black or brown extrinsic stain or brown intrinsic stain.

e) Enamel Hypoplasia Recording: Enamel hypoplasia was assessed as (none, mild, moderate, sever) using the criteria determined by Alaluusa et al. [62] (Table 4).

Figure 4: Teeth of CRF child with sever enamel hypoplasia & intrinsic discoloration

Table 4:

Figure 5: Teeth of CRF child with mild enamel hypoplasia, intrinsic & extrinsic discoloration. .

Salivary Tests

Children in both groups should be without any antibiotic therapy in the last week before the sample collection. For measuring the Streptococcus mutans (S. mutans) and lactobacilli count in saliva by means of selective culture media. Before collecting saliva for the bacteriological counting test, the patients were asked not to eat or drink for at least an hour and salivation was stimulated by having the children chew a paraffin pellet for 5 minutes. About 5ml of the saliva from each child was collected in a sterile calibrated container. The containers were stored in ice for transfer and kept frozen at - 80°C until the time of assay. Each sample was divided into three separate samples in sterile tubes, two of them inoculated onto selective media while the samples was taken. Bacterial counts from each of the different media were obtained and compared. The third sample processed for detect level of salivary calcium (Ca), phosphorus (pH), alkaline phosphatase (AP), salivary urea and salivary pH.

a) Streptococcal Mutans count (S. Mutans): About 3ml from saliva samples which collected were stored in a sterile calibrated universal container that were divided into two separate parts of samples, one of them inoculated onto Mitis Salivarius agar media (Becton Dickinson and DIFCO Company, Chicago, USA) was used for isolation S. Mutans that is the selective medium [63]. (Figure 6) Mitis salivarius agar media contents: (Pancreatic digest of casein 6gm, Proteose peptone 9gm, Proteose peptone 5gm, Saccharose 50gm, Dextrose 1gm, Dipotassium phosphate 4gm, Trypan blue 0.075gm, Crystal violet 0.008gm and Agar 15gm) after the samples were taken. The medium was prepared according the manufacturing instructions as: 90gm of the medium and 150gm sucrose were dissolved in 1liter of distilled water by heating. The dissolved components were autoclaved at 121°C for 15 minutes and left to cool to 45-50°C and just prior to pouring, 1ml of 1% sterilized potassium tellurite and 1ml of 200 units/ml sterilized bacitracin were added. Sterilization of potassium tellurite and bacitracin was performed by filtration through millipores bacterial filters. About 20ml of the medium was poured in each Petri plate, all allowed to solidify at room temperature and then stored in the refrigerator at 4°C for no more than four weeks. Identification of oral S. Mutans was confirmed by biochemical tests like mannitol and sorbitol fermentation and catalase [64] colony counting was done with a magnifying glass and the count of S. Mutans was expressed as the number of colony forming units per milliliter (cfu/ ml) of saliva. Semi quantitation of the number of colonies was done by multiplying the actual colony count with 1×105 because of the part that the saliva sample was diluted one thousand times 1:5 dilution [65,66].

Figure 6: Mitis Salivarius agar media (Becton Dickinson and Difco Company, Chicago, USA), for isolation of S. mutans. .

b) Lactobacillus Acidophilus Count: Second part of saliva sample were incubated on Tomato agar media for isolation of Lactobacilli for 1L of medium dissolve in distilled water [67]. Tomato agar media contains: (Glucose 10.0gm, Yeast extract 5.0gm, Polypeptone 5.0gm, KH2PO4 0.5gm, KCl 0.125gm, CaCl2.2H2O 0.125gm, NaCl 0.125gm, MgSO4.7H2O 0.125gm, MnSO4.4H2O 0.003gm, Bromocresol green 0.03gm, Canned tomato juice 150.0ml). The ingredients were heated to dissolve the components, autoclaved at 121°C for 15 minutes and left to cool. Approximately 20 ml of the medium was poured into each Petri plate and left to solidify at room temperature, then stored in refrigerator at 4°C until used. Plates were incubated within an anaerobic jar containing gas pack in the incubator for 2-4 days at 37°C. Lactobacilli were identified by colonial morphology catalase test and Gram stainingbinding agents (calcium carbonate) that confirmed it [68]. (Figure 7) Colony counting was done with a magnifying glass and the count of S. mutans and Lactobacilli was expressed as the number of colony forming units per milliliter (cfu/ml) of saliva. Semi quantitation of the number of colonies was done by multiplying the actual colony count with 1x105 because of the part that the saliva sample was diluted one thousand times 1:5 dilution [69].

Figure 7: Tomato agar media for isolation of lactobacillus.

Chemical Tests

The 3rd part of collected saliva sample was processed to measure the salivary urea level was measured by U.V. method with (ELI TECH kit) using autoanalyzer system (Advia 1650), salivary alkaline phosphatase level was measured by kinetic method (SERAPAK ® kit) using (Advia 1650, salivary Calcium and phosphorous level by (ELI TECH kit) using micro lab analyzer spictrophoton (Micro lab 300).

a) Salivary pH and Buffering Capacity

Last part of saliva samples used to measure salivary pH by using pH meter [70] (pH 18 Aqua Lytic Co, USA). Buffering capacity is determined by quantitative test using a handheld. This method involves the addition of 0.5ml of saliva to 1.5ml of 5M HCl. Mixture was vigorously shaken. Then stream of Nitrogen was passed through the mixture for 20 minutes to eliminate carbon dioxide from the sample and allowed to stand for 10 min when the final pH is measured [71].

Pilot Study

A pilot study was first conducted to establish intra-examiner reliability. ten children were selected from outpatient dental clinic for that purpose. They were examined using the dental indices (deft, DMFT, GI and PI) and subsequently recorded by the examiner and scored by the same examiner. All the patients were re-examined after 24 h. Kappa values were more than 89% for all indices, indicating good reliability.

Result

Table 5: Shows the mean values, standard deviations and the statistical analysis of for sex and age.

Insignificant differences (p>0.05) NS

Data were checked, entered and analyzed by using SPSS (version 25). Data were presented as mean and Standard Deviation (SD) or quantitative variable. The qualitative data were presented as numbers and percentages and the Chi square test was used for comparison between groups. The quantitative data were presented as mean± standard deviation and the Student t-test was used for comparison between the groups. The following formulae were used in statistical analysis of results at level of significant 0.05. Normality was tested using the Shapiro-Wilk test. (Table 5) shows the characteristics of study participants. No group differences were found in participant age and sex (P > 0.05). Since no statistically significant differences were found between sex and age so that, data were combined for them. Table 6 shows that salivary concentration of Ca, Phosphorous, alkaline and phosphatase which these values did not differ between the two groups (P>0.05). On the other side, the salivary pH, S. mutans and Lactobacillus count were significantly higher in salivary samples obtained from study group (P< 0.001). Additionally, buffering capacity were significantly higher (P < 0.05) in study group. PI were significantly higher in study group (P < 0.05), however, dmft and DMFT were significantly higher in control group (P< 0.001) and GI did not differ between both groups (P>0.05). (Table 7) shows the study group had significantly more enamel hypoplasia (46%) than the control group (6%). The presence of extrinsic stain and intrinsic stain is statically increase in study group (P< 0.05). All ages with the disease duration of less than one year showed no clinical evidence of enamel hypoplasia, and the oldest age group, from 6 to 12 years, showed the highest number of enamel hypoplasia records (eleven patients) (Table 5).

Table 6: Shows the mean values, standard deviations and the statistical analysis of the oral variables using the Student t-test.

Significant differences (P < 0.05) * Highly significant differences (P < 0.001) ** Insignificant differences (p > 0.05) NS

Table 7: Distribution of tooth discoloration and enamel hypoplasia in study and control groups using Chi-square test.

Significant differences (P < 0.05) *

Table 8: Distribution of children in study group with enamel hypoplasia, according to the age of onset and duration of the disease.

Table 9: Daily tooth-brushing frequency (%) and dental check-up frequency in study and control group using Chi-square test.

Insignificant differences (p > 0.05) NS

Discussion

In the present study, the 50 children with ESRD clearly differed from a normal childhood population in most of the dental parameters increase such as enamel hypoplasia, tooth discoloration, S. mutans and lactobacilli counts, salivary pH, salivary urea level and buffer capacity of saliva. However, the chemistry of saliva denoted that there were insignificance differences in salivary Ca, phosphorus and Alkaline phosphatase levels (Table 6). The low caries prevalence which recorded by low dmft, DMFT in CRF children was the most interesting finding of this study, although the patients had poor oral hygiene and were maintained on high-carbohydrate diets that agrees with earlier work [72-74]. Salivary urea elevated salivary pH, possibly negating the effect of any acid formation by these cariogenic bacteria resulting from sugar intake. This mechanism also inhibits caries because of its antibacterial properties and its inhibitory effect on plaque formation. In addition, high salivary phosphate concentrations found in patients with uremia may facilitate remineralization of incipient carious lesions [72]. So that, both the mean dmft and DMFT were significantly lower in the CRF children, which agrees with earlier work [72,73]. The prevalence of the caries was reduced despite poor oral hygiene in uremic children (Table 7). This is most likely because of increasing both salivary urea concentration that raise salivary pH, which may inhibit the growth of S. mutans and lactobacillus. In many reports, there is a positive correlation between dental caries and S. mutans, and lactobacilli counts [74,75]. The total count of S. mutans and lactobacillus, in present study, were significantly decreased in CRF patients than control group that agrees with earlier work [76]. Some other authors [77-79] have reported that, the total count of S. mutans was significantly greater in the control group compared with CRF children and there was no significant difference in number of lactobacilli of either CRF or control group. Our clinical finding revealed that 46% of the patients demonstrated various degrees of enamel defects, compared to Wolff [80] study 47.4%, in the form of hypoplasia. This increase in hypoplasia prevalence was probably due to abnormal calcium and phosphate metabolism. The enamel hypoplasia in CRF patients was significantly increased (P>0.05).

As regards frequency of enamel hypoplasia, in this finding, there was 94% had no hypoplasia, 4% had mild hypoplasia and 2% had moderate hypoplasia in G1 while there was 54% had no hypoplasia, 20% had mild hypoplasia, 20% had moderate hypoplasia and 6% sever hypoplasia in study group. These reports agreed with earlier workers [72,84]. Also, Nunn JH et al. [72] reported that, 83% of their renal patients had enamel defects. Many authors [72,81] stated that, calcium depletion with renal impairment during mineralization of the developing dentition, often resulting in enamel hypoplasia, is a likely sequela. There was an evident correlation between the location on the teeth of hypoplastic changes and the age of onset of severe renal failure, which was like the findings of (Table 8). Koch MJ et al. [82] who investigated the exfoliated primary teeth of CRF or ESRD patients microscopically and showed that enamel hypoplasia was limited to postnatal enamel, and hypoplasia increases with the duration of the disease and the early onset. Tooth discoloration was increased in CRF patients significantly. The stain may be intrinsic or extrinsic (Table 8). Extrinsic stain can be readily removed from the surface of the teeth with an abrasive prophylactic material. As regards frequency of tooth discoloration (%) in present study, there was 90% had not discoloration, 8% had intrinsic discoloration and 2% had extrinsic discoloration in control group while there was 38% had no discoloration, 22% had intrinsic discoloration and 40% had extrinsic discoloration in study group. There were significant differences between both groups as regards all items (P< 0.05). Intrinsic staining is generally a result of adsorption of pathological pigments onto the dentine matrix. Brown discoloration can be seen when uremia is present during development of the dentitions. Intrinsic stains are also seen in some haemodialysis patients resulting from the use of tetracycline to treat infection during the period of calcification of the primary and permanent teeth. Intrinsic stains in our study group were not related to tetracycline use since the patients’ physicians were aware that tetracycline could stain developing teeth and did not prescribe it. Our findings of intrinsic brown staining in 22% of patients may be due to the presence of uremia during the development of the dentitions; this agrees with previous reports [81,84]. The children with CRF were being treated for anemia with ferrous sulfate in syrup form, which caused the black-brown extrinsic staining on the teeth [73]. Although, the mean of Plaque Index score was significantly greater in the CRF children compared with the controls, there was no significant difference in gingival inflammation, which agrees with results of earlier researchers [72,84-86]. The gingiva in individuals with CRF can be pale due to anemia, with possible loss of the demarcation of the mucogingival junction and when there is platelet dysfunction, the gingiva may bleed easily [87-90]. This is attributed to a modified tissue response because of immunocompromised. In addition, anemia is a common problem in patients with CRF and it is possible that gingival inflammation is masked by the paleness of the gingiva. However, another study revealed that, accelerated periodontal disease in patients with renal failure, possibly related to impaired white cell function [91]. Jaffe EC et al. [73] who found that, plaque amounts were similar in both groups, but the gingival status was lower for the ESRD patients. Davidovich et al. [49] reported that, the patients suffering from (ESRF) and those receiving dialysis are more prone to periodontal disease and other oral health problems. The renal failure patients had higher gingival index (GI) and bleeding; probing depths, attachment loss, hypoplasia, obliteration and less caries. It appears that patients with uremia undergoing haemodialysis have a reduced gingival inflammatory response to bacterial dental plaque compared with the controls. As regards daily tooth brushing (%) and periodic dental check-up (%), in present study, there was 90% not perform tooth brushing at all and 10% performing it once daily in control group while there was 88% not perform tooth brushing at all and 12% performing it once daily at least in patients group with insignificant difference in oral health status between both groups (P>0.05). There was 92% not perform periodic dental check-up at all 6% perform it rarely and 4% perform it regularly in control group while there was 96% not perform periodic dental check-up at all, 2% perform it rarely and 2% perform it regularly in study the group with insignificant difference between both groups (P>0.05). It is likely to relation between the patients’ level of education and low socioeconomic status (Table 9). These findings indicate that there is a need for dental health education for all children and their parents.

Conclusion

The proportion of CRF children with dental caries was significantly less than for the matched controls. This is most likely because of a greater salivary urea concentration and high pH and buffering capacity, which may inhibit the growth of S. mutans and lactobacillus. The increased plaque score in both the primary dentition and permanent dentition and gingival changes suggest a need for dental advice and supervision beside the general medical care is needed by these children.

Recommendation

The incorporation of a dental service into the general medical program would benefit these children. Effective tooth brushing from an early age would help to prevent the development of periodontal disease, as adults would also be minimized. Awareness must be raised among CRF patients, their nephrologists and their dentists about the need for primary dental prevention. See the patient for dental check-ups as regularly as would be the case if they were not undergoing dialysis.

Acknowledgement

The authors wish to thank all children, participants and their parents or guardians for their valuable participation in this study. This study was supported clinically by all staff of pediatric department, clinical pathology department and microbiology department of Faculty of Medicine in Zigzag University. We would like to thank Professor Ali MM Abu Zeid, Professor of Pediatric Department Zigzag University and Professor. Samy Y. Elbayoumy, Head of Pedodontic and Dental Public Health Department, Faculty of Dental medicine, Al-Azhar University for their continuous encouragement, cooperation and support. This study was supported by self-fund of authors.

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a-vanishingnightstar · 7 years

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Am I doing this right?

I’ve seen everyone doing this, so I guess I’ll do the thing too. TBH I actually have like 160+ followers, but still. This is my first time doing a follow forever, so here we go.

A thank you all to everybody that follows me<3 I’m not sure where to start, but thank you all for sticking and baring with me to this day. You all have kind and beautiful souls. I don’t come on tumblr RP as much anymore for my own personal reasons, but it does make. me happy to know you’re all still with me even in spirit hahaha. There’s so many of you I wanna thank and also interact with via OOC or IC. I apologize if you haven’t been added onto the list, because like I said, there’s so many of you. That does not mean I hate you or forgot about you though.

Now where to start...?

Stand by me

@recklessmoon - LIEBELING!!!!!!!! It’s been 85 years. JK. You’re always going to be my Marz/Marchen to my Tada no Elisabeth. I swear, I think we follow each other like almost everywhere now lol. I wish it was simple to just meet in person, because I’d love to hang with you and Sindy and we can all be literally LOL with each other. You’re so silly in a good way and I love having you around ;w; Also because you’re a baboo, you’ll always be my little liebeling too~<3

@juniperblooded - SINDYYYYYY!!!!!! Haha, I gave you the nickname Sindy, because you use to RP as Sin, and for some reason I thought of a genderbent Sin and named “her” Sindy, and now you’re SIndy.~ But anyhoo, my busaiku-chan!!!!!! As to I am your brosaiku-chan XD You’re always going to be my Elefseus no matter what. Would that I could join you and liebeling over there... but I’m over here... ;w; You’ve been my bffl... something-something-and something about Moira or Thanatos and Hades????? XD Well you’ve been my bffl eversince I made my Orion blog haha. I’m glad we got to talk!!!! Gosh, I can still remember how long ago before I got really into SanHora but I saw you around and thought you were probably my ex, because he liked SanHora and FE also lol. IDK. I was a dumb teenager :| I’M NOT YOUR CORN-HIME OR YOUR URINE-CHAN OF THE MOUNTAIN. Godz, the inside jokes we make, I swear to Thanatos XD ILY still tho. I love our Revo Sentai Derhorangers. I have a lot to say about you, but you probably know the rest.

@diito - Ew, it’s you :| JK. My dude. My bruh. My foolish peasant. Nanashi, you’ve been my bestie since... I think I was in middle school and you were in high school lol. I’m kind of surprised we’re still friends and on good terms, which I don’t mind. We don’t talk as much as we use to, but I still think of you as a good friend that stood by me even when I was a little shit. Also thank you for getting me into Drakengard and Nier some more <3 Thanks for everything else too and still remaining as a good friend to this day.

@grxvidus - https://www.youtube.com/watch?v=jr3uC9lBtFY Ur ghey. I mean... -in an Inigo voice- Helloooo... Prommykins.~ To this day I still dunno what to really call you, but like I said before, I’m use to calling you Prommy, cuz that’s what I’ve been calling you since day 1, and you’ve been calling me Stellalalalala since day 1. In all seriousness though, I have do have a lot to say about you, and you probably know the rest, but I’ll try to keep it short here. You mean a lot to me and I’m more than happy that we can still be friends. You’re one of the most precious beeeeeaaaannnnnssss ever. Would that I could join you over there too, but unfortunately there is only one of me. Though I’m all the way here, know that I’m always here or there for you even in spirit. Not to mention you’re always going to be the Prompto to my Stelalalalalalaaaaaa, and the Zack to my Aerith XD If someone even tries to lay one finger on you to hurt you, pray tell so I can beat them up and send them to the Shadow Realm. I’m still looking forward to whatever it is you wanna send over to me. Can’t wait to see it<3

@fxtalwinter - Erhmagawdz it’s Karla!!!!!!! I’m still a bit surprised you’re still around and that we’re still friends too. It’s been ages eversince the myspace era since we’ve reunited hahahahahaha. You’re so nice and so sweet!!!!! You were my Chloe Valens twin back then lol. I can still remember that day when you tried to add me on myspace and we were both Chloe, and I wasn’t comfortable with adding doppelgangers (I’m still uncomfortable with doppelgangers), so I denied you and I felt bad so then I added you back, and here we are now c: Ahhhhh, good times.~ My sistar (yes sistar and not sister). My friend. Dude, we gotta share our interest for dark and messed up things some more, because those are awesome and interesting -insert creepy Yami Yugi face here- We gotta find some “interesting” things to watch on Netflix too 8) You know, interesting as an the dark and messed up things.

No I won’t be afraid (to talk to you guys... oneday)

@fxrtem - Sharrpie!!!!!!! ILY. I try to talk to you, but I get so shy! Then again I get shy and anxious to talk to everybody ahahahahaha. I miss you ;3; Come talk to me and Stellalalalalala when you’re not doing anything lol. We’re lonely souls.

@loquistador - Haha, I’ll never forget when I saw a comment of your’s on youtube in a VS XIII video!!!!!! -insert annoying teasing silly face here- It’s a Loqi Doqi. I try to talk to you too, but I shy away... :’((((( ILY too tho.

@lightwithinthenightsky - Oh my fair prince, let us sail within the NocTella ship~<3 I’d love to thread and talk to you ;w; I’m sorry if I don’t reply to you. Sometimes IDK what to say, so don’t ever think you’re annoying and such. Also make a discord so we can chat!!!! XD

@fieryknowledge - I’m gonna call you mother.~ I love seeing your creations and I love having you around. Hope we can talk some more sometime, but sometimes I feel like I’m boring... |D I’ve been admiring you since day 1.

@heterochromiairiidum - My bro. My friend. My big meanie misunderstood brother. I admire you from afar like I do with everybody else. I’d love to have a thread with Ravus or Ardyn and Stella! Not to mention, I think you’re silly in a good way. I love seeing you on my dash.~ I can see you’re a good person with a good heart<3

@irisiae - KITTY!!!!!!!! ILY. Godz, how many blogs do you have?! Like 50+ or something? XD I can’t keep up dsaojkltjasyl. I’ll never forget when I first started following you on your old Alphinaud account and we interacted IC a bit, everybody started following me out of the blue... lol. I really wasn’t expecting a lot of people to follow me and then I got really flustered and his on my inactive Zidane Tribal account lol. If it weren’t for you though I wouldn’t have met a lot of these amazing people and you <3 Feel free to harass Stella or Thancred anytime you want.

Too much, too much, too much, too much, too much Never enough (In other words, more people I admire from afar and wish to interact someday IC or OOC)

@princessnoxfleuret @frigustek @healingscourge @the-dome-of-heaven @noctiisms @somxus @nesrecne @sumsatis @aptapugilis @scionmage @infiniitas @xkuja @firxga @badassbarmaid @hyperionknight @haatelis @geluflos @lunamserena @knightxalpha @tridentitty @warsung @lessqq-morepewpew @oracleborn @oracleofthegods @lucidem-aeterna @sagefiredaggers @tribulatio-regis @morethanabarcode @maledictusrex @toolostxtobesaved @dieheilige @theshixld @losteidolon @legatum-viventis @treacherousglaive @chocophotographer @coveredxngrease @securae @deliicatus @hiemalstorm @sukoshishokan

#ooc #follow forever #[-hides-]

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