Cyclosporin- and nifedipine-induced gingival overgrowth in renal transplant patients: correlations with periodontal and pharmacological parameters, and HLA-antigens

Periodontal Microbiological Status Influences the Occurrence of Cyclosporine-A and Tacrolimus-Induced Gingival Overgrowth

Immune suppressed renal transplant patients are more prone to developing oral tissue alterations due to medications associated with a pleiotropic set of side effects involving the oral cavity. Drug-induced gingival overgrowth (DIGO) is the most commonly encountered side effect resulting from administration of calcineurin inhibitors such as cyclosporine-A (CsA), the standard first-line treatment for graft rejection prevention in transplant patients. Pathogenesis of gingival overgrowth (GO) is determined by the interrelation between medications and a pre-existing inflammatory periodontal condition, the main modifiable risk factor. Severity of gingival hyperplasia clinical manifestation is also related to calcium channel blocker association, frequently provided in addition to pharmacological therapy of transplant recipients. Specifically, nifedipine-induced enlargements have a higher prevalence rate compared to amlodipine-induced enlargements; 47.8% and 3.3% respectively. Available epidemiological data show a gender difference in prevalence, whereby males are generally more frequently affected than females. The impact of GO on the well-being of an individual is significant, often leading to complications related to masticatory function and phonation, a side effect that may necessitate switching to the tacrolimus drug that, under a similar regimen, is associated with a low incidence of gingival lesion. Early detection and management of GO is imperative to allow patients to continue life-prolonging therapy with minimal morbidity. The purpose of this study was threefold: firstly, to determine the prevalence and incidence of GO under the administration of CsA and Tacrolimus; secondly, to assess the correlation between periodontal status before and after periodontal therapy and medications on progression or recurrence of DIGO; and finally, to analyse the effect of immunosuppressant in association to the channel blocker agents on the onset and progression of gingival enlargement. We compared seventy-two renal transplant patients, including 33 patients who were receiving CsA, of which 25% were also receiving nifedipine and 9.72% also receiving amlodipine, and 39 patients who were receiving tacrolimus, of which 37.5% were also receiving nifedipine and 5.55% also receiving amlodipine, aged between 35 and 60 years. Medical and pharmacological data were recorded for all patients. Clinical periodontal examination, in order to establish the inflammatory status and degree of gingival enlargement, was performed at baseline (T0), 3 months (T1), 6 months (T2), and 9 months (T3). All patients were subjected to periodontal treatment. Statistically significant correlation between the reduction of the mean value of periodontal indices and degree of gingival hyperplasia at the three times was revealed. The prevalence of GO in patients taking cyclosporine was higher (33.3%) in comparison with those taking tacrolimus (14.7%). In accordance with previous studies, this trial highlighted the clinical significance of the pathological substrate on stimulating drug-induced gingival lesion, confirming the key role of periodontal inflammation in pathogenesis of gingival enlargement, but did not confirm the additional effect of calcium-channel blocker drugs in inducing gingival enlargement.

Evaluation of inductive effects of different concentrations of cyclosporine A on MMP-1, MMP-2, MMP-3, TIMP-1, and TIMP-2 in fetal and adult human gingival fibroblasts

Background The etiology of gingival overgrowth due to cyclosporine A (CsA) is still unknown. The aim of this study was to determine the possible role of matrix metalloproteinases (MMPs) and tissue inhibitors of MMPs (TIMPs) on extra-cellular matrix (ECM) homeostasis when treated with different levels of CsA and its difference between fetal and adult human gingival fibroblasts (HGFs). Methods Each group of cells (adult and fetal) was cultured in 40 wells that consisted of four different CsA treatment concentrations. Every 10 wells were treated with 0, 50, 100, and 150 ng/mL of CsA which makes a total of 80 wells. Supernatants of every well were used to determine the concentration of MMPs and TIMPs using the Elisa kits from Boster, CA, USA. Results MMP-1 level increased with the treatment of CsA when treated with 50 and 150 ng/mL of CsA (p = 0.02 and p = 0.04) as TIMP-1 decreased (p < 0.0001) in adult group; while in the fetal group, TIMP-1 level increased with treatment of 150 ng/mL (p < 0.0001). MMP-2 level increased in both adult and fetal groups (p < 0.0001). MMP-3 level decreased in adult group (p < 0.0001) but went up in fetal HGFs (p = 0.01) when treated with 150 ng/mL CsA. TIMP-2 level increased in all wells significantly when treated with CsA (p < 0.0001). The study showed that CsA affects secretion of MMPs and TIMPs. MMP-1 increment and TIMP-1 decrement were observed, which indicate more degradation of ECM. This may be due to single donor use in this study. TIMP-2 and MMP-2 were both more active when treated with CsA which may be due to the gelatinase activity of them and that in CsA gingival overgrowth. There was more inflammation rather than fibrosis.

Angiotensin II Levels in Gingival Tissues from Healthy Individuals, Patients with Nifedipine Induced Gingival Overgrowth and Non Responders on Nifedipine

CONTEXT

The Renin Angiotensin system has been implicated in the pathogenesis of Drug Induced Gingival Overgrowth (DIGO), a fibrotic condition, caused by Phenytoin, Nifedipine and Cyclosporine.

AIM

This study quantified Angiotensin II levels in gingival tissue samples obtained from healthy individuals, patients on Nifedipine manifesting/not manifesting drug induced gingival overgrowth.

MATERIALS AND METHODS

Gingival tissue samples were obtained from healthy individuals (n=24), patients on nifidipine manifesting gingival overgrowth (n= 18) and patients on nifidipine not manifesting gingival overgrowth (n=8). Angiotensin II levels were estimated in the samples using a commercially available ELISA kit.

RESULTS

Angiotensin II levels were significantly elevated in patients on Nifedipine manifesting gingival overgrowth compared to the other 2 groups (p<0.01).

CONCLUSION

The results of the study give an insight into the role played by Angiotensin II in the pathogenesis of drug induced gingival overgrowth.

Nonsurgical management of nifedipine induced gingival overgrowth

Drug-induced gingival overgrowth is frequently associated with three particular drugs: phenytoin, cyclosporin, and nifedipine. As gingival enlargement develops, it affects the normal oral hygiene practice and may interfere with masticatory functions. The awareness in the medical community about this possible side effect of nifedipine is less when compared to the effects of phenytoin and cyclosporin. The frequency of gingival enlargement associated with chronic nifedipine therapy remains controversial. Within the group of patients that develop this unwanted effect, there appears to be variability in the extent and severity of the gingival changes. Although gingival inflammation is considered a primary requisite in their development, few cases with minimal or no plaque induced gingival inflammation have also been reported. A case report of gingival overgrowth induced by nifedipine in a patient with good oral hygiene and its nonsurgical management with drug substitution is discussed in this case report.

Nifedipine-induced gingival enlargement: Correlation with dose and oral hygiene

Gingival enlargement is a common finding in a routine dental practice. Though it has many etiological factors, enlargement due to drugs which are administered to treat the systemic problems is of major concern which needs attention. Here, we present a case of nifedipine-induced gingival enlargement and discuss the reason for the enlargement.

Matrix metalloproteinases, tissue inhibitors of matrix metalloproteinases, and inflammation in cyclosporine A-induced gingival enlargement: a pilot in vitro study using a three-dimensional model of the human oral mucosa

BACKGROUND

It has been suggested that cyclosporine A (CsA) induces gingival enlargement by promoting an increase in the gingival extracellular matrix (ECM). Nonetheless, the variable occurrence of CsA-induced gingival enlargement in patients receiving this medication indicates a multifactorial pathogenesis. Clinical observations suggest that local inflammation is associated with the development and severity of CsA-induced gingival enlargement. Therefore, the purpose of this study is to investigate the effects of CsA and inflammation on the production of ECM homeostatic mediators.

METHODS

The effects of CsA and inflammation (as assessed using interleukin [IL]-1β) on the secretion of mediators involved in ECM homeostasis were determined using fibroblast monolayers and three-dimensional (3D) models of the human oral mucosa. Fibroblast monolayers and 3D cultures were treated with CsA alone or in combination with IL-1β for up to 72 hours, and the secretion of matrix metalloproteinases (MMPs) 1, 2, 3, 8, 9, 10, and 13 and tissue inhibitors of MMPs (TIMPs) 1, 2, and 4 into the culture medium was assessed using enzyme-linked immunoassay-based antibody arrays.

RESULTS

Fibroblast monolayers responded to CsA with no changes in the secretion of ECM mediators. Conversely, 3D cultures responded to CsA treatment with a reduction in MMP-10 secretion. IL-1β alone triggered higher secretory levels of MMPs in both fibroblast monolayers (MMP-3 and MMP-10) and 3D cultures (MMP-9 and MMP-10). Importantly, fibroblast monolayers and 3D cultures treated with a combination of IL-1β and CsA showed a decrease in the MMP-1/TIMP-1 ratio.

CONCLUSIONS

These data support the hypothesis that inflammation may alter the pathogenesis of CsA-induced gingival enlargement by promoting a synergistic decrease in the MMP-1/TIMP-1 ratio.

Cyclosporine-induced gingival overgrowth correlates with NFAT-regulated gene expression: a pilot study

OBJECTIVE

To determine whether incidence and severity of cyclosporine A (CsA)-induced gingival overgrowth (GO) is related to expression nuclear factor of activated T cells-regulated genes (NFAT-regulated genes).

MATERIAL AND METHODS

Expression of NFAT-regulated genes was determined in 36 transplant patients medicated with CsA by real-time PCR before and 2 h after drug intake and residual NFAT activity was estimated as ratio of both measurements. Demographic, periodontal and pharmacologic parameters were recorded and GO assessed from models. Subjects were divided into two groups according to the degree of GO (responders: GO score≥10%). Groups were compared using parametric and non-parametric tests. The association of various CsA-specific and periodontal parameters on incidence and extent of GO were determined using regression analysis.

RESULTS

Responders had a more than twofold lower residual NFAT activity than non-responders (7.9% and 18.1%, respectively; p<0.001). Multiple regression analysis revealed gingival inflammation, salivary CsA concentration, and residual NFAT activity to be significant factors influencing the expression of GO. Seventy-seven percent of the variability of GO could be explained by these parameters.

CONCLUSIONS

This study showed that pharmacodynamic parameters such as residual NFAT activity may be promising prognostic indicators to identify patients with increased risk for GO.

Clinical assessment of nifedipine-induced gingival overgrowth in a group of brazilian patients

Although it has been established that nifedipine is associated with gingival overgrowth (GO), there is little information on the prevalence and severity of this condition in the Brazilian population. The aim of this study was to assess the occurrence of nifedipine-induced GO in Brazilian patients and the risk factors associated using a Clinical Index for Drug Induced Gingival Overgrowth (Clinical Index DIGO). The study was carried out on 35 patients under treatment with nifedipine (test group) and 35 patients without treatment (control group). Variables such as demographic (age, gender), pharmacological (dose, time of use), periodontal (plaque index, gingival index, probing depth, clinical insertion level, and bleeding on probing), and GO were assessed. Statistical analysis showed no association between GO and demographic or pharmacological variables. However, there was an association between GO and periodontal variables, except for plaque index. According to our study, the Clinical Index DIGO can be used as a parameter to evaluate GO. Therefore, we conclude that the presence of gingival inflammation was the main risk factor for the occurrence of nifedipine-induced GO.

TGF-β1 gene polymorphism in renal transplant patients with and without gingival overgrowth

BACKGROUND

The incidence of gingival overgrowth among renal transplant patients treated with cyclosporine A ranges from 13% to 84.6%, and the overgrowth is not only esthetic but also a medical problem. We studied the determination of association between TGF-β1 (TGFB1) gene polymorphism and gingival overgrowth in kidney transplant patients medicated with cyclosporin A.

METHODS

Eighty-four kidney transplant patients with gingival overgrowth and 140 control transplant patients without overgrowth were enrolled into the case control study. TGFB1 polymorphism was determined using the PCR-RFLP assay for +869T > C in codon 10 and +915G > C in codon 25 as well as TaqMan real-time PCR assays for promoter -800G>A and -509C > T SNPs.

RESULTS

In kidney transplant patients suffering from gingival overgrowth, mean score of gingival overgrowth was 1.38 ± 0.60, whereas in control subjects it was 0.0. The patients with gingival overgrowth were characterized by similar distribution of TGFB1 genotypes and allele in comparison to subjects without gingival overgrowth. Among 16 potentially possible haplotypes of TGFB1 gene, only four were observed in the studied sample of kidney transplant patients: G_C_T_G, G_T_C_G, G_C_C_C, and A_C_T_G, with similar frequency in patients with and without gingival overgrowth.

CONCLUSION

No association between the TGFB1 gene polymorphism and gingival overgrowth was revealed in kidney transplant patients administered cyclosporine A.

Gingival enlargement in children administered cyclosporine after liver transplantation

BACKGROUND

Cyclosporine, a potent immunosuppressant agent, has significantly reduced the morbidity and mortality rates associated with solid-organ transplantations. The major side effect of this drug in the oral cavity is gingival enlargement. Cyclosporine-induced gingival enlargement was reported by different transplant centers as varying from 7% to 80%. Many factors related to cyclosporine-induced gingival overgrowth have been investigated. However, controversies still exist. This study investigates the effects of cyclosporine on the gingival tissues of liver-transplant pediatric patients, determines the prevalence and severity of gingival overgrowth, and analyzes the relationship between gingival enlargement and possible risk factors.

METHODS

Twenty-five children aged <4 years old (15 males and 10 females) with end-stage liver disease, and awaiting liver transplantation were selected for this study. During the pretransplant period, baseline data were collected including serum level of cyclosporine and gingival enlargement, plaque, and gingival bleeding indices. After liver transplantation, all subjects received <5 mg/kg cyclosporine as an immunosuppressant agent. The children had the same data collected immediately and 3, 6, and 12 months after liver transplantation.

RESULTS

The results show that the cyclosporine-induced gingival enlargement of these children is not statistically associated with their age, gender, gingival inflammation, or serum level of cyclosporine (P >0.05). The gingival enlargement was found to be significantly related to the plaque index at each time period until 12 months after liver transplantation (P <0.05). An increased tendency of gingival enlargement was found in the immediate post-transplant examination and at 3 months after liver transplantation.

CONCLUSIONS

Children administered cyclosporine after liver transplantation show that gingival enlargement is statistically more related to the plaque index than other factors such as age, gender, gingival inflammation, or the serum level of cyclosporine, which suggests that plaque control plays an important role in eliminating gingival enlargement in children who have undergone liver transplantation.

Down-regulation of transforming growth factor beta-2 expression is associated with the reduction of cyclosporin induced gingival overgrowth in rats treated with roxithromycin: an experimental study

Background

Gingival overgrowth (GO) is a common side effect of the chronic use of cyclosporine (CsA), an immunosuppressant widely used to prevent rejection in transplant patients. Recent studies have reported elevated levels of specific cytokines in gingival overgrowth tissue, particularly TGF-beta, suggesting that this growth factor plays a role in the accumulation of extracellular matrix materials. The effectiveness of azithromycin, a macrolide antibiotic, in the regression of this undesirable side effect has also been demonstrated.

Methods

In this study, we created an experimental model for assessing the therapeutic effect of roxithromycin in GO and the expression of transforming growth factor beta (TGF-beta2) through immunohistochemistry. We used four groups of rats totaling 32 individuals. GO was induced during five weeks and drug treatment was given on the 6th week as follows: group 1 received saline; group 2 received CsA and was treated with saline on the 6th week; group 3 received CsA and, on the 6th week, ampicilin; and group 4 received CsA during 5 weeks and, on the 6th week, was treated with roxithromycin.

Results

The results demonstrated that roxithromycin treatment was effective in reducing cyclosporine-induced GO in rats. Both epithelial and connective tissue showed a decrease in thickness and a significant reduction in TGF-beta2 expression, with a lower number of fibroblasts, reduction in fibrotic areas and decrease in inflammatory infiltrate.

Conclusion

The present data suggest that the down-regulation of TGF-beta2 expression may be an important mechanism of action by which roxithromycin inhibits GO.

Gingival overgrowth in renal transplant recipients: a study concerning prevalence, severity, periodontal, and predisposing factors

Gingival overgrowth (GO) is the main oral manifestation in transplant recipients who use calcineurin inhibitors. In the present study, factors for GO development were investigated in Brazilian renal transplant recipients who were prescribed cyclosporine (CsA) or tacrolimus (TAC). Demographic, pharmacological, clinical, and periodontal data were obtained from 83 patients, as well as HLA expression in 51 of them. The prevalence of GO was high (47%), but its severity was low according to periodontal indices. The prevalence of GO was greater among patients who used CsA (n = 49) than those receiving used TAC (n = 34) namely, 61% versus 26.5% (P = .003). Comparisons between patients with versus without GO were performed independent of the administered immunossupressant. The group with GO showed a greater degree of gingival inflammation index. HLA-A68 had greater expression among patients without GO (P = .04). The risk factors for GO occurrence were evaluated using a multivariate analysis that identified gingival inflammation and HLA-A24 expression as risk factors. Increased age and use of TAC were identified as protective factors. GO showed a high prevalence, yet a light intensity. Patients who were younger, men, or received CsA showed a greater occurrence of GO. The risk factors identified for GO development were the presence of gingival inflammation and HLA-A24 expression.

Renal disease and the mouth

Oral manifestations of renal disease are common. They may present as unique signs of multi-system disease affecting the kidneys (such as vasculitis), or as common oral pathologies found at an increased prevalence in patients with end-stage renal disease. Despite more oral and dental disease in patients on renal replacement therapy, attendance at dental clinics is infrequent, and physician awareness of the problem is low. In our short review, aimed at renal, transplant, and general physicians, we discuss the link between clinical changes in the mouth and multi-systemic disease involving the kidney. We suggest a standardized approach to oral examination to increase diagnostic yield and discuss common oral complications in patients on dialysis or successfully transplanted. Finally, we suggest potential treatments for oral disease that nephrologists might safely institute.

Demographic, Pharmacologic, and Periodontal Variables for Gingival Overgrowth in Subjects Medicated With Cyclosporin in the Absence of Calcium Channel Blockers

BACKGROUND

The role of cyclosporin in the absence of calcium channel blockers and the associated risk variables of development and severity of gingival overgrowth have not yet been properly established. The present study was conducted to determine the effect of potential risk variables for gingival overgrowth severity in Brazilian renal transplant subjects medicated with cyclosporin in the absence of any calcium channel blockers.

METHODS

A cross-sectional study was conducted in a public hospital in Belo Horizonte, Brazil. Demographic, pharmacologic, and periodontal data, recorded from 194 subjects taking cyclosporin in the absence of calcium channel blockers, were analyzed using independent sample t, chi2 statistic, or Mann-Whitney U tests. The effects of potential risk variables of gingival overgrowth severity were determined using backward stepwise regression analysis.

RESULTS

The prevalence of clinically significant gingival overgrowth was 34.5% (N = 67). These subjects presented a significantly higher papillary bleeding index and a higher plaque index compared to those without clinically significant gingival overgrowth. When all demographic, pharmacologic, and periodontal data were evaluated in relation to gingival overgrowth severity, time since transplant, papillary bleeding index, serum cyclosporin concentration, and prednisolone and azathioprine dosages were significant in the univariate modeling (P <0.05) and remained significant when evaluated in the multivariate modeling (P <0.0001; adjusted R2 = 39.4%).

CONCLUSIONS

In the absence of calcium channel blockers, this study showed that pharmacologic variables, such as cyclosporin serum concentration, prednisolone and azathioprine dosages, and time since transplant, are strongly related to gingival overgrowth. In addition, the periodontal variable papillary bleeding index highlighted the primary role of inflammation on the pathogenesis and severity of gingival overgrowth.

Sonic tooth brushing reduces gingival overgrowth in renal transplant recipients

Cyclosporine (CSA) is a commonly used immunosuppressive medication in pediatric transplantation. Drug-induced gingival overgrowth (DIGO) is a frequent side effect associated with CSA use and can impair the patient's ability to achieve good oral hygiene. This study tested the hypothesis that sonic tooth brushing and oral hygiene instruction can reduce the occurrence or severity of DIGO in CSA-treated pediatric renal transplant recipients. Twenty-three pediatric renal transplant patients with DIGO were randomly allocated to treatment or control groups. The treatment group received oral hygiene instruction and use of a sonic toothbrush, while the control group continued their usual home care with manual brushes. Dental impressions and photographs of all subjects were taken at baseline and every 3 months for a year. The casts and photographs were evaluated by a dental panel to compare the DIGO levels from baseline until the end of the study. After 12 months the control group had significantly more severe DIGO than did the sonic tooth brushing and oral hygiene instruction group (OR=4.5, 95%CI=1.2-16.0, P=0.03). Of the risk factors considered, only male gender was significantly associated with worse outcome (OR=6.1, 95%CI=2.3-16.1, P=0.03). The use of a powered toothbrush, together with oral hygiene instruction, may be an important component of health maintenance for pediatric transplant patients on CSA.

Matrix Metalloproteinase-1 Gene Polymorphism in Renal Transplant Patients With and Without Gingival Enlargement

BACKGROUND

Gingival enlargement frequently occurs in transplant patients receiving immunosuppressive drugs. It was hypothesized that gingival enlargement associated with cyclosporin use results in a disturbance of the homeostatic balance, which is characterized by an increase in the number of fibroblasts and volume of the extracellular matrix. Matrix metalloproteinase (MMP) serves as an initiator of extracellular matrix destruction. The aim of this study was to determine whether there is an association between genotypes of the MMP-1 gene and gingival enlargement in kidney transplant patients.

METHODS

Sixty-one unrelated kidney transplant patients with gingival enlargement and 121 control transplant patients without enlargement were enrolled in the study. Six months after transplantation, all patients were given medication, which included cyclosporin A, and gingival enlargement was assessed. MMP-1 polymorphism was determined using the polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) assay.

RESULTS

In kidney transplant patients with gingival enlargement, the mean score of gingival enlargement was 1.42+/-0.63, whereas in control subjects, it was 0.0. There were no significant differences in the frequency of -1607 1G>2G alleles and genotypes between patients with and without gingival enlargement. In all subjects (N=182) and in patients without gingival enlargement, the genotype distribution met Hardy-Weinberg equilibrium criteria, whereas in patients with gingival enlargement, it was markedly different (P<0.06). There was a trend for carriers of at least the 1G allele to have an increased risk of gingival enlargement, but the trend was not statistically significant (odds ratio, 2.32; P<0.073).

CONCLUSION

No association between the MMP-1 gene polymorphism and gingival enlargement was revealed in kidney transplant patients who were administered cyclosporin A as a principal immunosuppressive agent.

Elevated levels of gene expression for collagen and decorin in human gingival overgrowth

OBJECTIVES

It has been demonstrated that extracellular matrix molecules are involved in cyclosporine-induced gingival overgrowth (GO). However, for many of these molecules, it remains unclear whether their abundance is modulated on the protein and gene expression level.

MATERIAL AND METHODS

To contribute to this clarification, we have analysed the protein and mRNA expression of type-I collagen (COL1) and decorin (DC) in native specimens obtained from five patients with GO, and matched normal tissue using indirect immunofluorescence (IIM), in situ hybridization (ISH) and quantitative polymerase chain reaction (PCR).

RESULTS

IIF revealed a largely co-localized although remarkably increased abundance for COL1 and DC in GO. This increase coincided with an up-regulated gene expression observed for both molecules, as detected by ISH and quantitative PCR.

CONCLUSIONS

Analysis of our data clearly demonstrates elevated levels for COL1 and DC and shows for the first time in native human tissue that involvement of these genes in GO is not confined to the protein level but also includes the transcriptional level.

Elevated gene expression of MMP-1, MMP-10, and TIMP-1 reveal changes of molecules involved in turn-over of extracellular matrix in cyclosporine-induced gingival overgrowth

In humans, pathogenesis in cyclosporine A (CsA)-induced gingival overgrowth (GO) includes the accumulation of extracellular matrix (ECM) constituents, viz., collagen type-1 and type-3 and proteoglycans, in subgingival connective tissue. However, whether this increase is associated with alterations of molecules pivotal for the turn-over of collagens and proteoglycans remains unclear. The present study explores the status of matrix metalloproteinase MMP-1 and MMP-10, which are important for fibrillar collagen and proteoglycan turn-over, and their tissue inhibitor TIMP-1, on their gene expression and protein levels in frozen sections derived from GO and matched normal tissue. In situ hybridization (ISH) revealed elevated levels of MMP-1 gene expression in the connective tissue of GO compared with normal tissue. This elevation also applied to MMP-10 and TIMP-1, the latter exhibiting the strongest gene transcription in the deep connective tissue. These differences detected by ISH were corroborated by quantitative reverse transcription/polymerase chain reaction; relative gene expression analysis indicated a 1.9-fold increase for MMP-1, a 2.3-fold increase for MMP-10, and a 4.8-fold increase for TIMP-1. Detection of the protein by indirect immunofluorescence showed that normal gingival tissue was devoid of all three proteins, although they were detectable in GO tissue, with emphasis on TIMP-1. Analysis of our data indicates elevated levels of MMP-1 and-10, and particularly TIMP-1. With respect to TIMP-1, this elevation may in turn lead to alterations in ECM turn-over by abrogating MMP-1 and MMP-10, thereby contributing to ECM accumulation associated with GO.

The Relationship of Transforming Growth Factor-β1 Gene Polymorphism, Its Plasma Level, and Gingival Overgrowth in Renal Transplant Recipients Receiving Different Immunosuppressive Regimens

BACKGROUND

Cyclosporin A (CsA) induces gingival overgrowth (GO) in patients who seem to be prone to this disorder. It is still impossible to determine which patients will develop GO. Patients treated with the new immunosuppressive drug tacrolimus seem not to have GO. The aims of this study were to investigate transforming growth factor-beta1 (TGF-beta1) gene polymorphisms in renal transplant recipients treated with CsA or tacrolimus and to establish an association between these polymorphisms and TGF-beta1 plasma concentration and the incidence of GO.

METHODS

The examined group consisted of 134 renal transplant recipients. Ninety-two underwent CsA treatment (50 with and 42 without GO), and 42 underwent tacrolimus treatment. Age, gender, time after transplantation, calcineurin inhibitor total dosage, number of teeth, and sulcus bleeding index were analyzed. TGF-beta1 plasma levels were estimated in 60 CsA- and 30 tacrolimus-treated patients. Two biallelic polymorphisms of the TGF-beta1 gene were studied at codon 10 (at position +869) and at codon 25 (at position +915) in patients from the examined group and in 108 healthy volunteers (the control group).

RESULTS

The distribution of the high, intermediate, and low TGF-beta1 producer phenotypes was comparable in all the studied groups and in the healthy controls. The high producer phenotype was more frequent in patients with GO. TGF-beta1 levels in the CsA group showed correlation with the phenotypes. The lowest incidence of GO was observed in the 10C/C genotype, whereas the highest was observed in the 10T/C genotype.

CONCLUSION

High and intermediate TGF-beta1 producer phenotypes and heterozygous genotype 10T/C might be considered risk factors for GO in patients treated with CsA.

Effect of Cyclosporin A on the Expression of Inducible Nitric Oxide Synthase in the Gingiva of Rats

BACKGROUND

The role of nitric oxide (NO) in the pathogenesis of cyclosporin A (CsA)-induced gingival overgrowth is still unknown. The purpose of this study was to evaluate the effect of CsA on the expression of nitric oxide synthases (NOS) in the gingival tissue of rats.

METHODS

Thirty male Sprague-Dawley rats were randomly assigned to a control and two test groups. Rats in each group received CsA (0, 10, or 30 mg/kg) daily by gastric feeding for 4 weeks. The plasma NO and the NOS enzyme activities were assayed at week 4 in the blood samples and in the gingiva and lung tissue specimens, respectively. The distribution of inducible nitric oxide synthase (iNOS) was further evaluated in tissues obtained from the gingiva and lung at the end of weeks 1 and 4 by immunohistochemistry.

RESULTS

In the CsA-treated animals, increased levels of plasma nitrites/nitrates were measured in comparison to those in control rats. Significantly greater iNOS enzyme activities were detected in lung and gingival tissues obtained from CsA-treated animals than from control animals. In addition, cells positively staining for iNOS were clearly observed in both gingival and lung tissues obtained from the CsA-treated animals by immunohistochemistry, whereas a few stained cells were found in those from the control group. The quantity of cells positively stained for iNOS was greater in tissue from week 4 than week 1.

CONCLUSIONS

The effect of CsA on gingival iNOS expression was evaluated in rats for 4 weeks. A greater iNOS expression in the gingiva was observed after CsA therapy by both enzyme activities and immunohistochemica staining. Therefore, we suggest that CsA can increase gingival iNOS expression, which may play an important role in cyclosporin-induced gingival overgrowth.

Interleukin-6 gene polymorphism in renal transplant patients with and without gingival overgrowth

OBJECTIVE

To determine whether there is an association between genotypes of interleukin-6 (IL-6) and gingival overgrowth in kidney transplant patients.

METHODS

Sixty-three unrelated kidney transplant patients suffering from gingival overgrowth as well 125 control transplant patients without overgrowth were enrolled into the study. Gingival overgrowth was assessed by two independent periodontal specialists at 6 months after transplantation. During the post-transplant period, all patients were given medication, which included cyclosporin A, diltiazem or verapamil, prednisone, and azathioprine. IL-6 polymorphism was determined using the polymerase chain reaction-restriction fragment length polymorphism assay.

RESULTS

In kidney transplant patients suffering from gingival overgrowth mean score of gingival overgrowth was 1.41+/-0.64, whereas in control subjects it was 0.0. Patients with gingival overgrowth induced by immunosuppressive medication were characterized by genotypes similar to the controls distribution of IL-6. There were no significant differences of analyzed genotypes' distribution, i.e. -174G/G, -174G/C and -174C/C between patients with gingival overgrowth 33.3%, 39.7%, 27.0% and without gingival overgrowth 30.4%, 49.6% and 20.0%, respectively. The risk of gingival overgrowth was the highest among patients carrying -174C/C genotype (OR 1.48), but did not differ markedly from the other genotypes, i.e. -174G/G (OR 1.15) and -74G/C (OR 0.67). Similar to genotypes, the distribution of alleles was similar in patients with gingival overgrowth and healthy gingiva. The -174G allele was found in 53.2% and 46.8% of subjects whereas -174C allele was revealed in 46.8% and 44.8% of patients with and without gingival overgrowth, respectively. The evaluated risk of gingival overgrowth in patients with -174G allele was 1.09 versus those with healthy gingiva. The medication regimen administered in both groups of the study was comparable.

CONCLUSION

No association between the IL-6 gene polymorphism and gingival overgrowth was revealed in kidney transplant patients administered cyclosporin A as a principal immunosuppressive agent.

Cyclosporin-Induced Gingival Overgrowth: A Clinical–Epidemiological Evaluation of 121 Italian Renal Transplant Recipients

BACKGROUND

Although other immunosuppressive agents have been recently introduced (e.g., tacrolimus), it has been calculated that in the next decade about 1 million people will still be taking cyclosporin (CsA). The association between gingival overgrowth (GO) and the use of CsA is still not clear. In the present study we evaluated the prevalence and the degree of GO in a group of Italian renal transplant patients and the possible relationship between gingival lesions and demographic, oral, systemic, and pharmacological variables.

METHODS

One hundred twenty-one renal transplant recipients receiving immunosuppressive therapy with CsA were evaluated in this study. Patients were classified in two groups. In the first (screening group), we included all those patients referred by the Parma University Renal Transplant Center for a general oral checkup, with no specific indications for GO. The second group (non-screening group) included all those patients who specifically had been referred to the Oral Pathology and Oral Medicine Unit because of GO. We considered the following variables: gender, daily CsA dose, duration of immunosuppressive treatment, CsA plasma concentration, concomitant use of another immunosuppressive agent (azathioprine), use of other GO inducers (calcium channel blockers, anti-epileptic drugs), oral hygiene scores, and other drugs taken at the time of oral examination.

RESULTS

Fisher's exact test and chi square test demonstrated that in the screening group, duration of immunosuppressive treatment and oral hygiene scores were associated both with the prevalence and the high GO scores (P (1) (DIT) <0.0001; P (2) (DIT)=0.0023; P (1) (hyg)=0.0084; P (2) (hyg)=0.0068). In the screening group, concomitant use of CsA and azathioprine is related to a low development degree of GO (P=0.0088). In the non-screening group, we found a significant association between poor oral hygiene and high degree of GO (P=0.0349).

CONCLUSION

In addition to a probable genetic predisposition, duration of immunosuppressive treatment and oral hygiene status are the most important variables related to development and degree of GO during the use of CsA in this study.

Gingival overgrowth in children: epidemiology, pathogenesis, and complications. A literature review

Gingival overgrowth is the enlargement of the attached gingiva due to an increased number of cells. The most prevalent types of gingival overgrowth in children are drug-induced gingival overgrowth, hereditary gingival fibromatosis (HGF), and neurofibromatosis I (von Recklinghausen disease). Gingival overgrowth induced by drugs such as phenytoin, nifedipine, and cyclosporin develops due to an increase in the connective tissue extracellular matrix. According to epidemiologic studies, it is more prevalent in male children and adolescents. There is an additive effect of those drugs on the degree of gingival overgrowth. Genetic heterogeneity seems to play an important role in the development of the disease. Functional difficulties, disfigurement, increased caries, and delayed eruption of permanent teeth are the main complications of drug-induced gingival overgrowth. HGF is the most common syndromic gingival enlargement in children. This autosomal dominant disease usually appears at the time of eruption of permanent dentition. Histologically, it is characterized by highly collagenized connective tissue. The most important complications are drifting of teeth, prolonged retention of primary dentition, diastemata, and poor plaque control. Neurofibromatosis I is an autosomal dominant disease more common in mentally handicapped individuals. Gingival overgrowth is caused by the formation of plexiform neurofibromas in the connective tissue of the gingiva. Plexiform neurofibromas are pathognomonic of the disease and consist of hypertrophic nerves arranged as lobules in the connective tissue. Complications of the disease are multiple and severe due to neurofibromas and their occasional malignant transformation.

Oral and dental aspects of chronic renal failure

The present article reviews, in detail, the current knowledge of the oral and dental aspects of chronic renal failure (CRF). Worldwide, increasing numbers of persons have CRF; thus, oral health care staffs are increasingly likely to provide care for patients with such disease. Chronic renal failure can give rise to a wide spectrum of oral manifestations, affecting the hard or soft tissues of the mouth. The majority of affected individuals have disease that does not complicate oral health care; nevertheless, the dental management of such individuals does require that the clinician understand the multiple systems that can be affected. The clinician should also consider the adverse side-effects of drug therapy and appropriate prescribing, in view of compromised renal clearance.

P-glycoprotein drug transporter MDR1 gene polymorphism in renal transplant patients with and without gingival overgrowth

OBJECTIVE

To determine whether there is association between genotypes of drug transporter multidrug resistant (MDR)1 gene coding drug transporter P-glycoprotein and gingival overgrowth in kidney transplant patients.

METHODS

Fifty-four unrelated kidney transplant patients suffering from gingival overgrowth as well 120 control transplant patients without overgrowth were enrolled into the study. Gingival overgrowth was assessed by two independent periodontal specialists at 6 months after transplantation. During the post-transplant period all patients were given medication, which included cyclosporine A, diltiazem or verapamil, prednisone, azathioprine. MDR1 C3435T polymorphism was determined using the polymerase chain reaction-restriction fragment length polymorphism assay.

RESULTS

In kidney transplant patients suffering from gingival overgrowth mean score of gingival overgrowth was 1.43 +/- 0.63, whereas in control subjects was 0.0. Patients with gingival overgrowth induced by immunosuppressive medication were characterized by similar distribution of MDR1 genotypes. There were no significant differences of 3435CC, 20.4% and 22.5%, 3435CT, 61.1% and 54.2% and 3435TT, 18.5% and 23.3% genotypes (frequencies) between patients with and without gingival overgrowth. The risk of gingival overgrowth was the highest among patients carrying 3435CT genotype (OD 1.33), but did not differ markedly from the other genotypes, i.e. 3435CC (OD 0.88) and 3435TT (OD 0.75). Likewise to genotypes, distribution of alleles was similar in patients with gingival overgrowth and healthy gingiva. The wild-type allele 3435C was found in 50.9% and 49.6% of subjects whereas the mutated allele 3435T was revealed in 49.1% and 50.4% of patients with and without gingival overgrowth, respectively. The evaluated risk of gingival overgrowth in patients with 3435C allele was 1.06 versus 0.95 in those with healthy gingiva. The medication regimen administered in both groups of the study was comparable. Immunohistochemical studies revealed expression of P-glycoprotein in ducts of the salivary gland.

CONCLUSION

No association between the MDR1 gene polymorphism and gingival overgrowth was revealed in kidney transplant patients administered cyclosporine A as a principal immunosuppressive agent. Further studies are needed to elucidate the role of P-glycoprotein in drug transport in salivary glands.

Influence of Age on Combined Effects of Cyclosporin and Nifedipine on Rat Alveolar Bone

BACKGROUND

There is some evidence showing that cyclosporin A (CsA) and nifedipine (NIF) affect bone metabolism. The purpose of this work was to study the effects of CsA and NIF, given alone or concurrently, on alveolar bone of rats of different ages.

METHODS

Rats 15, 30, 60, and 90 days old were treated daily with 10 mg/kg body weight of CsA subcutaneously injected and/or 50 mg/kg body weight of NIF/day given orally for 60 days. Alveolar bone of the first lower molars was morphologically and stereologically evaluated in serial 5 microm bucco-lingual paraffin sections, stained with hematoxylin and eosin. Serum calcium and alkaline phosphatase levels were measured in all animals at the end of the experimental period.

RESULTS

Rats treated with CsA or NIF alone or CsA and NIF concurrently showed decreased alveolar bone density. CsA was more effective than NIF. A significant decrease in serum calcium was found only in animals treated with CsA or CsA/NIF. The results were similar regardless of age.

CONCLUSIONS

These results indicate that the decrease in the alveolar bone volume in rats caused by CsA and NIF alone or concurrently is not age dependent. Furthermore, NIF (50 mg/kg) did not further increase the loss of alveolar bone volume induced by CsA (10 mg/kg).

Combined effects of cyclosporin and nifedipine on gingival overgrowth in rats is not age dependent

BACKGROUND

Cyclosporin A and nifedipine cause gingival overgrowth in rat, and the combined use of these drugs increases the overgrowth severity.

OBJECTIVE

The purpose of this study was to compare gingival overgrowth of rats of differents ages treated with cyclosporin A and nifedipine alone or given concurrently.

MATERIALS AND METHODS

Rats 15, 30, 60 and 90 d old were treated with 10 mg/kg body weight of cyclosporin A and/or 50 mg/kg body weight of nifedipine in the chow.

RESULTS

Young rats showed evident gingival overgrowth with nifedipine, cyclosporin A, and cyclosporin A and nifedipine given concurrently. Adult rats did not show significant gingival alterations when treated with cyclosporin A and nifedipine alone. Nevertheless evident gingival overgrowth with alterations of the epithelium and connective tissue were observed when treated simultaneously with cyclosporin A and nifedipine.

CONCLUSION

These results suggest that the combined effects of cyclosporin A and nifedipine on gingival overgrowth in rat is not age dependent.

Cyclosporin A-induced gingival overgrowth in renal transplant patients

BACKGROUND

The incidence of gingival overgrowth (GO) associated with the use of cyclosporin A (CsA) is controversial. In the present study, we determined the incidence of GO in Brazilian renal transplant patients treated with CsA and the possible associations between periodontal and pharmacological variables.

METHODS

The test group consisted of 20 renal transplant patients, and the control group included 20 non-transplant patients. Periodontal conditions were evaluated based on the plaque index (PI), gingival index (GI), probing depth (PD), and the rate of gingival overgrowth, together with pharmacological variables (daily CsA dose and duration of treatment).

RESULTS

A significant difference in PI (P < 0.0001) and PD (P < 0.0001) was observed between groups, while GI (P = 0.15) did not differ significantly. Using the Pearson correlation coefficient, a significant correlation was observed not only between GI (P < 0.001; r = 0.8141) and GO, but also for PD (P < 0.001; r = 0.866) and GO. The other correlations were not statistically significant.

CONCLUSIONS

We conclude that GO induced by CsA may vary according to the individual sensitivity of each patient and may or may not be correlated with other local factors (periodontal variables).

Does nifedipine aggravate cyclosporin--induced gingival overgrowth? An experiment in rats

BACKGROUND

Nifedipine (NIF) may aggravate cyclosporin A (CsA)-induced gingival overgrowth because the potentiated gingival overgrowth has been observed in the patients treated with CsA and NIF. The purpose of this study was to evaluate whether NIF could aggravate the CsA-induced gingival overgrowth in a rat model.

METHODS

Ninety male Sprague-Dawley rats were divided into 6 groups: the first group received 8 mg/kg of CsA daily by gastric feeding for 6 weeks; the second and third groups received NIF daily at a dosage of 10 or 50 mg/kg; the fourth and fifth groups received CsA (8 mg/kg) and NIF (10 or 50 mg/kg); and the sixth group received solvents as a negative control. Gingival dimensions (including bucco-lingual depth, mesio-distal width, and vertical height) were assessed bi-weekly from impressed stone models of the mandibular incisal region. At the end of the experiment, the animals were sacrificed. Following histopathological procedures, serial horizontal sections were obtained at the base of the central incisal papilla. Two tissue levels were selected for histometric analysis. Level 1 was defined as the point where the lingual gingiva embraced the bucco-lingual midpoint of the roots and the level 2 as the point where the lingual gingiva at the enamel-dentinal junction approximated the bucco-proximal angle of the roots. The bucco-lingual depth and the mesio-distal width of the papilla were recorded on 5 consecutive sections at the 2 levels, respectively.

RESULTS

At the 6-week observations, the gingival dimensions (including the depth, width, and height) significantly increased after CsA therapy and the increasing treatment duration; however, only the mesio-distal width increased after NIF therapy. For NIF therapy alone, a positive linear relation was noted by increased NIF treatment dosages in all gingival dimensions at week 6. But, this relationship was not found in the combined therapies. By histometry, tissue dimensions increased following single drug therapy, either CsA or NIF, at both levels. In animals with the combined therapies, the tissue dimensions decreased if the animals received 10 mg NIF, while they rebounded to control levels with the 50 mg dosage. A dose-dependent positive pattern by NIF was noted in tissue dimensions, but the pattern did not occur in animals that received combined therapy.

CONCLUSIONS

The gingival dimensions increased after CsA or NIF therapy, although they were more prevalent with CsA. But the augmenting pattern in gingival morphology observed with CsA therapy decreased when the animals received additional NIF. Therefore, we question whether NIF is a critical factor in aggravating the CsA-induced gingival overgrowth.

Effects of combined oral treatments with cyclosporine A and nifedipine or diltiazem on drug-induced gingival overgrowth in rats

BACKGROUND

Cyclosporine A (CsA) and calcium channel blockers induce gingival overgrowth in humans and animals. Recently, nifedipine and diltiazem have often been used to control CsA-related hypertension in organ transplant patients. The purpose of this study was to examine the effects of a combined oral treatment of CsA and nifedipine or diltiazem on the severity of gingival overgrowth in rats.

METHODS

Fifteen-day-old Fischer rats were treated orally with single or combined applications of CsA, nifedipine, and/or diltiazem for 40 days; and induced gingival overgrowth, rat growth, and blood drug levels were compared among the different experimental groups. The experiment consisted of 6 groups: one control group (group A) and 5 test groups treated with CsA (group B), nifedipine (group C), and diltiazem (group D), as well as those concurrently treated with CsA and nifedipine (group E), and CsA and diltiazem (group F). Gingival overgrowth was determined by measuring the depth of the gingival sulcus.

RESULTS

The mandibular buccal gingival sulcus depth of group A was 365 +/- 41.2 microm. Among the test groups, the most remarkable gingival overgrowth was seen in group E (1,020 +/- 63.3 microm), followed by group F (895 +/- 43.8 microm), group B (870 +/- 48.3 microm), group C (525 +/- 116 microm), and then group D (505 +/- 83.2 microm). Rat body weight gain was reduced significantly by oral CsA treatment. Neither nifedipine nor diltiazem suppressed rat growth when used independently; however, rat growth reduced by CsA was further suppressed by a combined use of diltiazem, but not nifedipine. CsA blood levels were reduced by concurrent oral treatment with nifedipine or diltiazem along with the blood levels of those calcium channel blockers when treatment was in combination with CsA.

CONCLUSIONS

These results suggest that gingival overgrowth is induced in rats as a side effect of CsA, nifedipine, or diltiazem, and the combined use of these drugs influences rat growth, blood drug levels, and the severity of gingival overgrowth.

Risk factors in the development of cyclosporine-induced gingival overgrowth

BACKGROUND

Severe gingival hyperplasia (GH) is one of the most frequent side-effects associated with the prescription of cyclosporine-A (CsA). Using the largest group of renal allograft recipients assembled for this purpose, in this study, we statistically modeled the genetic (HLA), medical, and dental risk factors for the development of GH subsequent to administration of CsA.

METHODS

Two hundred thirty-six renal transplant patients underwent full dental examination to quantify the extent and distribution of hyperplasia and dental disease (gingivitis, plaque, and calculus). Computerized data from all patients included pre-transplant medical history and dosage of nifedipine and azathioprine, as well as dose and serum levels of CsA and CsA microemulsion. Donor and host HLA haplotype were studied to investigate potential association of haplotype and donor-host mismatching with the development of GH. We evaluated the data by multivariate regression analysis, using Statistical Package for Social Sciences (SPSS).

RESULTS

There was no association with age, sex, duration of renal replacement therapy, or interval since transplantation or pre-transplant disease (P>0.05). There also was no association of disease with host HLA haplotype, but degree of HLA-A mismatching was protective for GH development (P<0.002). GH was associated with the dose and serum levels of CsA (P<0.001) and the last dose of CsA microemulsion (P=0.009) but not nifedipine (P=0.10). Gingival inflammation and plaque were also strongly associated with GH (P<0.0003). In multivariate analysis, however, the last recorded dose of CsA (P<0.0001), presence of local gingival inflammation (P<0.0001), and gingivitis (P<0.003) were the independent predictors of the extent and severity of GH.

CONCLUSIONS

Inter-patient variation in the extent and severity of GH is related to CsA dose and serum levels. Differences in host HLA phenotype do not explain individual susceptibility to GH, but donor-host HLA-A mismatching may be important. Inter-site variation in the extent and severity of the disease is related to local gingival inflammation.

A clinical review of drug-induced gingival overgrowths

There is an increasing number of medications associated with gingival overgrowth. These medications are used to treat a number of common conditions in the Australian population and as such dentists can expect to manage a number of patients with medication-related gingival overgrowth. This review highlights the clinical features and management of the common overgrowths associated with anticonvulsants, immunosuppressants and the calcium channel blockers.

Medication induced gingival overgrowth

A number of idiopathic, pathological and pharmacological reactions may result in an overgrowth of the gingiva. This review concentrates on those overgrowths associated with various pharmacological agents. The pharmaco-kinetics and side effects of each drug associated with gingival overgrowth are discussed along with the clinical and histological features and treatment. By examining the possible pathogeneses for these overgrowths we propose a unifying hypothesis for the causation based around inhibition of apoptosis and decreased collagenase activity modulated by cytoplasmic calcium.