The association between periodontal conditions, inflammation, nutritional status and calcium-phosphate metabolism disorders in hemodialysis patients

Cholewa, Marta; Madziarska, Katarzyna; Radwan-Oczko, Malgorzata

doi:10.1590/1678-7757-2017-0495

Abstract

Objectives

To analyze the association between periodontal conditions and inflammation, nutritional status and calcium-phosphate metabolism disorders in hemodialysis (HD) patients.

Material and Methods

We analyzed 128 HD patients divided into two groups: dentate (n = 103) and edentulous (n=25). The following items were assessed: baseline characteristics, age at the start and duration of HD, biochemical data: C-reactive protein (CRP), serum albumin, calcium, phosphorus, alkaline phosphatase, parathormone. A single dentist performed a complete dental/periodontal examination, including parameters of oral hygiene and gingival bleeding.

Results

One person had healthy periodontium, 62.14% of the patients had gingivitis, and 36.9% had moderate or severe periodontitis. The age at HD onset had a positive impact on periodontal status and negatively correlated with the number of teeth. A positive correlation between age and CRP level and negative correlations between age and serum albumin and phosphorus were found. Pocket depth (PD) was negatively correlated with serum albumin. The number of teeth was negatively correlated with serum CRP.

Conclusions

High prevalence and severity of periodontal disease are observed in hemodialysis patients. There is a high probability that periodontal disease may be present at the early stages of chronic kidney disease (CKD) before the hemodialysis onset.

Keywords
Periodontium; Hemodialysis; Inflammation; Malnutrition

Introduction

The prevalence of chronic kidney disease (CKD) is an important public health problem worldwide. The loss of renal function is the most serious clinical outcome of CKD¹1- Levey AS, Coresh J. Chronic kidney disease. Lancet. 2012;379(9811):165-80.. Treatment options include dialysis (hemodialysis or peritoneal dialysis) and/or kidney transplant²2- Eckardt KU, Berns JS, Rocco MV, Kasiske BL. Definition and classification of CKD: the debate should be about patient prognosis – a position statement from KDOQI and KDIGO. Am J Kidney Dis. 2009;53(6):915-20..

The consequences of undergoing hemodialysis can be the development of several fluid and electrolyte balance disorders (such as volume overload, hyperkalemia, metabolic acidosis, hyperphosphatemia), as well as abnormalities related to hormonal or systemic dysfunctions (such as anorexia, nausea, vomiting, fatigue, hypertension, anemia, bleeding disorders, infection malnutrition, dyslipidemia, bone disease, cardiovascular complications, disturbed thyroid physiology, sexual dysfunction). Patients who are on hemodialysis have higher all-cause and cardiovascular morbidity and mortality associated with traditional (diabetes, hypertension, dyslipidemia) and non-traditional risk factors of atherosclerosis (inflammation and malnutrition)³3- Vadakedath S, Kandi V. Dialysis: a review of the mechanisms underlying complications in the management of chronic renal failure. Cureus. 2017;9(8):e1603..

The causes of inflammation in hemodialyzed patients are multifactorial. They include poor oral hygiene and worse dental and periodontal state⁴4- Bhatsange A, Patil SR. Assessment of periodontal health status in patients undergoing renal dialysis: a descriptive, cross-sectional study. J Indian Soc Periodontol. 2012;16(1):37-42.^,⁸8- Jain S, Singla A, Basavaraj P, Singh S, Singh K, Kundu H. Underlying kidney disease and duration of hemodialysis: an assessment of its effect on oral health. J Clin Diagn Res. 2014;8(5):ZC65-9..

Oral manifestations include halitosis, decrease in salivary secretion – so thirst, xerostomia, increase in salivary pH and salivary urea concentration, uremic stomatitis, calcification of the pulp chamber⁵5- Ruospo M, Palmer SC, Craig JC, Gentile G, Johnson DW, Ford PJ, et al. Prevalence and severity of oral disease in adults with chronic kidney disease: a systematic review of observational studies. Nephrol Dial Transplant. 2014;29(2):364-75..

Xerostomia, the subjective feeling of a dry mouth, is relatively common in hemodialyzed patients and is associated with difficulties in chewing, swallowing, tasting and an increased risk of oral disease (infections, dental caries, periodontal disease). This condition can be caused by the use of certain medications, restriction of fluid intake and old age⁶6- Bossola M, Tazza L. Xerostomia in patients on chronic hemodialysis. Nat Rev Nephrol. 2012;8(3):176-82..

There are inconclusive outcomes regarding the prevalence of caries in hemodialysis patients.

In contrast, most studies describe a high incidence of periodontal disease in these patients, where poor oral hygiene with increased deposits of plaque and calculus, identifying the presence of gingival inflammation, deep periodontal pockets, clinical attachment level loss and bone loss⁵5- Ruospo M, Palmer SC, Craig JC, Gentile G, Johnson DW, Ford PJ, et al. Prevalence and severity of oral disease in adults with chronic kidney disease: a systematic review of observational studies. Nephrol Dial Transplant. 2014;29(2):364-75.^,⁷7- Craig RG, Spittle MA, Levin NW. Importance of periodontal disease in the kidney patients. Blood Purif. 2002;20(1):113-9.. Furthermore, the dental health status got worse with the duration of hemodialysis treatment⁸8- Jain S, Singla A, Basavaraj P, Singh S, Singh K, Kundu H. Underlying kidney disease and duration of hemodialysis: an assessment of its effect on oral health. J Clin Diagn Res. 2014;8(5):ZC65-9..

Borawski, et al.⁹9- Borawski J, Wilczyńska-Borawska M, Stokowska W, Myśliwiec M. The periodontal status of pre-dialysis chronic kidney disease and maintenance dialysis patients. Nephrol Dial Transplant. 2007;22(2):457-64., (2007) found a more severe level of periodontitis in hemodialysis patients than in predialysis chronic kidney disease and peritoneal dialysis patients and finally, more advanced periodontitis in these investigated groups when compared to the control group.

Chronic periodontitis is an inflammatory, multifactorial disease of the periodontal tissues, in which the presence of periopathogens in microbial biofilm is the main initial factor. Moreover, both the quantity and virulence of the periopathogens and host-related general and local risk factors are determinants of the start and progression of periodontal inflammation and loss of periodontal tissue. The increased level of Gram-negative microorganisms responsible for the development and progression of periodontal inflammation increases the immunological response to bacterial antigens⁷7- Craig RG, Spittle MA, Levin NW. Importance of periodontal disease in the kidney patients. Blood Purif. 2002;20(1):113-9.^,¹⁰10- Savage A, Eaton KA, Moles DR, Needleman I. A systematic review of definitions of periodontitis and methods that have been used to identify this disease. J Clin Periodontol. 2009;36(6):458-67.. This may be the link between periodontal disease and CKD due to a concomitant infection and inflammation. A study found that the periodontitis in CKD patients was severer, with increased frequency in the presence of periopathogens and showed a strong association with kidney disease¹¹11- Bastos JA, Diniz CG, Bastos MG, Vilela EM, Silva VL, Chaoubah A, et al. Identification of periodontal pathogens and severity of periodontitis in patients with and without chronic kidney disease. Arch Oral Biol. 2011;56(8):804-11.. Periodontal disease is prevalent in kidney failure patients and it can also be, though not always, observed in this group because of the lack of interdisciplinary care for these patients¹²12- Ismail G, Dumitriu HT, Dumitriu AS, Ismail FB. Periodontal disease: a covert source of inflammation in chronic kidney disease patients. Int J Nephrol. 2013;2013:515796..

The objective of this study was to analyze the association between periodontal conditions and inflammation, nutritional status and calciumphosphate metabolism disorders in hemodialysis patients.

Material and methods

The patients were recruited in two dialysis centers in Lower Silesia (Poland) – in the Department of Nephrology and Transplantation Medicine of the Wroclaw Medical University and in the Specialist Hospital in Walbrzych.

The study group consisted of 128 patients undergoing hemodialysis (HD). Following dental examination, two groups of patients were formed, dentate patients (n=103) and edentulous patients (n = 25), to find a possible association between periodontal status and the investigated parameters.

The patients included in the study had no history of malignancy, active infections, or diseases requiring immunosuppressive therapy.

All HD patients were dialyzed using a native arteriovenous fistula with adequacy of dialysis — Kt/V≥1.3.

Demographic and clinical data were retrieved from the patient's clinical documentation.

The impact of the following factors on periodontal status were assessed: baseline characteristics (age, sex, race – all Caucasian), age at the start and duration of hemodialysis. We also analyzed biochemical markers of inflammation [C-reactive protein (CRP)], nutritional status (serum albumin) and calcium-phosphate metabolism [serum calcium levels (sCa), phosphorus (sP), alkaline phosphatase (sAP), parathormone (PTH)].

A single dentist performed a complete dental/ periodontal examination, including the parameters of oral hygiene and gingival bleeding.

Dental assessment was performed before HD to exclude the effect of heparin, routinely used during the HD procedure.

Before starting the examination, the dentist was calibrated by a specialist to perform the periodontal assessment. The clinical evaluation comprised the total number of teeth and oral hygiene, according to the Lange¹³13- Lange DE. New aspects of diagnosis and therapy of periodontal diseases for dental practitioners. Quintessenz.1986;37(3):521-32. (1986) approximal plaque index (API%) and gingival inflammation according to the Ainamo and Bay¹⁴14- Ainamo J, Bay I. Problems and proposals for recording gingivitis and plaque. Int Dent J. 1975;25(4):229-35. (1975) bleeding on probing index (BoP%). Pocket depth (PD; mm) was determined at four sites of each tooth. Finally, the periodontal status was assessed according to the classification of Offenbacher, Barros and Beck¹⁵15- Offenbacher S, Barros SP, Beck JD. Rethinking periodontal inflammation. J Periodontol. 2008;79(8 Suppl.):1577-84. (2008).

Diagnostic criteria of the tested parameters are as follows:

API (Approximal Plaque Index) – hygiene assessment in interdental spaces

100-70% – not proper/69-40% – fair/39-25% – good/<25% optimal

PD (pocket depth) – the distance between the gingiva margin and the pocket bottom

BoP (bleeding on probing) – % of bleeding sites

According to the Offenbacher classification, five clinical conditions of the periodontium are diagnosed:

BGI-H – (biofilm-gingival interface: healthy): PD≤3 mm, BoP<10%
BGI-G – (biofilm-gingival interface: gingivitis): PD≤3 mm, BoP>10%
P1 – (biofilm-gingival interface: deep lesion/low bleeding): PD≥4 mm, BoP<10%
P2 – (biofilm-gingival interface: deep lesion/ moderate bleeding): PD≥4 mm, 10%< BoP<50%
P3 – (biofilm-gingival interface: deep lesion/severe bleeding): PD≥4 mm, BoP≥50%

Considering the Offenbacher index, two subgroups were created (healthy and gingivitis) and (periodontitis) according to the description of periodontal status.

The study protocol was approved by our research ethics committee (no. KB 623/2015). The patients were informed about the objective of the study, and prior to the clinical assessment, all participants signed an informed consent form to undergo the dental/ periodontal examination. At the end of the clinical part of the study, each patient was informed about his/her oral hygiene status and periodontal status and instructed about the role of proper hygiene and periodontal treatment in the maintenance of oral health.

The Statistica 8.0 software was used to perform statistical analysis. Statistical significance was considered with a p-value<0.05. The parameters of quantitative variables are given as the mean plus standard deviation (SD). Spearman's rank correlation coefficient was used to measure the dependence between the analyzed parameters in the analysis of association.

Results

Table 1 shows the demographic, clinical, and laboratory parameters of the study patients at the start of the study. The data are shown separately for dentate and edentulous groups.

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Table 1
Demographic, clinical and laboratory characteristics of hemodialysis patients; quantitative parameters

The dentate group was composed by 103 patients (43 women/60 men), 63±13 years as the mean age, 52±60 months as the mean time of hemodialysis treatment and 12±7.8 as the mean number of teeth (minimum 1/maximum 27). The edentulous group was composed by 25 patients (18 women/7 men) with an average age of 74±9 years and 54±51 months as the mean time of hemodialysis treatment.

The main causes of chronic kidney disease were: chronic glomerulonephritis (23.5% of patients), diabetic nephropathy (14%), interstitial nephropathy (13%), hypertension (12.5%) and others (37%).

All patients presented secondary hyperparathyroidism. Only the mean age and age of hemodialysis onset were significantly higher in the group of edentulous patients.

There were no significant differences between the groups for the other analyzed parameters.

We found particularly interesting that only one person had a healthy periodontium. The oral hygiene and gingival bleeding parameters were not proper, given that the API index was 71.55±18.22% (minimum 18%/maximum 100%) and the BoP index was also high, with a mean value of 51.47±13.26% (minimum 10%/maximum 87%). The mean PD was 3.41±0.80 mm (minimum 1.75 mm/maximum 6.5 mm); data shown in Table 1.

Estimating the bleeding index and PD according to the Offenbacher index, most of the dentate patients (103 – 62.14%) had gingivitis and 36.9% had moderate or severe periodontitis. The data are shown in Table 2.

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Table 2
Periodontal status in the dentate group according to the Offenbacher index; qualitative parameters

The comparison of the tested parameters (shown in Table 3) between the subgroups of patients (with gingivitis and periodontitis) showed that the group with a healthier periodontal state (H and G) was significantly younger, started hemodialysis earlier and had twice as many teeth as the group with diagnosed periodontitis (P₂ and P₃).

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Table 3
Demographic, clinical and laboratory characteristics in dentate groups according to the periodontal status; quantitative parameters

Both subgroups of patients had inflammatory markers (CRP) and calcium-phosphate metabolism (sAP, sP and PTH) parameters above the normal range values and sCa below the normal range – but there were no significant differences between the subgroups.

Spearman's rank correlation coefficient was used for the analyses of association (data in Table 4) and showed that the age at HD onset had a strong positive impact on indices of periodontal status (API index, BoP index and PD) and was negatively correlated with the number of teeth.

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Table 4
Spearman's rank correlation between the investigated parameters

There was also a significant positive correlation between age and level of C-reactive protein, and negative correlations between age and levels of serum albumin and phosphorus.

PD was negatively correlated with serum albumin concentration.

The number of teeth showed strong negative correlation with serum CRP.

Discussion

This study confirmed the high incidence of poor oral condition in hemodialysis patients¹⁶16- Cengiz MI, Sümer P, Cengiz S, Yavuz U. The effect of the duration of the dialysis in hemodialysis patients on dental and periodontal findings. Oral Dis. 2009;15(5):336-41..

The main finding of this research is the lack of association between the duration of hemodialysis and severity of periodontitis.

Very few studies, that were performed with a limited number of patients, evaluated the impact of the duration of dialysis on the occurrence of periodontitis in patients, and the findings of some authors are debatable. Cengiz, et al.¹⁶16- Cengiz MI, Sümer P, Cengiz S, Yavuz U. The effect of the duration of the dialysis in hemodialysis patients on dental and periodontal findings. Oral Dis. 2009;15(5):336-41. (2009), found in a group of 68 HD patients that the periodontal condition worsens as time under dialysis. After 10 years of HD, a much more significant increase was observed. Similarly, Chen, et al.¹⁷17- Chen LP, Chiang CK, Chan CP, Hung KY, Huang CS. Does periodontitis reflect inflammation and malnutrition status in hemodialysis patients? Am J Kidney Dis. 2006;47(5):815-22. (2006), assessed 253 HD patients and found that a longer dialysis duration was associated with the severity of periodontitis. On the other hand, the findings from Cengiz, et al.¹⁶16- Cengiz MI, Sümer P, Cengiz S, Yavuz U. The effect of the duration of the dialysis in hemodialysis patients on dental and periodontal findings. Oral Dis. 2009;15(5):336-41. (2009) and Parkar and Ajithkrishnan¹⁸18- Parkar SM, Ajithkrishnan CG. Periodontal status in patients undergoing hemodialysis. Indian J Nephrol. 2012;22(4):246-50. (2012) confirm our observations. In their study, among 304 subjects (152 HD patients/ 152 controls) the results were similar to ours, and also suggested that the higher prevalence of periodontal diseases was mainly caused by oral hygiene negligence, rather than by chronic uremia. Furthermore, Hamissi, et al.¹⁹19- Hamissi J, Porsamimi J, Naseh MR, Mosalaei S. Oral hygiene and periodontal status of hemodialyzed patients with chronic renal failure in Qazvin, Iran. East Afr J Public Health. 2009;6(1):108-11. (2009), in a study with 180 Iranian HD patients, noted an unacceptable level of oral hygiene which was not related to the length of time under dialysis.

The most reliable explanation is that the changes occurred much earlier, during the early stages of CKD, in the pre-dialysis period.

From 128 hemodialysis patients, 20% of them were toothless. This number was greater than in the study of Bouattar, et al.²⁰20- Bouattar T, Chbicheb S, Benamar L, El Wady W, Bayahia R. Dental status in 42 chronically hemodialyzed patients. Rev Stomatol Chir Maxillofac. 2011;112(1):1-5. (2011), in which only 11.9% patients were edentulous from a group of 42.

Considering the main objective of our study, we evaluated the demographic characteristics, status of the dentition and the state of periodontal tissues of hemodialysis patients. The mean age of the patients in the dentate group and the edentulous group were 63 years and 74 years, respectively; the mean age at the start of dialysis was 58 and 69 years, respectively. The mean number of teeth in the dentate group was 12, thus, on average, the patients had only 43% of their own teeth. Our results are similar to those from other authors⁹9- Borawski J, Wilczyńska-Borawska M, Stokowska W, Myśliwiec M. The periodontal status of pre-dialysis chronic kidney disease and maintenance dialysis patients. Nephrol Dial Transplant. 2007;22(2):457-64.^,²⁰20- Bouattar T, Chbicheb S, Benamar L, El Wady W, Bayahia R. Dental status in 42 chronically hemodialyzed patients. Rev Stomatol Chir Maxillofac. 2011;112(1):1-5.^,²¹21- Rodrigues VP, Libério SA, Lopes FF, Thomaz EB, Guerra RN, Gomes-Filho IS, et al. Periodontal status and serum biomarkers levels in haemodialysis patients. J Clin Periodontol. 2014;41(9):862-8.. The oral hygiene was not proper, and bleeding indicated a moderate level of inflammation.

According to the Offenbacher index, only one patient had healthy periodontium, most patients had gingivitis and 37% had periodontitis. Patients with gingivitis were younger than those with periodontitis and had twice as many teeth. These results show a better periodontal state when compared to the study of Bhatsange and Patil⁴4- Bhatsange A, Patil SR. Assessment of periodontal health status in patients undergoing renal dialysis: a descriptive, cross-sectional study. J Indian Soc Periodontol. 2012;16(1):37-42. (2012). They found gingivitis in 24% and periodontitis in around 75% of the dialysis group patients. Furthermore, the mean PD in our study was 3.41 mm and indicated a moderate stage of periodontitis. In the research of Rodrigues, et al.²¹21- Rodrigues VP, Libério SA, Lopes FF, Thomaz EB, Guerra RN, Gomes-Filho IS, et al. Periodontal status and serum biomarkers levels in haemodialysis patients. J Clin Periodontol. 2014;41(9):862-8. (2014), a higher number of patients (59%) had periodontitis and the pocket was deeper on average (4.79 mm). In addition, the study of Schmalz, et al.²²22- Schmalz G, Kauffels A, Kollmar O, Slotta JE, Vasko R, Müller GA, et al. Oral behaviour, dental, periodontal and microbiological findings in patients undergoing hemodialysis and after kidney transplantation. BMC Oral Health. 2016;16(1):72. (2016), diagnosed moderate periodontitis in 40% and severe periodontitis in 53% of HD patients, periodontal treatment was required in 57% of them.

In our study we found that an older age of patients when starting dialysis was correlated with worse oral hygiene, more severe gingival inflammation and deeper pockets. Additionally, older age was associated with the presence of fewer teeth. Interestingly, Palmer et al.²³23- Palmer SC, Ruospo M, Wong G, Craig JC, Petruzzi M, De Benedittis M, et al. Dental health and mortality in people with end-stage kidney disease treated with hemodialysis: a multinational cohort study. Am J Kidney Dis. 2015;66(4):666-76. (2015), in a cohort study with 4205 participants, found that poorer dental health was associated with early death.

For the healthy population, the normal range of CRP level is described as up to 5 mg/L and the range of 5 to 10 mg/L is considered as “high normal”. For both groups. dentate and edentulous, CRP levels were only slightly above a “high normal” level. The data showing almost identical mean CRP levels in the subgroups of patients with gingivitis and periodontitis are particularly noteworthy. In this study, a higher level of serum C-reactive protein was associated with older patients, on the other hand, patients with a lower number of teeth showed a higher C-reactive protein level. These results do not confirm that only oral infection contributes to elevated C-reactive protein levels. The inflammation sources in hemodialysis patients can be multifactorial, and periodontal inflammation seems to be a source of the inflammatory reaction²⁴24- Rahmati MA, Craig RG, Homel P, Kaysen GA, Levin NW. Serum markers of periodontal disease status and inflammation in hemodialysis patients. Am J Kidney Dis. 2002;40(5):983-9.. A similar conclusion is well-known and described in the literature²⁵25- Strippoli GF, Palmer SC, Ruospo M, Natale P, Saglimbene V, Craig JC, et al. Oral disease in adults treated with hemodialysis: prevalence, predictors, and association with mortality and adverse cardiovascular events: the rationale and design of the ORAL Diseases in hemodialysis (ORAL-D) study, a prospective, multinational, longitudinal, observational, cohort study. BMC Nephrol. 2013;14:90.. In the Pallos, et al.²⁶26- Pallos D, Leão MV, Togeiro FC, Alegre L, Ricardo LH, Perozini C, et al. Salivary markers in patients with chronic renal failure. Arch Oral Biol. 2015;60(12):1784-8. (2015) study, a significantly higher level of salivary CRP was observed in the hemodialysis group, when compared to both the control group and the group with CKD but without HD treatment. The authors concluded that the hemodialysis treatment can influence the CRP level as a result of the release of proinflammatory cytokines. However, the literature also describes that proper periodontal treatment may result in the elimination of periodontal infection and, at the same time, decrease CRP levels⁷7- Craig RG, Spittle MA, Levin NW. Importance of periodontal disease in the kidney patients. Blood Purif. 2002;20(1):113-9..

A lower level of albumin was significantly associated with deeper PD. These results corroborate the suggestions of Rodrigues, et al.²¹21- Rodrigues VP, Libério SA, Lopes FF, Thomaz EB, Guerra RN, Gomes-Filho IS, et al. Periodontal status and serum biomarkers levels in haemodialysis patients. J Clin Periodontol. 2014;41(9):862-8. (2014) about a positive association between periodontitis and hypoalbuminemia. Similar findings were also obtained in the research by Chen, et al.¹⁷17- Chen LP, Chiang CK, Chan CP, Hung KY, Huang CS. Does periodontitis reflect inflammation and malnutrition status in hemodialysis patients? Am J Kidney Dis. 2006;47(5):815-22. (2006), in which the periodontal status was correlated with malnutrition and inflammation markers. On the other hand, we found no significant difference in serum albumin levels between the dentate group and the edentulous group, or between the group with gingivitis and the group with periodontitis.

However, the negative correlations between age and serum albumin levels in our study group must be noted, it suggests that periodontitis, especially in older patients undergoing hemodialysis, may contribute to malnutrition caused by, among other things, food intake disorders. This finding corroborates previous research¹⁷17- Chen LP, Chiang CK, Chan CP, Hung KY, Huang CS. Does periodontitis reflect inflammation and malnutrition status in hemodialysis patients? Am J Kidney Dis. 2006;47(5):815-22..

The serum calcium level did not differ between the dentate and edentulous groups or between groups with gingivitis and periodontitis. Also, no correlation between calcium level and periodontal status was observed. Kong, et al.²⁷27- Kong X, Zhang L, Zhang L, Chen N, Gu Y, Yu X, et al. Mineral and bone disorder in Chinese dialysis patients: a multicenter study. BMC Nephrol. 2012;13:116. (2012), found that hemodialysis patients presented higher serum and salivary phosphorus levels, respectively, in comparison to peritoneal dialysis patients and the healthy group.

There was also no significant correlation between phosphorus level and periodontal state. Finally, only a higher serum level of this microelement in relation to the younger age of patients was observed.

In our HD patients (from both groups), the serum calcium (Ca) level was lower (8.27 mg/dL) in comparison to the results of Kong, et al.²⁷27- Kong X, Zhang L, Zhang L, Chen N, Gu Y, Yu X, et al. Mineral and bone disorder in Chinese dialysis patients: a multicenter study. BMC Nephrol. 2012;13:116. (2012) – (9.3 mg/dL) and Kim, et al.²⁸28- Kim GH, Choi BS, Cha DR, Chee DH, Hwang E, Kim HW, et al. Serum calcium and phosphorus levels in patients undergoing maintenance hemodialysis: a multicentre study in Korea. Kidney Res Clin Pract. 2014;33(1):52-7. (2014) – (9.1 mg/dL), and higher than the level (9.29 mg/dL) found in Steven, et al.²⁹29- Stevens LA, Djurdjev O, Cardew S, Cameron EC, Levin A. Calcium, phosphate, and parathyroid hormone levels in combination and as a function of dialysis duration predict mortality: evidence for the complexity of the association between mineral metabolism and outcomes. J Am Soc Nephrol. 2004;15(3):770-9. (2004). On the other hand, serum phosphorus level (5.63 mg/dL) was lower than in Kong, et al.²⁷27- Kong X, Zhang L, Zhang L, Chen N, Gu Y, Yu X, et al. Mineral and bone disorder in Chinese dialysis patients: a multicenter study. BMC Nephrol. 2012;13:116. (2012), and higher than in the next study cited²⁸28- Kim GH, Choi BS, Cha DR, Chee DH, Hwang E, Kim HW, et al. Serum calcium and phosphorus levels in patients undergoing maintenance hemodialysis: a multicentre study in Korea. Kidney Res Clin Pract. 2014;33(1):52-7.: 6.3 mg/dL, 5.3 mg/dL and 5.2 mg/dL, respectively.

Another important finding of our study is that, although all patients had secondary hyperparathyroidism (HPT) associated with end-stage renal disease (ESRD – due to the overproduction of PTH), no significant correlation with periodontitis was observed. From our knowledge, there are few observations on this theme in the literature in HD patients. A similar finding was observed by Frankenthal, et al.³⁰30- Frankenthal S, Nakhoul F, Machtei EE, Green J, Ardekian L, Laufer D, et al. The effect of secondary hyperparathyroidism and hemodialysis therapy on alveolar bone and periodontium. J Clin Periodontol. 2002;29(6):479-83. (2002) on a small group of 35 HD patients -HPT did not have an appreciable effect on periodontal indices. This further confirms our conclusion that periodontal disease starts in the early stages of ESRD, or already exists at this time.

In our study, the main causes of chronic kidney disease were chronic glomerulonephritis (23.5% of patients), diabetic nephropathy (14%), interstitial nephropathy (13%), hypertension (12.5%) and others (37%). In other studies, the authors described the same common causes of the end-stage renal disease.

However, from the epidemiological point of view, the distribution of CKD causes in our research is not representative. This occurs due to the selection patients for the study – firstly the patient's consent, and in addition the elimination of patients with active inflammation, cancer history, or immunosuppression.

The limitation of our study was the relatively small sample size and the selected cohort of patients.

Conclusions

In conclusion, our data showed high prevalence and severity of periodontal diseases in hemodialysis patients.

We suggest that there is a high probability that periodontal disease may be present at the early stages of CKD before the hemodialysis treatment started.

Our results reinforce the opinion that oral health promotion, regular dentist assessment, and preventive programs in the period before dialysis can be helpful in changing individual behaviors and reducing the occurrence of irreversible forms of periodontal disease in these particular high cardiovascular risk patients.

Further studies are necessary to assess the potential contribution of periodontal disease to the inflammatory status in hemodialysis patients.

Acknowledgements

The authors thank Prof. Waclaw Weyde and Prof. Marian Klinger from the Department of Nephrology and Transplantation Medicine, Wroclaw Medical University, Poland, for their assistance in the logistics of this study.

References

¹
- Levey AS, Coresh J. Chronic kidney disease. Lancet. 2012;379(9811):165-80.
²
- Eckardt KU, Berns JS, Rocco MV, Kasiske BL. Definition and classification of CKD: the debate should be about patient prognosis – a position statement from KDOQI and KDIGO. Am J Kidney Dis. 2009;53(6):915-20.
³
- Vadakedath S, Kandi V. Dialysis: a review of the mechanisms underlying complications in the management of chronic renal failure. Cureus. 2017;9(8):e1603.
⁴
- Bhatsange A, Patil SR. Assessment of periodontal health status in patients undergoing renal dialysis: a descriptive, cross-sectional study. J Indian Soc Periodontol. 2012;16(1):37-42.
⁵
- Ruospo M, Palmer SC, Craig JC, Gentile G, Johnson DW, Ford PJ, et al. Prevalence and severity of oral disease in adults with chronic kidney disease: a systematic review of observational studies. Nephrol Dial Transplant. 2014;29(2):364-75.
⁶
- Bossola M, Tazza L. Xerostomia in patients on chronic hemodialysis. Nat Rev Nephrol. 2012;8(3):176-82.
⁷
- Craig RG, Spittle MA, Levin NW. Importance of periodontal disease in the kidney patients. Blood Purif. 2002;20(1):113-9.
⁸
- Jain S, Singla A, Basavaraj P, Singh S, Singh K, Kundu H. Underlying kidney disease and duration of hemodialysis: an assessment of its effect on oral health. J Clin Diagn Res. 2014;8(5):ZC65-9.
⁹
- Borawski J, Wilczyńska-Borawska M, Stokowska W, Myśliwiec M. The periodontal status of pre-dialysis chronic kidney disease and maintenance dialysis patients. Nephrol Dial Transplant. 2007;22(2):457-64.
¹⁰
- Savage A, Eaton KA, Moles DR, Needleman I. A systematic review of definitions of periodontitis and methods that have been used to identify this disease. J Clin Periodontol. 2009;36(6):458-67.
¹¹
- Bastos JA, Diniz CG, Bastos MG, Vilela EM, Silva VL, Chaoubah A, et al. Identification of periodontal pathogens and severity of periodontitis in patients with and without chronic kidney disease. Arch Oral Biol. 2011;56(8):804-11.
¹²
- Ismail G, Dumitriu HT, Dumitriu AS, Ismail FB. Periodontal disease: a covert source of inflammation in chronic kidney disease patients. Int J Nephrol. 2013;2013:515796.
¹³
- Lange DE. New aspects of diagnosis and therapy of periodontal diseases for dental practitioners. Quintessenz.1986;37(3):521-32.
¹⁴
- Ainamo J, Bay I. Problems and proposals for recording gingivitis and plaque. Int Dent J. 1975;25(4):229-35.
¹⁵
- Offenbacher S, Barros SP, Beck JD. Rethinking periodontal inflammation. J Periodontol. 2008;79(8 Suppl.):1577-84.
¹⁶
- Cengiz MI, Sümer P, Cengiz S, Yavuz U. The effect of the duration of the dialysis in hemodialysis patients on dental and periodontal findings. Oral Dis. 2009;15(5):336-41.
¹⁷
- Chen LP, Chiang CK, Chan CP, Hung KY, Huang CS. Does periodontitis reflect inflammation and malnutrition status in hemodialysis patients? Am J Kidney Dis. 2006;47(5):815-22.
¹⁸
- Parkar SM, Ajithkrishnan CG. Periodontal status in patients undergoing hemodialysis. Indian J Nephrol. 2012;22(4):246-50.
¹⁹
- Hamissi J, Porsamimi J, Naseh MR, Mosalaei S. Oral hygiene and periodontal status of hemodialyzed patients with chronic renal failure in Qazvin, Iran. East Afr J Public Health. 2009;6(1):108-11.
²⁰
- Bouattar T, Chbicheb S, Benamar L, El Wady W, Bayahia R. Dental status in 42 chronically hemodialyzed patients. Rev Stomatol Chir Maxillofac. 2011;112(1):1-5.
²¹
- Rodrigues VP, Libério SA, Lopes FF, Thomaz EB, Guerra RN, Gomes-Filho IS, et al. Periodontal status and serum biomarkers levels in haemodialysis patients. J Clin Periodontol. 2014;41(9):862-8.
²²
- Schmalz G, Kauffels A, Kollmar O, Slotta JE, Vasko R, Müller GA, et al. Oral behaviour, dental, periodontal and microbiological findings in patients undergoing hemodialysis and after kidney transplantation. BMC Oral Health. 2016;16(1):72.
²³
- Palmer SC, Ruospo M, Wong G, Craig JC, Petruzzi M, De Benedittis M, et al. Dental health and mortality in people with end-stage kidney disease treated with hemodialysis: a multinational cohort study. Am J Kidney Dis. 2015;66(4):666-76.
²⁴
- Rahmati MA, Craig RG, Homel P, Kaysen GA, Levin NW. Serum markers of periodontal disease status and inflammation in hemodialysis patients. Am J Kidney Dis. 2002;40(5):983-9.
²⁵
- Strippoli GF, Palmer SC, Ruospo M, Natale P, Saglimbene V, Craig JC, et al. Oral disease in adults treated with hemodialysis: prevalence, predictors, and association with mortality and adverse cardiovascular events: the rationale and design of the ORAL Diseases in hemodialysis (ORAL-D) study, a prospective, multinational, longitudinal, observational, cohort study. BMC Nephrol. 2013;14:90.
²⁶
- Pallos D, Leão MV, Togeiro FC, Alegre L, Ricardo LH, Perozini C, et al. Salivary markers in patients with chronic renal failure. Arch Oral Biol. 2015;60(12):1784-8.
²⁷
- Kong X, Zhang L, Zhang L, Chen N, Gu Y, Yu X, et al. Mineral and bone disorder in Chinese dialysis patients: a multicenter study. BMC Nephrol. 2012;13:116.
²⁸
- Kim GH, Choi BS, Cha DR, Chee DH, Hwang E, Kim HW, et al. Serum calcium and phosphorus levels in patients undergoing maintenance hemodialysis: a multicentre study in Korea. Kidney Res Clin Pract. 2014;33(1):52-7.
²⁹
- Stevens LA, Djurdjev O, Cardew S, Cameron EC, Levin A. Calcium, phosphate, and parathyroid hormone levels in combination and as a function of dialysis duration predict mortality: evidence for the complexity of the association between mineral metabolism and outcomes. J Am Soc Nephrol. 2004;15(3):770-9.
³⁰
- Frankenthal S, Nakhoul F, Machtei EE, Green J, Ardekian L, Laufer D, et al. The effect of secondary hyperparathyroidism and hemodialysis therapy on alveolar bone and periodontium. J Clin Periodontol. 2002;29(6):479-83.

Publication Dates

Publication in this collection
2018

History

Received
02 Jan 2018
Reviewed
02 Apr 2018
Accepted
25 Apr 2018

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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[14] ¹⁴
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[15] ¹⁵
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[16] ¹⁶
- Cengiz MI, Sümer P, Cengiz S, Yavuz U. The effect of the duration of the dialysis in hemodialysis patients on dental and periodontal findings. Oral Dis. 2009;15(5):336-41.

[17] ¹⁷
- Chen LP, Chiang CK, Chan CP, Hung KY, Huang CS. Does periodontitis reflect inflammation and malnutrition status in hemodialysis patients? Am J Kidney Dis. 2006;47(5):815-22.

[18] ¹⁸
- Parkar SM, Ajithkrishnan CG. Periodontal status in patients undergoing hemodialysis. Indian J Nephrol. 2012;22(4):246-50.

[19] ¹⁹
- Hamissi J, Porsamimi J, Naseh MR, Mosalaei S. Oral hygiene and periodontal status of hemodialyzed patients with chronic renal failure in Qazvin, Iran. East Afr J Public Health. 2009;6(1):108-11.

[20] ²⁰
- Bouattar T, Chbicheb S, Benamar L, El Wady W, Bayahia R. Dental status in 42 chronically hemodialyzed patients. Rev Stomatol Chir Maxillofac. 2011;112(1):1-5.

[21] ²¹
- Rodrigues VP, Libério SA, Lopes FF, Thomaz EB, Guerra RN, Gomes-Filho IS, et al. Periodontal status and serum biomarkers levels in haemodialysis patients. J Clin Periodontol. 2014;41(9):862-8.

[22] ²²
- Schmalz G, Kauffels A, Kollmar O, Slotta JE, Vasko R, Müller GA, et al. Oral behaviour, dental, periodontal and microbiological findings in patients undergoing hemodialysis and after kidney transplantation. BMC Oral Health. 2016;16(1):72.

[23] ²³
- Palmer SC, Ruospo M, Wong G, Craig JC, Petruzzi M, De Benedittis M, et al. Dental health and mortality in people with end-stage kidney disease treated with hemodialysis: a multinational cohort study. Am J Kidney Dis. 2015;66(4):666-76.

[24] ²⁴
- Rahmati MA, Craig RG, Homel P, Kaysen GA, Levin NW. Serum markers of periodontal disease status and inflammation in hemodialysis patients. Am J Kidney Dis. 2002;40(5):983-9.

[25] ²⁵
- Strippoli GF, Palmer SC, Ruospo M, Natale P, Saglimbene V, Craig JC, et al. Oral disease in adults treated with hemodialysis: prevalence, predictors, and association with mortality and adverse cardiovascular events: the rationale and design of the ORAL Diseases in hemodialysis (ORAL-D) study, a prospective, multinational, longitudinal, observational, cohort study. BMC Nephrol. 2013;14:90.

[26] ²⁶
- Pallos D, Leão MV, Togeiro FC, Alegre L, Ricardo LH, Perozini C, et al. Salivary markers in patients with chronic renal failure. Arch Oral Biol. 2015;60(12):1784-8.

[27] ²⁷
- Kong X, Zhang L, Zhang L, Chen N, Gu Y, Yu X, et al. Mineral and bone disorder in Chinese dialysis patients: a multicenter study. BMC Nephrol. 2012;13:116.

[28] ²⁸
- Kim GH, Choi BS, Cha DR, Chee DH, Hwang E, Kim HW, et al. Serum calcium and phosphorus levels in patients undergoing maintenance hemodialysis: a multicentre study in Korea. Kidney Res Clin Pract. 2014;33(1):52-7.

[29] ²⁹
- Stevens LA, Djurdjev O, Cardew S, Cameron EC, Levin A. Calcium, phosphate, and parathyroid hormone levels in combination and as a function of dialysis duration predict mortality: evidence for the complexity of the association between mineral metabolism and outcomes. J Am Soc Nephrol. 2004;15(3):770-9.

[30] ³⁰
- Frankenthal S, Nakhoul F, Machtei EE, Green J, Ardekian L, Laufer D, et al. The effect of secondary hyperparathyroidism and hemodialysis therapy on alveolar bone and periodontium. J Clin Periodontol. 2002;29(6):479-83.

Parameters	Dentate group (n=103)	Edentulous group (n=25)	p-value
Age (years)	63±13	74±9.0	0.000^* * p<0.05, statistically significant
Age at start of hemodialysis	58±14	69±9.0	0.000^* * p<0.05, statistically significant
Duration of hemodialysis therapy (months)	52±60	54±51	0.862
Number of teeth	12±7.80	0±0.00	0.000^* * p<0.05, statistically significant
Approximal plaque index API (%)	71.55±18.22
Bleeding on probing index BoP (%)	51.47±13.26
Pocket depth PD(mm)	3.41±0.80
Serum C-reactive protein (mg/L)	13.30±14.10	15.80±15.40	0.443
Serum albumin (g/dL)	3.94±0.47	3.91±0.45	0.761
Serum calcium (mg/dL)	8.33±1.06	8.03±2.14	0.306
Serum phosphorus (mg/dL)	5.66±1.64	7.86±11.76	0.067
Serum alkaline phosphatase (UI/L)	107.40±43.20	125.10±83.70	0.138
Parathormone (pg/mL)	567.96±533.91	520.48±425.55	0.68

Offenbacher index	Number of patients	%
Healthy periodontium (H)	1	0.97
Gingivitis (G)	64	62.14
Mild periodontitis (P1)	0	0,00
Moderate periodontitis (P2)	8	7.77
Severe periodontitis (P3)	30	29.13

Parameters	Healthy periodontium and gingivitis (n=65)	Moderate and severe periodontitis (n=38)	p-value
Age (years)	59±14	69±10	0.000^* * p<0.05, statistically significant
Age at start of hemodialysis	55±14	64±11	0.000^* * p<0.05, statistically significant
Duration of hemodialysis therapy (months)	50±56	54±67	0.737
Number of teeth	14.77±7.60	7.11±5.57	0.000^* * p<0.05, statistically significant
Serum C-reactive protein (mg/L)	12.12±13.49	15.36±15.10	0.264
Serum albumin (g/dL)	3.96±0.51	3.91±0.41	0.601
Serum calcium (mg/dL)	8.30±1.06	8.39±1.06	0.657
Serum phosphorus (mg/dL)	5.87±1.59	5.29±1.68	0.084
Serum alkaline phosphatase (UI/L)	106.56±46.06	108.82±38.42	0.800
Parathormone (pg/mL)	553.99±503.56	591.84±588.48	0.730

Parameters	API	BoP	PD	Age (years)	Number of teeth
Age at the start of hemodialysis	0.25^* * Correlation coefficients were statistically significant at p=0.05	0.34^* * Correlation coefficients were statistically significant at p=0.05	0.41^* * Correlation coefficients were statistically significant at p=0.05	0.91^* * Correlation coefficients were statistically significant at p=0.05	(-)0.52^* * Correlation coefficients were statistically significant at p=0.05
Duration of hemodialysis therapy (months)	-0.05	-0.01	-0.06	0.02	0.00
Serum C-reactive protein (mg/L)	0.07	-0.03	0.09	0.24^* * Correlation coefficients were statistically significant at p=0.05	(-)0.23^* * Correlation coefficients were statistically significant at p=0.05
Serum albumin (g/dL)	0.05	-0.09	(-)0.20^* * Correlation coefficients were statistically significant at p=0.05	(-)0.42^* * Correlation coefficients were statistically significant at p=0.05	0.11
Serum calcium (mg/dL)	0.11	-0.09	0.12	0.06	-0.07
Serum phosphorus (mg/dL)	-0.17	-0.15	-0.19	(-)0.26^* * Correlation coefficients were statistically significant at p=0.05	0.08
Serum alkaline phosphatase (UI/L)	-0.11	-0.09	0.04	-0.12	0.05
Parathormone (pg/mL)	-0.10	0.00	-0.03	-0.08	0.11

Brasil

Brasil

The association between periodontal conditions, inflammation, nutritional status and calcium-phosphate metabolism disorders in hemodialysis patients

Abstract

Objectives

Material and Methods

Results

Conclusions

Introduction

Material and methods

Results

Discussion

Conclusions

Acknowledgements

References

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History