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Why Is There Low Potassium In Dka?

Severe Hyperkalaemia In Association With Diabetic Ketoacidosis In A Patient Presenting With Severe Generalized Muscle Weakness

Severe Hyperkalaemia In Association With Diabetic Ketoacidosis In A Patient Presenting With Severe Generalized Muscle Weakness

Diabetic ketoacidosis (DKA) is an acute, life‐threatening metabolic complication of diabetes mellitus. Hyperglycaemia, ketosis (ketonaemia or ketonuria) and acidosis are the cardinal features of DKA [1]. Other features that indicate the severity of DKA include volume depletion, acidosis and concurrent electrolyte disturbances, especially abnormalities of potassium homeostasis [1,2]. We describe a type 2 diabetic patient presenting with severe generalized muscle weakness and electrocardiographic evidence of severe hyperkalaemia in association with DKA and discuss the related pathophysiology. A 65‐year‐old male was admitted because of impaired mental status. He was a known insulin‐treated diabetic on quinapril (20 mg once daily) and was taking oral ampicillin 500 mg/day because of dysuria which had started 5 days prior to admission. He was disoriented in place and time with severe generalized muscle weakness; he was apyrexial (temperature 36.4°C), tachycardic (120 beats/min) and tachypneic (25 respirations/min) with cold extremities (supine blood pressure was 100/60 mmHg). An electrocardiogram (ECG) showed absent P waves, widening of QRS (‘sine wave’ in leads I, II, V5 and V6), depression of ST segments and tall peaked symmetrical T waves in leads V3–V6 (Figure 1). Blood glucose was 485 mg/dl, plasma creatinine 5.1 mg/dl (reference range (r.r.) 0.6–1.2 mg/dl, measured by the Jaffe method), urea 270 mg/dl (r.r. 11–54 mg/dl), albumin 4.2 g/dl (r.r. 3.4–4.7 g/dl), sodium 136 mmol/l (r.r. 135–145 mmol/l), chloride 102 mmol/l (r.r. 98–107 mmol/l), potassium 8.3 mmol/l (r.r. 3.5–5.4 mmol/l), phosphorus 1.6 mmol/l (r.r. 0.8–1.45 mmol/l) and magnesium 0.62 mmol/l (r.r. 0.75–1.25 mmol/l). A complete blood count revealed leukocytosis (12 090/µl with Continue reading >>

Diabetic Ketoacidosis - Symptoms

Diabetic Ketoacidosis - Symptoms

A A A Diabetic Ketoacidosis Diabetic ketoacidosis (DKA) results from dehydration during a state of relative insulin deficiency, associated with high blood levels of sugar level and organic acids called ketones. Diabetic ketoacidosis is associated with significant disturbances of the body's chemistry, which resolve with proper therapy. Diabetic ketoacidosis usually occurs in people with type 1 (juvenile) diabetes mellitus (T1DM), but diabetic ketoacidosis can develop in any person with diabetes. Since type 1 diabetes typically starts before age 25 years, diabetic ketoacidosis is most common in this age group, but it may occur at any age. Males and females are equally affected. Diabetic ketoacidosis occurs when a person with diabetes becomes dehydrated. As the body produces a stress response, hormones (unopposed by insulin due to the insulin deficiency) begin to break down muscle, fat, and liver cells into glucose (sugar) and fatty acids for use as fuel. These hormones include glucagon, growth hormone, and adrenaline. These fatty acids are converted to ketones by a process called oxidation. The body consumes its own muscle, fat, and liver cells for fuel. In diabetic ketoacidosis, the body shifts from its normal fed metabolism (using carbohydrates for fuel) to a fasting state (using fat for fuel). The resulting increase in blood sugar occurs, because insulin is unavailable to transport sugar into cells for future use. As blood sugar levels rise, the kidneys cannot retain the extra sugar, which is dumped into the urine, thereby increasing urination and causing dehydration. Commonly, about 10% of total body fluids are lost as the patient slips into diabetic ketoacidosis. Significant loss of potassium and other salts in the excessive urination is also common. The most common Continue reading >>

Hypothermia And Hypokalemia In A Patient With Diabetic Ketoacidosis

Hypothermia And Hypokalemia In A Patient With Diabetic Ketoacidosis

We present the case of a 36-year-old man with type-1 diabetes who was hospitalized with diabetic ketoacidosis (DKA). On admission, he had hypothermia, hypokalemia and combined metabolic and respiratory alkalosis, in addition to hyperglycemia. Hypothermia, hypokalemia and metabolic alkalosis, with a concurrent respiratory alkalosis, are not commonly seen in DKA. After admission, intravenous infusion of 0.45% saline was administered, which resulted in the development of pure metabolic acidosis. After starting insulin infusion, hypokalemia and hypophosphatemia became evident and finally resulted in massive rhabdomyolysis. Hyperkalemia accompanying oliguric acute kidney injury (AKI) warranted initiation of hemodialysis (HD) on Day-five. On the 45th hospital day, his urine output started to increase and a total of 22 HD sessions were required. We believe that in this case severe dehydration, hypothermia and hypokalemia might have contributed to the initial symptoms of DKA as well as the prolongation of AKI. How to cite this article: Saito O, Saito T, Sugase T, Kusano E, Nagata D. Hypothermia and hypokalemia in a patient with diabetic ketoacidosis. Saudi J Kidney Dis Transpl 2015;26:580-3 Diabetic ketoacidosis (DKA) is a combination of the biochemical triad of hyperglycemia, ketonemia and metabolic acidosis. [1] Initial hypokalemia in DKA is a rare finding, with an incidence of 4-10%. [2] Hypothermia is rarely seen in patients with DKA, and the prognosis of this association is poor, with a mortality of 60% in the Western countries. [3] Also, combined metabolic and respiratory alkalosis is rarely seen in DKA, with an incidence of 7.5%. [4] We herewith report the case of a 36-year-old man with type-1 diabetes who was admitted to the hospital with DKA in association with hypothe Continue reading >>

Diabetic Ketoacidosis

Diabetic Ketoacidosis

Print Overview Diabetic ketoacidosis is a serious complication of diabetes that occurs when your body produces high levels of blood acids called ketones. The condition develops when your body can't produce enough insulin. Insulin normally plays a key role in helping sugar (glucose) — a major source of energy for your muscles and other tissues — enter your cells. Without enough insulin, your body begins to break down fat as fuel. This process produces a buildup of acids in the bloodstream called ketones, eventually leading to diabetic ketoacidosis if untreated. If you have diabetes or you're at risk of diabetes, learn the warning signs of diabetic ketoacidosis — and know when to seek emergency care. Symptoms Diabetic ketoacidosis signs and symptoms often develop quickly, sometimes within 24 hours. For some, these signs and symptoms may be the first indication of having diabetes. You may notice: Excessive thirst Frequent urination Nausea and vomiting Abdominal pain Weakness or fatigue Shortness of breath Fruity-scented breath Confusion More-specific signs of diabetic ketoacidosis — which can be detected through home blood and urine testing kits — include: High blood sugar level (hyperglycemia) High ketone levels in your urine When to see a doctor If you feel ill or stressed or you've had a recent illness or injury, check your blood sugar level often. You might also try an over-the-counter urine ketones testing kit. Contact your doctor immediately if: You're vomiting and unable to tolerate food or liquid Your blood sugar level is higher than your target range and doesn't respond to home treatment Your urine ketone level is moderate or high Seek emergency care if: Your blood sugar level is consistently higher than 300 milligrams per deciliter (mg/dL), or 16.7 mill Continue reading >>

Electrolyte Imbalance In Diabetic Ketoacidosis

Electrolyte Imbalance In Diabetic Ketoacidosis

If you have diabetes, it's important to be familiar with diabetic ketoacidosis (DKA). DKA is a serious complication of diabetes that occurs when lack of insulin and high blood sugar lead to potentially life-threatening chemical imbalances. The good news is DKA is largely preventable. Although DKA is more common with type 1 diabetes, it can also occur with type 2 diabetes. High blood sugar causes excessive urination and spillage of sugar into the urine. This leads to loss of body water and dehydration as well as loss of important electrolytes, including sodium and potassium. The level of another electrolyte, bicarbonate, also falls as the body tries to compensate for excessively acidic blood. Video of the Day Insulin helps blood sugar move into cells, where it is used for energy production. When insulin is lacking, cells must harness alternative energy by breaking down fat. Byproducts of this alternative process are called ketones. High concentrations of ketones acidify the blood, hence the term "ketoacidosis." Acidosis causes unpleasant symptoms like nausea, vomiting and rapid breathing. Bicarbonate is an electrolyte that normally counteracts blood acidity. In DKA, the bicarbonate level falls as ketone production increases and acidosis progresses. Treatment of DKA includes prompt insulin supplementation to lower blood sugar, which leads to gradual restoration of the bicarbonate level. Potassium may be low in DKA because this electrolyte is lost due to excessive urination or vomiting. When insulin is used to treat DKA, it can further lower the blood potassium by pushing it into cells. Symptoms associated with low potassium include fatigue, muscle weakness, muscle cramps and an irregular heart rhythm. Severely low potassium can lead to life-threatening heart rhythm abnorm Continue reading >>

Why Is There Hyperkalemia In Diabetic Ketoacidosis?

Why Is There Hyperkalemia In Diabetic Ketoacidosis?

Lack of insulin, thus no proper metabolism of glucose, ketones form, pH goes down, H+ concentration rises, our body tries to compensate by exchanging K+ from inside the cells for H+ outside the cells, hoping to lower H+ concentration, but at the same time elevating serum potassium. Most people are seriously dehydrated, so are in acute kidney failure, thus the kidneys aren’t able to excrete the excess of potassium from the blood, compounding the problem. On the other hand, many in reality are severely potassium depleted, so once lots of fluid so rehydration and a little insulin is administered serum potassium will plummet, so needs to be monitored 2 hourly - along with glucose, sodium and kidney function - to prevent severe hypokalemia causing fatal arrhythmias, like we experienced decades ago when this wasn’t so well understood yet. In practice, once the patient started peeing again, we started adding potassium chloride to our infusion fluids, the surplus potassium would be peed out by our kidneys so no risk for hyperkalemia. Continue reading >>

Diabetic Ketoacidosis

Diabetic Ketoacidosis

Abbas E. Kitabchi, PhD., MD., FACP, FACE Professor of Medicine & Molecular Sciences and Maston K. Callison Professor in the Division of Endocrinology, Diabetes & Metabolism UT Health Science Center, 920 Madison Ave., 300A, Memphis, TN 38163 Aidar R. Gosmanov, M.D., Ph.D., D.M.Sc. Assistant Professor of Medicine, Division of Endocrinology, Diabetes & Metabolism, The University of Tennessee Health Science Center, 920 Madison Avenue, Suite 300A, Memphis, TN 38163 Clinical Recognition Omission of insulin and infection are the two most common precipitants of DKA. Non-compliance may account for up to 44% of DKA presentations; while infection is less frequently observed in DKA patients. Acute medical illnesses involving the cardiovascular system (myocardial infarction, stroke, acute thrombosis) and gastrointestinal tract (bleeding, pancreatitis), diseases of endocrine axis (acromegaly, Cushing`s syndrome, hyperthyroidism) and impaired thermo-regulation or recent surgical procedures can contribute to the development of DKA by causing dehydration, increase in insulin counter-regulatory hormones, and worsening of peripheral insulin resistance. Medications such as diuretics, beta-blockers, corticosteroids, second-generation anti-psychotics, and/or anti-convulsants may affect carbohydrate metabolism and volume status and, therefore, could precipitateDKA. Other factors: psychological problems, eating disorders, insulin pump malfunction, and drug abuse. It is now recognized that new onset T2DM can manifest with DKA. These patients are obese, mostly African Americans or Hispanics and have undiagnosed hyperglycemia, impaired insulin secretion, and insulin action. A recent report suggests that cocaine abuse is an independent risk factor associated with DKA recurrence. Pathophysiology In Continue reading >>

Profound Hypokalemia Associated With Severe Diabetic Ketoacidosis

Profound Hypokalemia Associated With Severe Diabetic Ketoacidosis

Go to: Abstract Hypokalemia is common during the treatment of diabetic ketoacidosis (DKA); however, severe hypokalemia at presentation prior to insulin treatment is exceedingly uncommon. A previously healthy 8-yr-old female presented with new onset type 1 diabetes mellitus, severe DKA (pH = 6.98), and profound hypokalemia (serum K = 1.3 mmol/L) accompanied by cardiac dysrhythmia. Insulin therapy was delayed for 9 h to allow replenishment of potassium to safe serum levels. Meticulous intensive care management resulted in complete recovery. This case highlights the importance of measuring serum potassium levels prior to initiating insulin therapy in DKA, judicious fluid and electrolyte management, as well as delaying and/or reducing insulin infusion rates in the setting of severe hypokalemia. Keywords: diabetic ketoacidosis, hypokalemia, insulin, low-dose insulin drip, pediatric Nearly one third of children with newly diagnosed type 1 diabetes present in diabetic ketoacidosis (DKA). Higher proportions of young children and those from disadvantaged socioeconomic groups present with DKA (1). DKA is the leading cause of mortality among children with diabetes, and electrolyte abnormalities are a recognized complication of DKA contributing to morbidity and mortality (2, 3). Total body potassium deficiency of 3-6 mEq/kg is expected at presentation of DKA due to osmotic diuresis, emesis, and secondary hyperaldosteronism; however, pretreatment serum potassium levels are usually not low due to the extracellular shift of potassium that occurs with acidosis and insulin deficiency (3, 4). After insulin treatment is initiated, potassium shifts intracellularly and serum levels decline. Replacement of potassium in intravenous fluids is the standard of care in treatment of DKA to prevent Continue reading >>

Diabetic Ketoacidosis In Dogs

Diabetic Ketoacidosis In Dogs

My dog is diabetic. He has been doing pretty well overall, but recently he became really ill. He stopped eating well, started drinking lots of water, and got really weak. His veterinarian said that he had a condition called “ketoacidosis,” and he had to spend several days in the hospital. I’m not sure I understand this disorder. Diabetic ketoacidosis is a medical emergency that occurs when there is not enough insulin in the body to control blood sugar (glucose) levels. The body can’t use glucose properly without insulin, so blood glucose levels get very high, and the body creates ketone bodies as an emergency fuel source. When these are broken down, it creates byproducts that cause the body’s acid/base balance to shift, and the body becomes more acidic (acidosis), and it can’t maintain appropriate fluid balance. The electrolyte (mineral) balance becomes disrupted which can lead to abnormal heart rhythms and abnormal muscle function. If left untreated, diabetic ketoacidosis is fatal. How could this disorder have happened? If a diabetic dog undergoes a stress event of some kind, the body secretes stress hormones that interfere with appropriate insulin activity. Examples of stress events that can lead to diabetic ketoacidosis include infection, inflammation, and heart disease. What are the signs of diabetic ketoacidosis? The signs of diabetic ketoacidosis include: Excessive thirst/drinking Increased urination Lethargy Weakness Vomiting Increased respiratory rate Decreased appetite Weight loss (unplanned) with muscle wasting Dehydration Unkempt haircoat These same clinical signs can occur with other medical conditions, so it is important for your veterinarian to perform appropriate diagnostic tests to determine if diabetic ketoacidosis in truly the issue at hand Continue reading >>

What Is Diabetic Ketoacidosis?

What Is Diabetic Ketoacidosis?

Diabetic ketoacidosis is a serious condition characterized by high blood sugar (hyperglycemia), low insulin, and the presence of moderate to large amounts of ketones in the blood. It's a medical emergency that requires treatment in a hospital. If not treated in a timely fashion, ketoacidosis can lead to coma and death. While diabetic ketoacidosis (or DKA) is much more common among people with type 1 diabetes, it can also occur in people with type 2 diabetes, so ketone monitoring is something everyone with diabetes should understand. Diabetic Ketoacidosis Symptoms Signs and symptoms of ketoacidosis include: Thirst or a very dry mouth Frequent urination Fatigue and weakness Nausea Vomiting Dry or flushed skin Abdominal pain Deep breathing A fruity breath odor What Are Ketones? Ketones, or ketone bodies, are acidic byproducts of fat metabolism. It's normal for everyone to have a small amount of ketones in the bloodstream, and after a fast of 12 to16 hours, there may be detectable amounts in the urine. As is the case with glucose, if blood levels of ketones get too high, they spill over into the urine. An elevated level of ketones in the blood is known as ketosis. People who follow low-carbohydrate diets often speak of ketosis as a desirable state — it's evidence that their bodies are burning fat, not carbohydrate. But the level of ketosis that results from low carbohydrate consumption isn't harmful and is much lower than the level seen in diabetic ketoacidosis. When Should Ketones Be Monitored? Ketone monitoring is less of a concern for people with type 2 diabetes than for those with type 1 diabetes. This is because most people with type 2 diabetes still make some of their own insulin, making diabetic ketoacidosis less likely to develop. Nonetheless, people with type 2 d Continue reading >>

Diabetic Ketoacidosis

Diabetic Ketoacidosis

Diabetic ketoacidosis (DKA) is a potentially life-threatening complication of diabetes mellitus.[1] Signs and symptoms may include vomiting, abdominal pain, deep gasping breathing, increased urination, weakness, confusion, and occasionally loss of consciousness.[1] A person's breath may develop a specific smell.[1] Onset of symptoms is usually rapid.[1] In some cases people may not realize they previously had diabetes.[1] DKA happens most often in those with type 1 diabetes, but can also occur in those with other types of diabetes under certain circumstances.[1] Triggers may include infection, not taking insulin correctly, stroke, and certain medications such as steroids.[1] DKA results from a shortage of insulin; in response the body switches to burning fatty acids which produces acidic ketone bodies.[3] DKA is typically diagnosed when testing finds high blood sugar, low blood pH, and ketoacids in either the blood or urine.[1] The primary treatment of DKA is with intravenous fluids and insulin.[1] Depending on the severity, insulin may be given intravenously or by injection under the skin.[3] Usually potassium is also needed to prevent the development of low blood potassium.[1] Throughout treatment blood sugar and potassium levels should be regularly checked.[1] Antibiotics may be required in those with an underlying infection.[6] In those with severely low blood pH, sodium bicarbonate may be given; however, its use is of unclear benefit and typically not recommended.[1][6] Rates of DKA vary around the world.[5] In the United Kingdom, about 4% of people with type 1 diabetes develop DKA each year, while in Malaysia the condition affects about 25% a year.[1][5] DKA was first described in 1886 and, until the introduction of insulin therapy in the 1920s, it was almost univ Continue reading >>

Diabetic Ketoacidosis

Diabetic Ketoacidosis

Initial Evaluation Initial evaluation of patients with DKA includes diagnosis and treatment of precipitating factors (Table 14–18). The most common precipitating factor is infection, followed by noncompliance with insulin therapy.3 While insulin pump therapy has been implicated as a risk factor for DKA in the past, most recent studies show that with proper education and practice using the pump, the frequency of DKA is the same for patients on pump and injection therapy.19 Common causes by frequency Other causes Selected drugs that may contribute to diabetic ketoacidosis Infection, particularly pneumonia, urinary tract infection, and sepsis4 Inadequate insulin treatment or noncompliance4 New-onset diabetes4 Cardiovascular disease, particularly myocardial infarction5 Acanthosis nigricans6 Acromegaly7 Arterial thrombosis, including mesenteric and iliac5 Cerebrovascular accident5 Hemochromatosis8 Hyperthyroidism9 Pancreatitis10 Pregnancy11 Atypical antipsychotic agents12 Corticosteroids13 FK50614 Glucagon15 Interferon16 Sympathomimetic agents including albuterol (Ventolin), dopamine (Intropin), dobutamine (Dobutrex), terbutaline (Bricanyl),17 and ritodrine (Yutopar)18 DIFFERENTIAL DIAGNOSIS Three key features of diabetic acidosis are hyperglycemia, ketosis, and acidosis. The conditions that cause these metabolic abnormalities overlap. The primary differential diagnosis for hyperglycemia is hyperosmolar hyperglycemic state (Table 23,20), which is discussed in the Stoner article21 on page 1723 of this issue. Common problems that produce ketosis include alcoholism and starvation. Metabolic states in which acidosis is predominant include lactic acidosis and ingestion of drugs such as salicylates and methanol. Abdominal pain may be a symptom of ketoacidosis or part of the inci Continue reading >>

Diabetic Ketoacidosis Producing Extreme Hyperkalemia In A Patient With Type 1 Diabetes On Hemodialysis

Diabetic Ketoacidosis Producing Extreme Hyperkalemia In A Patient With Type 1 Diabetes On Hemodialysis

Hodaka Yamada1, Shunsuke Funazaki1, Masafumi Kakei1, Kazuo Hara1 and San-e Ishikawa2[1] Division of Endocrinology and Metabolism, Jichi Medical University Saitama Medical Center, Saitama, Japan [2] Division of Endocrinology and Metabolism, International University of Health and Welfare Hospital, Nasushiobara, Japan Summary Diabetic ketoacidosis (DKA) is a critical complication of type 1 diabetes associated with water and electrolyte disorders. Here, we report a case of DKA with extreme hyperkalemia (9.0 mEq/L) in a patient with type 1 diabetes on hemodialysis. He had a left frontal cerebral infarction resulting in inability to manage his continuous subcutaneous insulin infusion pump. Electrocardiography showed typical changes of hyperkalemia, including absent P waves, prolonged QRS interval and tented T waves. There was no evidence of total body water deficit. After starting insulin and rapid hemodialysis, the serum potassium level was normalized. Although DKA may present with hypokalemia, rapid hemodialysis may be necessary to resolve severe hyperkalemia in a patient with renal failure. Patients with type 1 diabetes on hemodialysis may develop ketoacidosis because of discontinuation of insulin treatment. Patients on hemodialysis who develop ketoacidosis may have hyperkalemia because of anuria. Absolute insulin deficit alters potassium distribution between the intracellular and extracellular space, and anuria abolishes urinary excretion of potassium. Rapid hemodialysis along with intensive insulin therapy can improve hyperkalemia, while fluid infusions may worsen heart failure in patients with ketoacidosis who routinely require hemodialysis. Background Diabetic ketoacidosis (DKA) is a very common endocrinology emergency. It is usually associated with severe circulatory Continue reading >>

Diabetic Ketoacidosis

Diabetic Ketoacidosis

Author: Osama Hamdy, MD, PhD; Chief Editor: Romesh Khardori, MD, PhD, FACP more... Diabetic ketoacidosis (DKA) is an acute, major, life-threatening complication of diabetes that mainly occurs in patients with type 1 diabetes, but it is not uncommon in some patients with type 2 diabetes. This condition is a complex disordered metabolic state characterized by hyperglycemia, ketoacidosis, and ketonuria. The most common early symptoms of DKA are the insidious increase in polydipsia and polyuria. The following are other signs and symptoms of DKA: Malaise, generalized weakness, and fatigability Nausea and vomiting; may be associated with diffuse abdominal pain, decreased appetite, and anorexia Rapid weight loss in patients newly diagnosed with type 1 diabetes History of failure to comply with insulin therapy or missed insulin injections due to vomiting or psychological reasons or history of mechanical failure of insulin infusion pump Altered consciousness (eg, mild disorientation, confusion); frank coma is uncommon but may occur when the condition is neglected or with severe dehydration/acidosis Signs and symptoms of DKA associated with possible intercurrent infection are as follows: Glaser NS, Marcin JP, Wootton-Gorges SL, et al. Correlation of clinical and biochemical findings with diabetic ketoacidosis-related cerebral edema in children using magnetic resonance diffusion-weighted imaging. J Pediatr. 2008 Jun 25. [Medline] . Umpierrez GE, Jones S, Smiley D, et al. Insulin analogs versus human insulin in the treatment of patients with diabetic ketoacidosis: a randomized controlled trial. Diabetes Care. 2009 Jul. 32(7):1164-9. [Medline] . [Full Text] . Herrington WG, Nye HJ, Hammersley MS, Watkinson PJ. Are arterial and venous samples clinically equivalent for the estimation Continue reading >>

Diabetic Ketoacidosis (dka)

Diabetic Ketoacidosis (dka)

Tweet Diabetic ketoacidosis (DKA) is a dangerous complication faced by people with diabetes which happens when the body starts running out of insulin. DKA is most commonly associated with type 1 diabetes, however, people with type 2 diabetes that produce very little of their own insulin may also be affected. Ketoacidosis is a serious short term complication which can result in coma or even death if it is not treated quickly. Read about Diabetes and Ketones What is diabetic ketoacidosis? DKA occurs when the body has insufficient insulin to allow enough glucose to enter cells, and so the body switches to burning fatty acids and producing acidic ketone bodies. A high level of ketone bodies in the blood can cause particularly severe illness. Symptoms of DKA Diabetic ketoacidosis may itself be the symptom of undiagnosed type 1 diabetes. Typical symptoms of diabetic ketoacidosis include: Vomiting Dehydration An unusual smell on the breath –sometimes compared to the smell of pear drops Deep laboured breathing (called kussmaul breathing) or hyperventilation Rapid heartbeat Confusion and disorientation Symptoms of diabetic ketoacidosis usually evolve over a 24 hour period if blood glucose levels become and remain too high (hyperglycemia). Causes and risk factors for diabetic ketoacidosis As noted above, DKA is caused by the body having too little insulin to allow cells to take in glucose for energy. This may happen for a number of reasons including: Having blood glucose levels consistently over 15 mmol/l Missing insulin injections If a fault has developed in your insulin pen or insulin pump As a result of illness or infections High or prolonged levels of stress Excessive alcohol consumption DKA may also occur prior to a diagnosis of type 1 diabetes. Ketoacidosis can occasional Continue reading >>

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