Does bicarbonate therapy improve the management of severe diabetic ketoacidosis?

Complexities, Benefits, Risks, and Clinical Implications of Sodium Bicarbonate Administration in Critically Ill Patients: A State-of-the-Art Review

Sodium bicarbonate has been used in the treatment of different pathologies, such as hyperkalemia, cardiac arrest, tricyclic antidepressant toxicity, aspirin toxicity, acute acidosis, lactic acidosis, diabetic ketoacidosis, rhabdomyolysis, and adrenergic receptors' resistance to catecholamine in patients with shock. An ongoing debate about bicarbonate's efficacy and potential harm has been raised for decades because of the lack of evidence supporting its potential efficacy. Despite the guidelines' restrictions, sodium bicarbonate has been overused in clinical practice. The overuse of sodium bicarbonate could be because of the desire to correct the arterial blood gas parameters rapidly instead of achieving homeostasis by treating the cause of the metabolic acidosis. Moreover, it is believed that sodium bicarbonate may reverse acidosis-induced myocardial depression, hemodynamic instability, ventricular arrhythmias, impaired cellular energy production, resistance to catecholamines, altered metabolism, enzyme suppression, immune dysfunction, and ineffective oxygen delivery. On the other hand, it is crucial to pay attention to the potential harm that could be caused by excessive sodium bicarbonate administration. Sodium bicarbonate may cause paradoxical respiratory acidosis, intracellular acidosis, hypokalemia, hypocalcemia, alkalosis, impaired oxygen delivery, cerebrospinal fluid acidosis, and neurologic dysfunction. In this review, we discuss the pathophysiology of sodium bicarbonate-induced adverse effects and potential benefits. We also review the most recent clinical trials, observational studies, and guidelines discussing the use of sodium bicarbonate in different pathologies.

Management of diabetic keto-acidosis in adult patients admitted to intensive care unit: an ESICM-endorsed international survey

BACKGROUND

Guidelines for diabetic ketoacidosis (DKA) management are limited, resulting in varied practices. This study assessed Intensive Care Unit (ICU) admission criteria, fluid resuscitation, insulin therapy, and metabolic management in adult patients with DKA.

METHODS

An international survey of ICU clinicians consisted of 39 items that focused on management of DKA and was endorsed by the European Society of the Intensive Care Medicine. An experienced ICU was defined as a unit admitting > 20 patients with DKA per year.

RESULTS

A total of 522 respondents from 57 different countries participated: 295(57%) worked in Europe, 86(16%) in North America, 25(5%) in South America, 52(10%) in Africa, 52(10%) in Asia and 12(2%) in Oceania. Among respondents, 377(72%) worked in teaching hospitals, 355(68%) in medical-surgical ICUs, and 204(39%) in experienced ICUs. The pH value (< 7.20), arterial or venous bicarbonate concentration (< 15 mmol/L), and the need for continuous intravenous insulin (regardless of the dose) were considered criteria for ICU admission by 362(69%), 240(46%) and 264(51%) respondents, respectively. A protocol for fluid resuscitation was available for 290(63%) respondents, 135(29%) administered isotonic saline only, 173(38%) administered balanced solutions only, and 153(33%) administered both. A protocol for insulin therapy was available for 355(77%) respondents. An initial bolus of intravenous insulin was administered by 228(49%) respondents, 221(48%) used an initial continuous intravenous insulin dose of 0.1 UI/kg/h, 42(9%) used an initial predefined fixed dose, 159(35%) based the initial dose on blood glucose and 39(8%) on blood and/or urine ketones. Fluid choice and modalities of intravenous insulin administration did not differ between experienced and non-experienced ICUs. Intravenous insulin administration was more likely to be initiated upon ICU admission (57%vs.45%, p = 0.04) and less likely after initial fluid resuscitation (27%vs.35%, p = 0.04) in experienced ICUs. Arterial or venous pH was monitored by 408(90%) respondents. Arterial blood gases were favored by 236(52%) respondents and venous blood gases were more likely to be performed in experienced ICUs (30%vs.18%,p < 0.01).

CONCLUSIONS

The management of patients with DKA remains heterogeneous worldwide. Future randomized trials are needed, especially regarding fluid resuscitation and insulin therapy. Trial registrationNot applicable.

Sodium bicarbonate and intubation in severe diabetic ketoacidosis: are we too quick to dismiss them?

Management of diabetic ketoacidosis (DKA) has internationally established guidelines. However, management of severe, refractory DKA with multiple contributors to acidosis, and management of DKA in patients with altered mentation, remain ambiguous. Use of sodium bicarbonate and intubation in DKA are unpopular treatment practices, but warrant consideration in these unique clinical scenarios. This paper describes a 61-year-old Sri Lankan female who presented with severe DKA, seizures and altered level of consciousness. In her case, the acidosis was secondary to DKA, hyperlactatemia, hyperchloraemic acidosis and acute kidney injury (AKI). Intravenous sodium bicarbonate was used in the management of acidosis. She was intubated due to altered level of consciousness with inadequate respiratory drive to compensate for metabolic acidosis. The outcome in her case was favorable. Intravenous sodium bicarbonate in DKA should be considered for patients with severe, refractory acidosis with hemodynamic instability, hyperkalemia and compounding acidosis due to normal anion gap acidosis or AKI. Intubation should be considered for patients with obtunded mentation unable to achieve respiratory compensation and obtunded mentation where reversal of DKA is unlikely to improve consciousness. Both strategies should be personalized with consideration of individual risk vs benefit.

R. Limited significance of bicarbonate therapy in the treatment of diabetic ketoacidosis: a rare case report in the periphery of Nepal

Introduction and importance

An uncontrolled hyperglycaemia accompanied by metabolic acidosis and an increase in total body ketone, if left untreated, has the potential to develop into complications, including diabetes ketoacidosis (DKA). Management of this complication with IV hydration, IV Insulin, and potassium (KCL) maintenance is a comprehensive approach. On the contrary, bicarbonate therapy is generally not regarded as a standard treatment due to its unfavourable outcome.

Case presentation

The authors present a case of a 21-year-old female who was brought in a semiconscious state to the emergency department with complaints of pain in the abdomen, headache, and vomiting. DKA was diagnosed following the patient's symptoms and arterial blood gas analysis report. She was managed with IV fluids, IV insulin, and KCL.

Clinical discussion

Generally, pH less than 6.8 has a poor patient survival outcome. Here, the patient presented with pH less than 6.6, where she was managed with the standard regimen without the need to administer bicarbonate therapy.

Conclusion

DKA is a life-threatening condition that can be precipitated by non-adherence to medications and infections with IV insulin and hydration playing a pivotal role in its management while bicarbonate offers no beneficial effect.

Diabetic Ketoacidosis in Children and Adolescents; Diagnostic and Therapeutic Pitfalls

Diabetic ketoacidosis (DKA) represents an acute, severe complication of relative insulin deficiency and a common presentation of Type 1 Diabetes Mellitus (T1DM) primarily and, occasionally, Type 2 Diabetes Mellitus (T2DM) in children and adolescents. It is characterized by the biochemical triad of hyperglycaemia, ketonaemia and/or ketonuria, and acidaemia. Clinical symptoms include dehydration, tachypnoea, gastrointestinal symptoms, and reduced level of consciousness, precipitated by a variably long period of polyuria, polydipsia, and weight loss. The present review aims to summarize potential pitfalls in the diagnosis and management of DKA. A literature review was conducted using the Pubmed/Medline and Scopus databases including articles published from 2000 onwards. Diagnostic challenges include differentiating between T1DM and T2DM, between DKA and hyperosmolar hyperglycaemic state (HHS), and between DKA and alternative diagnoses presenting with overlapping symptoms, such as pneumonia, asthma exacerbation, urinary tract infection, gastroenteritis, acute abdomen, and central nervous system infection. The mainstays of DKA management include careful fluid resuscitation, timely intravenous insulin administration, restoration of shifting electrolyte disorders and addressing underlying precipitating factors. However, evidence suggests that optimal treatment remains a therapeutic challenge. Accurate and rapid diagnosis, prompt intervention, and meticulous monitoring are of major importance to break the vicious cycle of life-threatening events and prevent severe complications during this potentially fatal medical emergency.

A Review of Bicarbonate Use in Common Clinical Scenarios

BACKGROUND

The use of sodium bicarbonate to treat metabolic acidosis is intuitive, yet data suggest that not all patients benefit from this therapy.

OBJECTIVE

In this narrative review, we describe the physiology behind commonly encountered nontoxicologic causes of metabolic acidosis, highlight potential harm from the indiscriminate administration of sodium bicarbonate in certain scenarios, and provide evidence-based recommendations to assist emergency physicians in the rational use of sodium bicarbonate.

DISCUSSION

Sodium bicarbonate can be administered as a hypertonic push, as a resuscitation fluid, or as an infusion. Lactic acidosis and cardiac arrest are two common scenarios where there is limited benefit to routine use of sodium bicarbonate, although certain circumstances, such as patients with concomitant acute kidney injury and lactic acidosis may benefit from sodium bicarbonate. Patients with cardiac arrest secondary to sodium channel blockade or hyperkalemia also benefit from sodium bicarbonate therapy. Recent data suggest that the use of sodium bicarbonate in diabetic ketoacidosis does not confer improved patient outcomes and may cause harm in pediatric patients. Available evidence suggests that alkalinization of urine in rhabdomyolysis does not improve patient-centered outcomes. Finally, patients with a nongap acidosis benefit from sodium bicarbonate supplementation.

CONCLUSIONS

Empiric use of sodium bicarbonate in patients with nontoxicologic causes of metabolic acidosis is not warranted and likely does not improve patient-centered outcomes, except in select scenarios. Emergency physicians should reserve use of this medication to conditions with clear benefit to patients.

Management of diabetic ketoacidosis in special populations

Diabetic ketoacidosis (DKA) is an acute complication of diabetes mellitus that can be associated with increased morbidity and mortality, particularly if it is diagnosed late and not treated appropriately. The management of DKA includes careful clinical evaluation, correction of metabolic abnormalities with intravenous fluids, insulin and electrolyte replacement with frequent monitoring of the patients' clinical and laboratory findings and also identification and treatment of the precipitating condition. There are special populations where features, management and outcome may differ from the usual patient with diabetes. Data on management of DKA in such special populations such as chronic kidney disease and pregnancy are sparse and recommendations are based mainly on small case series and expert opinion. Clinicians need to recognize and manage euglycaemic DKA in patients prescribed sodium-glucose cotransporter inhibitors. DKA is particularly a major health concern due to high rates of hospital admissions and mortality in resource-limited settings due to financial constraints, limiting the adequate provision of insulin and access to health care systems, and dysfunctional health systems. We review the challenges of diagnosis and management of DKA in these specific groups and provide recommendations on optimal patient care.

Diagnostic et Prise en Charge de l’Acidose Métabolique Recommandations formalisées d’experts communes Société de réanimation de langue française (SRLF) – Société française de médecine d’urgence (SFMU)

L’acidose métabolique est un trouble fréquemment rencontré en médecine d’urgence et en médecine intensive réanimation. La littérature s’étant enrichie de nouvelles données concernant la prise en charge de l’acidose métabolique, la Société de Réanimation de Langue Française (SRLF) et la Société Française de Médecine d’Urgence (SFMU) ont élaboré des recommandations formalisées d’experts selon la méthodologie GRADE. Les champs de la stratégie diagnostique, de l’orientation et de la prise en charge thérapeutique ont été traités et vingt-neuf recommandations ont été formulées : quatre recommandations fortes (Grade 1), dix recommandations faibles (Grade 2) et quinze avis d’experts. Toutes ont obtenu un accord fort. L’application des méthodes d’Henderson-Hasselbalch et de Stewart pour le diagnostic du mécanisme de l’acidose métabolique est discutée et un algorithme diagnostique est proposé. L’utilisation de la cétonémie et des lactatémies veineuse et capillaire est également traitée. L’intérêt du pH, de la lactatémie et de sa cinétique pour l’orientation des patients en pré-hospitalier et aux urgences est envisagé. Enfin, les modalités de l’insulinothérapie au cours de l’acidocétose diabétique, les indications de la perfusion de bicarbonate de sodium et de l’épuration extra-rénale ainsi que les modalités de la ventilation mécanique au cours des acidoses métaboliques sévères sont traitées dans la prise en charge thérapeutique.

Diagnosis and management of metabolic acidosis: guidelines from a French expert panel

Metabolic acidosis is a disorder frequently encountered in emergency medicine and intensive care medicine. As literature has been enriched with new data concerning the management of metabolic acidosis, the French Intensive Care Society (Société de Réanimation de Langue Française [SRLF]) and the French Emergency Medicine Society (Société Française de Médecine d’Urgence [SFMU]) have developed formalized recommendations from experts using the GRADE methodology. The fields of diagnostic strategy, patient assessment, and referral and therapeutic management were addressed and 29 recommendations were made: 4 recommendations were strong (Grade 1), 10 were weak (Grade 2), and 15 were experts’ opinions. A strong agreement from voting participants was obtained for all recommendations. The application of Henderson–Hasselbalch and Stewart methods for the diagnosis of the metabolic acidosis mechanism is discussed and a diagnostic algorithm is proposed. The use of ketosis and venous and capillary lactatemia is also treated. The value of pH, lactatemia, and its kinetics for the referral of patients in pre-hospital and emergency departments is considered. Finally, the modalities of insulin therapy during diabetic ketoacidosis, the indications for sodium bicarbonate infusion and extra-renal purification as well as the modalities of mechanical ventilation during severe metabolic acidosis are addressed in therapeutic management.

Challenges in management of diabetic ketoacidosis in hemodialysis patients, case presentation and review of literature

Chronic kidney disease is associated with accumulation of uremic toxins that increases insulin resistance which will lead to blunted ability to suppress hepatic gluconeogenesis and reduce peripheral utilization of insulin. CKD patients fail to increase insulin secretion in response to insulin resistance because of acidosis, 1,25 vitamin D deficiency, and secondary hyperparathyroidism. Hemodialysis causes further fluctuations in glycemic control due to alterations in insulin secretion, clearance and resistance. DKA is uncommon in hemodialysis patients because of the absence of glycosuria and osmotic diuresis which accounts for most of the fluid and electrolyte losses seen in DKA, anuric patients may be somewhat protected from dehydration and shock, although still subject to hyperkalemia and metabolic acidosis. However, substantial volume loss can still occur due to a prolonged decrease in oral intake or increased insensible water losses related to tachypnoea and fever. There is no current guidelines for the management of diabetic ketoacidosis in anuric hemodialysis patients considering their differences than general population. In this review article we reviewed the literature and came with specific recommendations for management of Ketoacidosis in patients with CKD treated by hemodialysis.

Sodium bicarbonate therapy for critically ill patients with metabolic acidosis: A scoping and a systematic review

PURPOSE

We aimed to assess the biochemical and physiological effects, clinical efficacy, and safety, of intravenous NaHCO3 therapy in critically ill patients with acute metabolic acidosis.

METHODS

We conducted a scoping review concerning the biochemical and physiological effects of NaHCO3 (PART A), and a systematic review regarding clinical efficacy (PART B). We searched MEDLINE in Part A and MEDLINE, EMBASE, Cochrane, the National Institute of Health Clinical Trials Register, and the WHOICTRP for randomised controlled trials in Part B.

RESULTS

Twelve studies in Part A and two trials in Part B fulfilled the eligibility criteria. Intravenous NaHCO3 increased blood pH, base excess, serum bicarbonate, sodium, and PaCO2 during and after administration and decreased anion gap and potassium value. For clinical efficacy, only one study contributed to the effect estimate. The risk ratio (RR) for all-cause mortality was 0.83 (95% confidence interval, 0.68 to 1.02), and the risk of hypocalcaemia was increased in the bicarbonate group (RR 1.65, 95% confidence interval 1.09 to 2.50). There were inadequate data on hemodynamic indices.

CONCLUSIONS

Given the lack of data on the effects of intravenous NaHCO3 therapy to support its clinical use and the frequency of bicarbonate therapy, a program of investigation appears justified.

Use of sodium bicarbonate and blood gas monitoring in diabetic ketoacidosis: A review

Diabetic ketoacidosis (DKA) is a severe and too-common complication of uncontrolled diabetes mellitus. Acidosis is one of the fundamental disruptions stemming from the disease process, the complications of which are potentially lethal. Hydration and insulin administration have been the cornerstones of DKA therapy; however, adjunctive treatments such as the use of sodium bicarbonate and protocols that include serial monitoring with blood gas analysis have been much more controversial. There is substantial literature available regarding the use of exogenous sodium bicarbonate in mild to moderately severe acidosis; the bulk of the data argue against significant benefit in important clinical outcomes and suggest possible adverse effects with the use of bicarbonate. However, there is scant data to support or refute the role of bicarbonate therapy in very severe acidosis. Arterial blood gas (ABG) assessment is an element of some treatment protocols, including society guidelines, for DKA. We review the evidence supporting these recommendations. In addition, we review the data supporting some less cumbersome tests, including venous blood gas assessment and routine chemistries. It remains unclear that measurement of blood gas pH, via arterial or venous sampling, impacts management of the patient substantially enough to warrant the testing, especially if sodium bicarbonate administration is not being considered. There are special circumstances when serial ABG monitoring and/or sodium bicarbonate infusion are necessary, which we also review. Additional studies are needed to determine the utility of these interventions in patients with severe DKA and pH less than 7.0.

Diabetic ketoacidosis in adult patients: an audit of factors influencing time to normalisation of metabolic parameters

BACKGROUND

Diabetic ketoacidosis (DKA) is an acute life-threatening metabolic complication of diabetes that imposes substantial burden on our healthcare system. There is a paucity of published data in Australia assessing factors influencing time to resolution of DKA and length of stay (LOS).

AIMS

To identify factors that predict a slower time to resolution of DKA in adults with diabetes.

METHODS

Retrospective audit of patients admitted to St Vincent's Hospital Melbourne between 2010 to 2014 coded with a diagnosis of 'Diabetic Ketoacidosis'. The primary outcome was time to resolution of DKA based on normalisation of biochemical markers. Episodes of DKA within the wider Victorian hospital network were also explored.

RESULTS

Seventy-one patients met biochemical criteria for DKA; median age 31 years (26-45 years), 59% were male and 23% had newly diagnosed diabetes. Insulin omission was the most common precipitant (42%). Median time to resolution of DKA was 11 h (6.5-16.5 h). Individual factors associated with slower resolution of DKA were lower admission pH (P < 0.001) and higher admission serum potassium level (P = 0.03). Median LOS was 3 days (2-5 days), compared to a Victorian state-wide LOS of 2 days. Higher comorbidity scores were associated with longer LOS (P < 0.001).

CONCLUSIONS

Lower admission pH levels and higher admission serum potassium levels are independent predictors of slower time to resolution of DKA. This may assist to stratify patients with DKA using markers of severity to determine who may benefit from closer monitoring and to predict LOS.

The Role of Sodium Bicarbonate in the Management of Some Toxic Ingestions

Adverse reactions to commonly prescribed medications and to substances of abuse may result in severe toxicity associated with increased morbidity and mortality. According to the Center for Disease Control, in 2013, at least 2113 human fatalities attributed to poisonings occurred in the United States of America. In this article, we review the data regarding the impact of systemic sodium bicarbonate administration in the management of certain poisonings including sodium channel blocker toxicities, salicylate overdose, and ingestion of some toxic alcohols and in various pharmacological toxicities. Based on the available literature and empiric experience, the administration of sodium bicarbonate appears to be beneficial in the management of a patient with the above-mentioned toxidromes. However, most of the available evidence originates from case reports, case series, and expert consensus recommendations. The potential mechanisms of sodium bicarbonate include high sodium load and the development of metabolic alkalosis with resultant decreased tissue penetration of the toxic substance with subsequent increased urinary excretion. While receiving sodium bicarbonate, patients must be monitored for the development of associated side effects including electrolyte abnormalities, the progression of metabolic alkalosis, volume overload, worsening respiratory status, and/or worsening metabolic acidosis. Patients with oliguric/anuric renal failure and advanced decompensated heart failure should not receive sodium bicarbonate.

Is Bicarbonate Therapy Useful?

Despite concerns about the negative effects of metabolic acidosis, there is minimal evidence that sodium bicarbonate administration is an effective treatment. In addition, sodium bicarbonate therapy is associated with many adverse effects, including paradoxic intracellular acidosis, hypokalemia, hypocalcemia, hypernatremia, and hyperosmolality. Definitive recommendations regarding bicarbonate therapy are challenging as there is little high-quality evidence available. In most clinical scenarios of metabolic acidosis, treatment efforts should focus on resolution of the underlying cause, and sodium bicarbonate therapy should be used with caution, if at all. An exception to this is kidney disease, wherein sodium bicarbonate therapy may have a valuable role.

Retrospective evaluation of risk factors and outcome predictors in cats with diabetic ketoacidosis (1997-2007): 93 cases

OBJECTIVES

To determine risk factors and outcome predictors in cats with diabetic ketoacidosis (DKA).

DESIGN

Retrospective study. Inclusion in the DKA group required blood glucose concentration > 13.9 mmol/L (250 mg/dL), venous pH < 7.35, and urine or serum acetoacetate concentration greater than 1.5 mmol/L (15 mg/dL). Signalment and weight were recorded in all cats with uncomplicated diabetes mellitus (DM) without DKA and in all other nondiabetic cats examined during the study period. Clinicopathologic variables, concurrent disorders, and initial insulin intravenous (IV) continuous-rate infusion (CRI) concentration of 1.1 or 2.2 U/kg/240 mL bag of 0.9% NaCl, were examined for a possible association with outcome.

SETTING

University teaching hospital.

ANIMALS

Ninety-three cats with DKA, 682 cats with uncomplicated DM, and 16,926 cats without DM or DKA.

INTERVENTIONS

None.

MEASUREMENTS AND MAIN RESULTS

Cats with DKA were younger (median age 9.4 years; range, 1-17.9 years) than cats with uncomplicated DM (median 11.6 years; range 0.7-19.5 years, P < 0.0003). Siamese cats were overrepresented in the DKA group compared to the uncomplicated DM or nondiabetic group (P = 0.038 and P = 0.01, respectively). Poor outcome (defined as death due to disease or by euthanasia) in 36 cats with DKA (39%) was associated with increased initial creatinine, BUN, total serum magnesium, and total bilirubin concentrations (P = 0.007, P = 0.005, P = 0.03, P = 0.03, respectively). Cats treated with a higher concentration of insulin were less likely to have a poor outcome compared to cats treated with a lower concentration of insulin (odds ratio 0.14, 95% confidence interval 0.02-1.16, P = 0.02).

CONCLUSIONS

Cats with DKA are more likely to be Siamese than cats with uncomplicated DM. Poor outcome of cats with DKA is associated with increased initial creatinine, BUN, total magnesium, and total bilirubin concentrations. Good outcome was associated with a higher concentration of IV insulin CRI.

The evolution of diabetic ketoacidosis: An update of its etiology, pathogenesis and management

The prognosis of diabetic ketoacidosis has undergone incredibly remarkable evolution since the discovery of insulin nearly a century ago. The incidence and economic burden of diabetic ketoacidosis have continued to rise but its mortality has decreased to less than 1% in good centers. Improved outcome is attributable to a better understanding of the pathophysiology of the disease and widespread application of treatment guidelines. In this review, we present the changes that have occurred over the years, highlighting the evidence behind the recommendations that have improved outcome. We begin with a discussion of the precipitants and pathogenesis of DKA as a prelude to understanding the rationale for the recommendations. A brief review of ketosis-prone type 2 diabetes, an update relating to the diagnosis of DKA and a future perspective are also provided.

Sodium bicarbonate therapy in patients with metabolic acidosis

Metabolic acidosis occurs when a relative accumulation of plasma anions in excess of cations reduces plasma pH. Replacement of sodium bicarbonate to patients with sodium bicarbonate loss due to diarrhea or renal proximal tubular acidosis is useful, but there is no definite evidence that sodium bicarbonate administration to patients with acute metabolic acidosis, including diabetic ketoacidosis, lactic acidosis, septic shock, intraoperative metabolic acidosis, or cardiac arrest, is beneficial regarding clinical outcomes or mortality rate. Patients with advanced chronic kidney disease usually show metabolic acidosis due to increased unmeasured anions and hyperchloremia. It has been suggested that metabolic acidosis might have a negative impact on progression of kidney dysfunction and that sodium bicarbonate administration might attenuate this effect, but further evaluation is required to validate such a renoprotective strategy. Sodium bicarbonate is the predominant buffer used in dialysis fluids and patients on maintenance dialysis are subjected to a load of sodium bicarbonate during the sessions, suffering a transient metabolic alkalosis of variable severity. Side effects associated with sodium bicarbonate therapy include hypercapnia, hypokalemia, ionized hypocalcemia, and QTc interval prolongation. The potential impact of regular sodium bicarbonate therapy on worsening vascular calcifications in patients with chronic kidney disease has been insufficiently investigated.

Diabetic ketoacidosis in the pediatric emergency department

Despite many advances, the incidence of pediatric-onset diabetes and diabetic ketoacidosis (DKA) is increasing. Diabetes mellitus is 1 of the most common chronic pediatric illnesses and, along with DKA, is associated with significant cost and morbidity. DKA is a complicated metabolic state hallmarked by dehydration and electrolyte disturbances. Treatment involves fluid resuscitation with insulin and electrolyte replacement under constant monitoring for cerebral edema. When DKA is recognized and treated immediately, the prognosis is excellent. However, when a patient has prolonged or multiple courses of DKA or if DKA is complicated by cerebral edema, the results can be devastating.

Intravenous sodium bicarbonate therapy in severely acidotic diabetic ketoacidosis

BACKGROUND

The use of intravenous bicarbonate in diabetic ketoacidosis (DKA) may be considered for patients with a pH less than 6.9 according to the American Diabetes Association. The impact of this therapy on resolution of acidosis in patients with DKA is unclear.

OBJECTIVE

To determine whether the use of intravenous bicarbonate therapy was associated with improved outcomes in patients with severe DKA who were seen in the emergency department.

METHODS

This review was conducted from 2007 to 2011 in the emergency department of a tertiary teaching hospital. Adults diagnosed with DKA with an initial pH less than 7.0 were included. Patients were stratified into 2 groups based on receipt of intravenous bicarbonate. The primary study outcome was time to resolution of acidosis, defined as return to pH greater than 7.2. Secondary outcomes included length of stay; continuous infusion insulin use; and intravenous fluid, po tas si um, and insulin requirements within the first 24 hours of hospital admission, beginning upon admittance to the emergency department. We also conducted a subgroup analysis of patients with an initial pH less than 6.9.

RESULTS

There was no significant difference in time to resolution of acidosis (8 hours vs 8 hours; p = 0.7) or time to hospital discharge (68 hours vs 61 hours; p = 0.3) between patients who received intravenous bicarbonate (n = 44) compared with those who did not (n = 42). The median dose of intravenous bicarbonate was 100 mEq (100-150) for patients who received intravenous bicarbonate. Insulin and fluid requirements in the first 24 hours were significantly higher in patients who received intravenous bicarbonate compared with those who did not (100 units vs 86 units; p = 0.04 and 7.6 L vs 7.2 L; p = 0.01, respectively). There was no significant difference in hours of continuous insulin infusion (27 hours vs 26 hours; p = 0.09) or potassium requirements in the first 24 hours of hospital stay (135 mEq vs 120 mEq; p = 0.84).

CONCLUSIONS

Intravenous bicarbonate therapy did not decrease time to resolution of acidosis or time to hospital discharge for patients with DKA with an initial pH less than 7.0.

Severe diabetic ketoacidosis in combination with starvation and anorexia nervosa at onset of type 1 diabetes: a case report

We here report a case of diabetic ketoacidosis at onset of type 1 diabetes after a prolonged period of starvation due to anorexia nervosa. A 53-year-old female with a history of anorexia nervosa was admitted to the psychiatric clinic due to psychotic behaviour and inability to take care of herself. Twenty-four hours after admission she was transferred to the clinic of internal medicine due to altered mental status, and laboratory screening revealed a pH of 6.895 and blood glucose concentration of 40 mmol/L. Due to the unusual combination of prolonged starvation and diabetic ketoacidosis we implemented some modifications of existing treatment guidelines and some special considerations regarding nutrition in order to prevent a re-feeding syndrome.

Hypokalaemia and refractory asystole complicating diabetic ketoacidosis, lessons for prevention

We report a unique case of diabetic ketoacidosis in which a relatively low potassium level on admission was associated with consequent life-threatening and refractory arrhythmia secondary to inappropriate use of intravenous insulin and bicarbonate therapy. The latter was reversed by rapid bolus potassium injection. Although we do not advocate this approach in every case, we emphasise that a bolus injection of potassium may be life saving in such cases. The lessons from this case have led to multidisciplinary meetings and modification of the institute's diabetic ketoacidosis clinical pathway.

[Hyperglycemic crisis in patients with diabetes mellitus]

Diabetic ketoacidosis (DKA) and hyperosmolar hyperglycemic state (HHS) are the two most acute life-threatening complications of diabetes mellitus and in most cases treatment should be administered in an intensive care unit. Clinically, DKA and HHS differ according to the presence of metabolic acidosis; however, the treatment of DKA and HHS is similar. The main principles are intravenous administration of insulin and correction of fluid and electrolyte abnormalities which are typically present. By the application of a standardized treatment algorithm a low mortality rate can be achieved.

Evidence-based management of hyperglycemic emergencies in diabetes mellitus

The hyperglycemic emergencies, diabetic ketoacidosis (DKA) and hyperglycemic hyperosmolar state (HHS) are potentially fatal complications of uncontrolled diabetes mellitus. The incidence of DKA and the economic burden of its treatment continue to rise, but its associated mortality rate which was uniformly high has diminished remarkably over the years. This Improvement in outcome is largely due to better understanding of the pathogenesis of hyperglycemic emergencies and the application of evidence-based guidelines in the treatment of patients. In this article, we present a critical review of the evidence behind the recommendations that have resulted in the improved prognosis of patients with hyperglycemic crises. A succinct discussion of the pathophysiology and important etiological factors in DKA and HHS are provided as a prerequisite for understanding the rationale for the effective therapeutic maneuvers employed in these acute severe metabolic conditions. The evidence for the role of preventive measures in DKA and HHS is also discussed. The unanswered questions and future research needs are also highlighted.

Bicarbonate in diabetic ketoacidosis - a systematic review

Objective

This study was designed to examine the efficacy and risk of bicarbonate administration in the emergent treatment of severe acidemia in diabetic ketoacidosis (DKA).

Methods

PUBMED database was used to identify potentially relevant articles in the pediatric and adult DKA populations. DKA intervention studies on bicarbonate administration versus no bicarbonate in the emergent therapy, acid-base studies, studies on risk association with cerebral edema, and related case reports, were selected for review. Two reviewers independently conducted data extraction and assessed the citation relevance for inclusion.

Results

From 508 potentially relevant articles, 44 were included in the systematic review, including three adult randomized controlled trials (RCT) on bicarbonate administration versus no bicarbonate in DKA. We observed a marked heterogeneity in pH threshold, concentration, amount, and timing for bicarbonate administration in various studies. Two RCTs demonstrated transient improvement in metabolic acidosis with bicarbonate treatment within the initial 2 hours. There was no evidence of improved glycemic control or clinical efficacy. There was retrospective evidence of increased risk for cerebral edema and prolonged hospitalization in children who received bicarbonate, and weak evidence of transient paradoxical worsening of ketosis, and increased need for potassium supplementation. No studies involved patients with an initial pH < 6.85.

Conclusions

The evidence to date does not justify the administration of bicarbonate for the emergent treatment of DKA, especially in the pediatric population, in view of possible clinical harm and lack of sustained benefits.

Metabolic acid-base disorders in the critical care unit

The recognition and management of acid-base disorders is a commonplace activity in the critical care unit, and the role of weak and strong acids in the genesis of metabolic acid-base disorders is reviewed. The clinical approach to patients with metabolic alkalosis and metabolic acidosis is discussed in this article.

Physiological effects of hyperchloraemia and acidosis

The advent of balanced solutions for i.v. fluid resuscitation and replacement is imminent and will affect any specialty involved in fluid management. Part of the background to their introduction has focused on the non-physiological nature of 'normal' saline solution and the developing science about the potential problems of hyperchloraemic acidosis. This review assesses the physiological significance of hyperchloraemic acidosis and of acidosis in general. It aims to differentiate the effects of the causes of acidosis from the physiological consequences of acidosis. It is intended to provide an assessment of the importance of hyperchloraemic acidosis and thereby the likely benefits of balanced solutions.

Diabetic ketoacidosis: principles of management

The article ‘Diabetic ketoacidosis: principles of management’ by Sharma and Hadebe (vol 68(3), 2007, p. 184) contains several discrepancies.

Treatment of diabetic ketoacidosis in adults in Denmark: a national survey

The aims of this study were to investigate management routines of diabetic ketoacidosis (DKA) in adult patients in departments of internal medicine in Denmark and to relate current routines of treatment to available evidence. A questionnaire requesting information on management routines of DKA was sent to all departments of internal medicine in Denmark responsible of managing DKA. Fifty-nine departments (88%) returned the questionnaire and/or a copy of their management protocol. At 19 departments (32%), all patients with DKA were managed in an intensive care unit (ICU). Twenty-four different insulin regimens and 21 fluid protocols were identified. Routines of insulin therapy varied in terms of doses and routes of administration. Fifty-eight departments (97%) used isotonic saline for hydration. Potassium supplements were administered as a separate infusion of either isotonic potassium-sodium-chloride (83%) or isotonic potassium-chloride (10%). Recommended volumes to be administered during the first 8h of treatment varied significantly (median 4800ml, range 3750-7700ml). Use of bicarbonate was endorsed by 80%. This study shows significant variations in management routines of DKA in Denmark. In many cases, the treatment routines employed are not supported by evidence from clinical trials. We recommend implementation of national and/or European guidelines for management of DKA in adult patients.

Qu'apporte le modèle de Stewart à l'interprétation des troubles de l'équilibre acide–base?

OBJECTIVES

To explain the different approaches for interpreting acid-base disorders; to develop the Stewart model which offers some advantages for the pathophysiological understanding and the clinical interpretation of acid-base imbalances.

DATA SOURCE

Record of french and english references from Medline data base. The keywords were: acid-base balance, hyperchloremic acidosis, metabolic acidosis, strong ion difference, strong ion gap.

DATA EXTRACTION

Data were selected including prospective and retrospective studies, reviews, and case reports.

DATA SYNTHESIS

Acid-base disorders are commonly analysed by using the traditional Henderson-Hasselbalch approach which attributes the variations in plasma pH to the modifications in plasma bicarbonates or PaCO2. However, this approach seems to be inadequate because bicarbonates and PaCO2 are completely dependent. Moreover, it does not consider the role of weak acids such as albuminate, in the determination of plasma pH value. According to the Stewart concept, plasma pH results from the degree of plasma water dissociation which is determined by 3 independent variables: 1) strong ion difference (SID) which is the difference between all the strong plasma cations and anions; 2) quantity of plasma weak acids; 3) PaCO2. Thus, metabolic acid-base disorders are always induced by a variation in SID (decreased in acidosis) or in weak acids (increased in acidosis), whereas respiratory disorders remains the consequence of a change in PaCO2. These pathophysiological considerations are important to analyse complex acid-base imbalances in critically ill patients. For example, due to a decrease in weak acids, hypoalbuminemia increases SID which may counter-balance a decrease in pH and an elevated anion gap. Thus if using only traditional tools, hypoalbuminemia may mask a metabolic acidosis, because of a normal pH and a normal anion gap. In this case, the association of metabolic acidosis and alkalosis is only expressed by respectively a decreased SID and a decreased weak acids concentration. This concept allows to establish the relationship between hyperchloremic acidosis and infusion of solutes which contain large concentration of chloride such as NaCl 0.9%. Finally, the Stewart concept permits to understand that sodium bicarbonate as well as sodium lactate induces plasma alkalinization. In fact, sodium remains in plasma, whereas anion (lactate or bicarbonate) are metabolized leading to an increase in plasma SID.

CONCLUSION

Due to its simplicity, the traditional Henderson-Hasselbalch approach of acid-base disorders, remains commonly used. However, it gives an inadequate pathophysiological analysis which may conduct to a false diagnosis, especially with complex acid-base imbalances. Despite its apparent complexity, the Stewart concept permits to understand precisely the mechanisms of acid-base disorders. It has to become the most appropriate approach to analyse complex acid-base abnormalities.

Diabetic ketoacidosis: principles of management

Diabetic ketoacidosis has a mortality of up to 14% in the UK, which could be attributed to varied treatment policies and a lack of a general consensus statement on its management. This article provides comprehensive guidelines for management of adult patients in diabetic ketoacidosis.

Hyperglycemic crises in diabetes mellitus: diabetic ketoacidosis and hyperglycemic hyperosmolar state

Diabetic ketoacidosis (DKA) and hyperglycemic hyperosmolar state (HHS) potentially are fatal but largely preventable acute metabolic conditions of uncontrolled diabetes, the incidence of which continues to increase. Mortality from DKA has declined remarkably over the years because of better understanding of its pathophysiology and treatment. The mortality rate of HHS remains alarmingly high, however, owing to older age and mode of presentation of patients and associated comorbid conditions. DKA and HHS also are economically burdensome; therefore, any resources invested in their prevention would be rewarding.