Introduction

Chronic kidney disease (CKD) is a real public health problem, affecting 5 to 10% of the world's population.^[1] In Côte d'Ivoire, its prevalence is 7.5%^[2] at the stage of end-stage chronic renal failure (ESRD). This condition poses a real threat in many countries, due to a steady rise in its incidence and prevalence, and its medical, social and economic consequences.^[3]

The progression of chronic kidney disease (CKD) is marked by a number of complications, notably affecting phosphocalcium homeostasis, and leading to bone alterations and cardiovascular morbidity and mortality.^[4], ^[5]

The management of end-stage renal disease therefore includes biological monitoring to adapt treatments and reduce the deleterious effects of these complications. Biological monitoring includes measurement of parathyroid hormone (PTH), the main hormone regulating phosphocalcic metabolism. The accepted values in hemodialysis patients should be between 2 and 9 times the upper limit of normal (ULN) according to the KDIGO.^[6]

Appropriate interpretation of PTH must therefore take into account the nature of the test used. Indeed, PTH assay methods have undergone several evolutions since the 1960's. After the 1st generation methods, now abandoned, the 2nd and 3rd generation methods developed later have improved test specificity.

These last two generations of tests are still in use today, and are available in the laboratory for biological monitoring of patients with chronic renal failure undergoing dialysis in the public sector in Côte d'Ivoire. This raises the problem of concordance between the diagnosis made on these two platforms in the follow-up of these dialysis patients. In other words, is the diagnosis of PTH elevated beyond acceptable target values the same regardless of the platform used? The aim of this study is therefore to compare the diagnosis produced by the two generations of tests.

Material and methods

Results

The mean age of the haemodialysis patients recruited was 46 years, with extremes ranging from 20 to 75 years. With the exception of the 40 to 60 age group, the male/female distribution was relatively homogeneous in the population.

Most patients had been on dialysis for more than 64 months, i.e. just over 5 years, with extremes ranging from 5 months to 264 months (around 22 years). The characteristics of the study population are presented in [Table 2].

As for PTH values, within the study population, 33.85% of dialysis patients had a PTH value above the threshold value on the Maglumi® kit, compared with 41.54% on the Vidas® kit ([Table 3]).

The contingency table based on the threshold values of the two assay platforms showed that 86% of patients were in diagnostic agreement ([Table 4]).

The Cohen Kappa test revealed good diagnosis agreement between the two platforms ([Table 4]).

Discussion

In our study, we noted a male predominance with a sex ratio of 1.7. This observation has also been made by several authors including Samaké et al.^[8] in Mali (Sex-ratio ₌ 1.13), Ramilitiana et al.^[9] in a Madagascar (Sex-ratio ₌ 1.46, Asseradji et al. ^[4] in Morocco (Sex-ratio ₌ 1.78), Diallo et al.^[10] in Côte d'ivoire (Sex-ratio ₌ 1.61).

This could be explained by the relative financial stability and literacy rate in favor of the male sex, which would give men an advantage over women in access to healthcare in our countries. In addition, some authors have described a greater frequency of renal disease in men than in women, and a more rapid progression to chronic renal failure.^[11]

The predominant age group in our series is [40-50[years with a frequency of 40% with a mean age of 47 years and extremes from 20 to 75 years. These results are similar to those also observed in Côte d'Ivoire in 2016 by Kropka A. et al.^[12] with a mean age of 45 years and extremes of 18 to 74 years, in Togo with a mean age of 42.62 years and extremes of 20 and 82 years in the study conducted by Dosseh et al.^[13] in patients also with chronic renal failure at the dialysis stage. This value was slightly higher in Morocco in 2012, with an average age of 49.3 years in the study by Hasni et al.,^[14] and even higher in France, where the average age of dialysis patients reached 65 years in the study by Masse et al.^[15] This finding could be explained by better access to healthcare for populations in Maghreb and developed countries, compared with populations in sub-Saharan francophone Africa.^[16], ^[17]

Around 41% of patients in the study had been on haemodialysis for 12 to 60 months. This group also represented the majority of patients by Abe in 2016^[18] and Kropka in 2018^[12] in their series of hemodialysis patients still at the Abidjan SAMU. The average length of service in our series was 63 months, compared with 48 months in that of Taleb et al.,^[19] in Algeria in 2016.

This finding seems paradoxical in view of the better dialysis conditions in this country (11 hours per week versus 8 hours per week in Côte d'Ivoire). However, the explanation could lie in the greater access to kidney transplantation in North African countries, which would not oblige these patients to remain on dialysis for long periods.

The main objective of our study was to compare the VIDAS® BIO MERIEUX and SNIBE MAGLUMI PTH platforms in the monitoring of hemodialysis patients at the SAMU, based on previously established threshold values. After PTH measurement on both platforms, the values obtained for the same patients were very different. The values obtained on the MAGLUMI platform were much higher than those obtained on the VIDAS platform. This may be explained by the fact that, unlike the VIDAS platform, the MAGLUMI platform (2nd generation) assays various circulating forms of PTH other than the active 1-84 form, such as C-terminal and N-terminal fragments.^[20]

However, the use of threshold values for each platform, obtained from healthy subjects, enabled us to classify patients into different categories according to their PTH concentration. On the one hand, we had patients whose PTH value fell within the target range established on the basis of KDIGO guidelines: 280.4-1261.8 pg/ml on the MAGLUMI platform and 83.8-377.1 pg/ml on the VIDAS platform. On the other hand, we had patients whose PTH value was above the threshold value; 1261.8 pg/ml on MAGLUMI and 377.1 pg/ml on VIDAS. Thus, 86.15% of patients had concordant diagnoses on both assay platforms, whereas 13.85% of patients had discordant diagnoses from one platform to the other. Statistical analysis of these results using the Kappa test showed that this observed difference was not statistically significant. The diagnosis made by the two platforms are therefore superimposable using their respective target values. Several studies corroborate this observation. In 2012, Cavalier et al.^[21] compared several 2nd generation platforms, including Beckmann Access, Abbott Architect and Diasorin N-tact IRMA. The PTH concentrations given by this equipment for the same hemodialysis patients averaged 460, 330 and 197 pg/ml respectively for each assay platform. This shows a wide dispersion of results between 2nd generation assay platforms and the need to determine reference values for better harmonization of diagnoses. Similarly, J. Douglas et al.^[22] compared the MAGLUMI platform with seven other 2nd and 3rd generation automated systems, including the Beckman Access and Diasorin 1-84 PTH, after determining the upper limits of the normal value of the kit used, but this time in the context of primary hyperparathyroidism. This study showed that the 2nd and 3rd generation platforms gave the same clinical diagnoses in primary hyperparathyroidism when interpreted with the normal values established for each equipment. In 2018, to evaluate the performance of the VIDAS kit, a study conducted by BIO MERIEUX SA compared the results obtained with VIDAS and another commercially available PTH immunoassay (1-84) scored (X) in 21 patients recruited at 3 different time points. According to the new KDIGO guidelines, agreement between these two tests was 88.89% after statistical analysis. These studies are in line with our own. Furthermore, in 2012 Almond et al.^[23] carried out a pilot study in 21 haemodialysis patients on PTH measurement by five 2nd and 3rd generation immunoassay platforms namely; Beckman Access Dxl, Diasorin liaison, Roche modular E170, Siemens ADVIA centaur and Siemens Immulite 2000. The differences between the lowest and highest immunoassays ranged from 1.4 to 4.2 times, although the manufacturer's reference ranges for the lowest and highest immunoassays were similar (1- 6.5 and 1.2 -7.6 pmol/L, respectively).

The pilot study confirmed significant differences between dosages that are not reflected in the relevant reference intervals and could affect treatment decisions. In an in-depth study of 98 patients, the same authors showed that patients were classified differently according to immunoassays when manufacturers' reference interval data were used. They therefore recommended the use of normal values specific to each laboratory and platform for the interpretation of PTH concentrations.

Similarly, Cavalier et al. in 2018^[24] and Laradi et al.^[25] in 2014 also noted the importance of each laboratory establishing its reference values in order to optimize the accuracy of the diagnosis made. Thus, the limitation constituted by differences in PTH concentration given by different platforms can be circumvented by using normal values established for each platform for a given population.

Our study has therefore shown that, by establishing our threshold values at laboratory level, we can use either a second- or third-generation platform and obtain identical diagnosis.

Conclusion

The management of dialysis patients requires proper monitoring of biological parameters, including PTH levels. The interpretation of PTH values is an important aspect in the management of dialysis patients and the improvement of their quality of life. In our study, we compared two second- and third-generation assay platforms in the biological monitoring of dialysis patients at the SAMU (Abidjan), using threshold values previously established by the laboratory. Statistical analysis of the diagnoses provided by the two platforms showed no significant difference.

The PTH values given by these two platforms, which were extremely different, could be reconciled using the threshold values established by the laboratory. In other words, from a biological point of view, the results provided by the MAGLUMI platform (2nd generation) and those provided by the VIDAS platform (3rd generation) are superimposable. The EMS laboratory can therefore use either platform to monitor dialysis patients.

This study therefore confirms the need for each laboratory to establish its own PTH normal range, to ensure better monitoring of mineral-bone disorders linked to chronic kidney disease by clinicians.

Limitations of this Study

A larger sample would have been desirable to attest to this concordance of diagnosis between the two platforms.

Source of Funding

None.

Conflict of Interest

None.