Trends of Kalemia at Diagnosis of Acidosis versus Non-Acidosis Diabetic Ketosis Décompensations in Ouagadougou ( Burkina Faso )

Introduction: Electrolyte’s profile in non-acidosis diabetic ketosis is poorly specified. We aimed to determine the nature of diabetic ketosis decompensations as well as the profile of kalemia and factors associated with its disorders at diagnosis of acidosis compared to non-acidosis diabetic ketosis. Methods: The study was retrospective from 1 January 2010 to 31 December 2011 in Yalgado Ouédraogo teaching hospital. Diabetic in-patients suffering from simple ketosis, keto-acidosis or mixed decompensation, who achieved blood electrolytes assessment before intensive insulin therapy were included. Results: Sixty two patients were studied. The sex ratio was 0.7 and the mean age was 41.7 years. Keto-acidosis, simple ketosis and mixed decompensation were diagnosed respectively in 18 (29%), 32 (51.6%) and 12 (19.4%) patients. Kalemia was normal in 42 (67.7%), while hypokalemia and hyperkalemia were reported respectively in 11 (17.8%) and 9 (14.5%) patients. Kalemia was often normal in all types of ketosis decompensation and disorders of kalemia occurred more in patients with keto-acidosis (50%) than those with simple ketosis (21.9%); p = 0.04. Renal failure was diagnosed in 10 patients (50%) with and 2 (4.8%) without kalemia’s disorders; p = 0.0001. Seven patients (35%) with and 4 (9.5%) without kalemia’s disorders suffered from unconsciousness; p = 0.02. It happens more in hyperkalemia (44.4%) than in Corresponding author.


Introduction
Hyperglycemic emergencies are acute life-threatening disorders [1]- [4].Among these emergencies, diabetic ketoses are hyperglycemic states with an increase in ketogenesis (acetoacetate and beta-hydroxybutyrate) resulting from a severe deficiency of insulin and high levels of hormones that oppose the effects of insulin, particularly glucagon.Depending on the stage of diagnosis and the content in ketone bodies, diabetic ketosis initially consists of a simple ketosis, and in the lack of an adequate management, it leads to ketoacidosis and sometimes to clinical forms combining hyperosmolarity.These emergencies are common and pejorative in low-income countries because of social, economic and medical barriers to their prevention, their early diagnosis and their treatment.So, hyperglycemic emergencies are the leading cause of diabetic patients' hospitalization and diabetesrelated death in Nigeria [5].The poor prognosis is partly correlated to various electrolytes disorders.Among these, potassium's disorders (occurring at diagnosis and/or during the intensive insulin therapy) are deleterious because of cardiac, neurogical and muscular dysfunctions they cause; these troubles are an obsession during the management of hyperglycemic emergencies.Potassium's disorders result from modifications in cellular exchanges and renal excretion of potassium in acid-base imbalance, severe insulin openia and renal failure conditions during these emergencies, as well as intensive insulin supply [6]- [9].According to pathophysiological mechanisms, hyperkalemia is the common expected profile of kalemia at diagnosis of ketoacidosis.But, diabetic ketosis emergencies present phenotypes devoid of acidosis (simple diabetic ketosis decompensation).Studies don't address electrolytes disorders in these clinical forms increasingly reported in type 2 ketosis prone diabetes, a type 2 diabetes whose pathogenesis is nowadays unclear [10] [11].Are electrolytes disorders similar to what are observed in keto-acidosis?We compared the profile of kalemia in different types of diabetic ketosis and investigated factors associated with its disorders.Findings could help to an efficient management of potassium's supplementation during the initial care of these metabolic emergencies, especially those without acidosis in Ouagadougou.

Design of the Study
The study was retrospective from 1 January 2010 to 31 December 2011 in the department of Internal Medicine, Yalgado Ouédraogo teaching hospital (CHUYO).

Patient's Selection
In-patients suffering from simple diabetic ketosis, keto-acidosis or mixed decompensation, who achieved blood electrolytes assessment before the beginning of intensive insulin therapy, were included.Those who reported treatments disturbing kalemia or a previous renal failure were not included.

Ethical Considerations
The institutional committee has approved the study.For this retrospective study, no nominative data were collected and data's confidentiality was monitored during the study.

Statistical Considerations
Data were collected from a questionnaire specifying the epidemiological characteristics of diabetes, phenotypes of ketosis decompensation, value of kalemia, factors associated with different level of kalemia.Analysis was by Fisher's tests to compare qualitative variables and Student's test to compare quantitative variables.A p value of less than 0.05 was significant.

Discussion
Simple ketosis was the most frequent ketosis emergencies phenotype (51.6%).Disorders of kalemia were initially diagnosed in 32.3% patients and were associated with renal failure.Our findings are subject to a selection bias relevant to the non-inclusion of a third of patients who didn't achieve electrolytes assessment.Simple ketosis often corresponded to type 2 ketosis prone diabetes, confirming the significance of this type of diabetes in black Africans [10] [11].The frequency of mixed ketosis emergencies (19.4%) was less than the 30% and 33% reported respectively in Australia (30%) and Rhode Island (33%) [1] [12], partly, because of differences in the calculation of plasma osmolarity and the definition of hyperosmolarity [3] [12].The average kalemia, i.e. 4.3 mmol/l was lower than findings in an U.S. study, i.e. 5.55 mmol/l in males and 5.03 mmol/l in females [8].In our study, kalemia was often normal in the initial phase of all types of diabetic ketosis, especially in simple ketosis.Otherwise, hypokalemia was the common abnormality (17.8%).Authors report this disorder in ketosis emergencies with a frequency ranged from 5.6% to 47% [2] [13] [14], and kalemia sometimes can collapse below 2 mmol/l [13].Because low normal or normal kalemia during these emergencies result in an absolute depletion of potassium, the risk of iatrogenic hypokalemia prompt to delay the onset of intensive insulin therapy as long as potassium is below 3.3 mmol/l [4] [15].Given this, recommendations to empirically defer when kalemia's monitoring is unavailable supplements in potassium at least two hours after starting intensive insulin therapy can be harmful for the majority of our patients with normal or low blood potassium.Thus, assessment of kalemia is essential to an efficient and safety management in hyperglycemic emergencies.
At diagnosis, hyperkalemia was unusual in ketosis emergencies and wasn't more frequent in acidosis compared to non-acidosis conditions.This implies for its pathogenesis other mechanisms than acidosis: the role of ketone bodies was discussed, but to date is recalled in favor of major insulinopenia and renal failure [7].The relation between hyperkalemia and renal failure appears in our study, hyperkalemia resulting certainly from decrease in renal potassium loss and renal acidosis [2] [7] [8].Moreover, hyperkalemia is classically expected in keto-acidosis [4] [8].This observation was not common in our patients (22.2%) and in Nigerian's patients (2.1%) [2], compared to 32% reported by Van Gal [9].In developing countries, medical care is often tardy and hyperkalemia can be canceled because of significant urinary potassium loss secondary to massive glucosuria.In our observation, unconsciousness was rather common in hyperkalemia.Renal failure could through uremic encephalopathy be a promoting factor of these neurological anomalies in patients.Cerebral dysfunction consecutive to hypokalemia has been described in a diabetic patient [16].

Conclusion
Potassium's disorders could occur in all type of diabetic ketosis emergencies.But, despite expectations, kalemia is often normal, otherwise hypokalemia is the most frequent disorder in simple ketosis and keto-acidosis emergencies in our patients.Initial empiric management of potassium supplementation without kalemia's status ac- 25 (78.2%) 8 (66.7%)A − B = 0.04 A − C = 0.30 B − C = 0.33

Table 1 .
Demographic characteristics and average blood glucose in patients according to the phenotype of diabetic ketosis.

Table 2 .
Frequency of different levels of kalemia depending on the phenotype of diabetic ketosis.

Table 3 .
Factors associated with different levels of kalemia in the initial phase of diabetes ketosis emergency.