Hypoglycemia. Pathophysiology and treatment

Hypoglycaemia begets hypoglycaemia

Drug-induced (insulin/insulin secretagogue) hypoglycaemia is the most common cause of hypoglycaemia particularly in the elderly. It is estimated that hypoglycaemia of any severity occurs annually in 5-20% of patients taking antihyperglycaemic agents. Although these hypoglycaemic episodes are rarely fatal, they can be associated with serious clinical sequelae. The half-life for most sulfonylurea medications is 14-16 h; they can cause severe, prolonged hypoglycaemia. It is important to recognise, prevent and treat hypoglycaemic episodes secondary to the use of antihyperglycaemic agents. Patient education has become focused on minimising hyperglycaemia but emphasis must be placed on minimising even minor subclinical hypoglycaemia because it will contribute to a vicious cycle of hypoglycaemia begetting hypoglycaemia. Ten per cent dextrose is recommended for the reversal of all hypoglycaemic episodes rather than the conventional 50% dextrose. Octreotide can be an option for recurrent and relapsing hypoglycaemia in an acute setting.

Relationship between GH response and glycemic fluctuations in the glucagon stimulation test

OBJECTIVE

Verifying the association between glycemic fluctuation and GH response in the glucagon stimulation test. Basal evaluation of growth hormone (GH) has poor diagnostic accuracy due to its pulsatile secretion. GH-stimulation tests are used for an adequate evaluation of somatotrophic axis. Various stimuli can be employed, among them glucagon, which has an elusive mechanism of action. Since hypoglycemia reportedly occurs during the test, investigation of its role as a stimulus to GH release is granted.

DESIGN

Retrospective analysis of glucagon-stimulated GH tests performed in 128 children (36.7% female; age 12.4+3.3 years), at Fleury Functional Tests Facility from July 2000 to 2006. GH and blood glucose (BG) curves, IGF-1, and IGFBP-3 have been assessed. Positive GH response was defined by a peak GH value >or=3.3 microg/L. Normal IGF-1 levels were defined as those between 2.5th and 97.5th percentiles for age and gender.

RESULTS

Hypoglycemia under 2.2 mmol/L did not occur during the test. BG decrease occurred with lower magnitude and was not associated to GH response. Comparison between patients with negative and positive GH response showed, respectively, BG nadir 3.74 vs. 3.62 mmol/L, glucose AUC 23.3 vs. 22.4, and glycemic decrease (below 3.3 mmol/L) 19% vs. 35.5% (with P non-significant for all comparisons).

CONCLUSION

Hypoglycemia was not seen after glucagon stimulation and decrease in BG occurred above levels physiologically expected to stimulate GH release, being apparently not associated to GH response.

Utility values for symptomatic non-severe hypoglycaemia elicited from persons with and without diabetes in Canada and the United Kingdom

Objective

To elicit societal and patient utilities associated with diabetic symptomatic non-severe hypoglycaemia for three health states: 1) rare (quarterly), 2) intermittent (monthly), 3) and frequent (weekly) hypoglycaemia episodes.

Methods

Using validated health states, time trade-off utilities were elicited from 51 Canadian respondents with diabetes, and 79 respondents in Canada and 75 respondents in the United Kingdom (UK) without diabetes.

Results and discussion

Each hypoglycaemic episode was associated with a reduction in utility and persons with diabetes consistently reported slightly higher utility values than respondents without diabetes. The utility for diabetes without hypoglycaemia ranged from 0.88 to 0.97, the mean utility for rare hypoglycaemic events (quarterly) ranged between 0.85 and 0.94. The utility for the intermittent state (monthly) ranged from 0.77 to 0.90 and from 0.66 to 0.0.83 for the frequent state (weekly). Differences were observed between respondents without diabetes in Canada and the UK. Using a multivariate linear OLS regression, the estimated utilities associated with a single hypoglycaemic event were -0.0033 and -0.0032 for respondents with diabetes and without diabetes, respectively.

Conclusion

Among respondents with and without diabetes, there was a demonstrable utility loss associated with hypoglycaemia. Considering a utility loss of 0.03 as a minimum clinically important difference for persons with diabetes, the evidence from this study indicates that as low as ten symptomatic non-severe hypoglycaemic episodes per year may be of clinical importance and that the importance increases with frequency of episodes. Integrating directly elicited utility values such as those reported here will improve the quality and applicability of economic evaluations of diabetes treatment.

Metabolic environment in substantia nigra reticulata is critical for the expression and control of hypoglycemia-induced seizures

Seizures represent a common and serious complication of hypoglycemia. Here we studied mechanisms of control of hypoglycemic seizures induced by insulin injection in fasted and nonfasted rats. We demonstrate that fasting predisposes rats to more rapid and consistent development of hypoglycemic seizures. However, the fasting-induced decrease in baseline blood glucose concentration cannot account for the earlier onset of seizures in fasted versus nonfasted rats. Data obtained with c-Fos immunohistochemistry and [14C]2-deoxyglucose uptake implicate a prominent involvement of the substantia nigra reticulata (SNR) among other structures in the hypoglycemic seizure control. This is supported by data showing that fasting decreases the SNR expression of K(ATP) channels, which link metabolism with activity, and is further confirmed with microinfusions of K(ATP) channel agonist and antagonist. Data obtained with whole-cell and perforated patch recordings from SNR neurons in slices in vitro demonstrate that both presynaptic and postsynaptic K(ATP) channels participate in the failure of the SNR to control hypoglycemic seizures. The results suggest that fasting and insulin-induced hypoglycemia can lead to impairment in the function of the SNR, leading thus to hypoglycemic seizures.

The involvement of the substantia nigra pars reticulata in hypoglycemic seizures

Neurological complications of hypoglycemia often include seizures and fasting is a predisposing factor for seizures to occur. The mechanisms involved are unknown. In rats, insulin administration induces hypoglycemia, which may lead to generalized seizures with barrel rotations as a hallmark. Here we compared the incidence of barrel rotations in fasted and nonfasted rats. Further, we investigated the role of the substantia nigra pars reticulata (SNR) in control of barrel rotations using localized bilateral microinfusions of GABA(A) or GABA(B) receptor agonists (muscimol or baclofen, respectively) or an N-methyl-D-aspartate (NMDA) receptor antagonist (AP7). The incidence of barrel rotations was significantly higher in fasted compared to nonfasted rats. SNR infusions of muscimol were ineffective, while both baclofen and AP7 significantly decreased occurrence of barrel rotations. These data suggest that during hypoglycemia, the SNR seizure controlling system has different properties than in seizure models not involving a metabolic stress.

Differential effects of low glucose concentrations on seizures and epileptiform activityin vivoandin vitro

In vivo, severe hypoglycemia is frequently associated with seizures. The hippocampus is a structure prone to develop seizures and seizure-induced damage. Patients with repeated hypoglycemic episodes have frequent memory problems, suggesting impaired hippocampal function. Here we studied the effects of moderate hypoglycemia on primarily generalized flurothyl-induced seizures in vivo and, using EEG recordings, we determined involvement of the hippocampus in hypoglycemic seizures. Moderate systemic hypoglycemia had proconvulsant effects on flurothyl-induced clonic (forebrain) seizures. During hypoglycemic seizures, seizure discharges were recorded in the hippocampus. Thus, we continued the studies in combined entorhinal cortex-hippocampus slices in vitro. However, in vitro, decreases in extracellular glucose from baseline 10 mM to 2 or 1 mM did not induce any epileptiform discharges. In fact, low glucose (2 and 1 mM) attenuated preexisting low-Mg2+-induced epileptiform activity in the entorhinal cortex and hippocampal CA1 region. Osmolarity compensation in low-glucose solution using mannitol impaired slice recovery. Additionally, using paired-pulse stimuli we determined that there was no impairment of GABAA inhibition in the dentate gyrus during glucopenia. The data strongly indicate that, although forebrain susceptibility to seizures is increased during moderate in vivo hypoglycemia and the hippocampus is involved during hypoglycemic seizures, glucose depletion in vitro contributes to an arrest of epileptiform activity in the system of the entorhinal cortex-hippocampus network and there is no impairment of net GABAA inhibition during glucopenia.

Pathophysiology of diabetes mellitus

As we learn more about the pathophysiology of diabetes mellitus, we find that there is more yet to be learned. This may sound like a trite statement, but in reality it is true. The following article reviews the basic pathophysiology of both type 1 diabetes mellitus and type 2 diabetes mellitus as we understand it today. It continues on to reveal the "things that go wrong" when there is too much or too little glucose available to the body organs and especially to the brain. The article points out the signs and symptoms to be aware of when the person is in the acute state of diabetic ketoacidosis, hyperglycemic hyperosmolar nonketotic coma (or state), and severe hypoglycemia. It concludes with important considerations when the individual is in one of these acute states and contributes key points related to the control of diabetes when the person is in the state of compromise.

Hypoglycaemia in Elderly Patients with Diabetes Mellitus

Achieving target glycaemic goals while avoiding hypoglycaemia is a major challenge in the management of elderly patients with diabetes mellitus. Repeated episodes of hypoglycaemia may cause extreme emotional distress in such patients, even when the episodes are relatively mild. Moreover, evidence is mounting that hypoglycaemia among elderly patients is a very real and costly health concern. The strongest predictors of severe hypoglycaemia in the elderly are advanced age, recent hospitalisation and polypharmacy. Education is the key to preventing recurrent or severe hypoglycaemia. As such, there should be close coordination of care between the patient, physician and all other healthcare providers in identifying the cause of hypoglycaemia in elderly patients, and appropriate steps should be taken to prevent further episodes. Prevention of hypoglycaemia has the potential to improve psychosocial aspects of elderly health, including enhanced quality of life, boosted confidence, improved compliance with antidiabetic regimens and avoidance of long-term complications. Since the elderly population represents a unique group, it is imperative to focus on the aetiologies that are exclusive to this group. Advanced age itself is a risk factor for hypoglycaemia, and elderly patients with comorbidities are at increased risk when they are hospitalised. Elderly patients with diabetes often have compromised renal function, which intereferes with drug elimination and thus predisposes them to prolonged life-threatening hypoglycaemia. In addition, patients on five or more prescription medications are prone to drug-associated hypoglycaemia. Although sulfonylurea-associated hypoglycaemia is common, drugs such as ACE inhibitors and nonselective beta-adrenoceptor antagonists can also predispose patients to hypoglycaemia. Greater attention should be paid to the avoidance of hypgolycaemia in nursing home residents. Recurrent hypoglycaemia in elderly patients is not only detrimental to achieving good glycaemic control, it is also a substantial economic burden. Once the causes of hypoglycaemia have been identified, it is crucial to formulate and institute a prevention plan. Firstly, global evaluation of the patient should be carried out to identify possible predisposing risk factors. Secondly, target glycaemic goals should be tailored to each patient. Thirdly, selection of antidiabetic agents should be judicious, then patients and family should be educated to recognise and treat hypoglycaemia. Finally, coordinated care should be provided to identify, treat and prevent hypoglycaemia.

Critical issues in endocrinology

Endocrine emergencies are commonly encountered in the ICU. This article focuses on several important endocrine emergencies, including diabetic hyperglycemic states, adrenal insufficiency, myxedema coma, thyroid storm, and pituitary apoplexy. Other endocrine issues that are related to intensive care, such as intensive insulin therapy, relative adrenal insufficiency, and thyroid function test abnormalities are also covered in detail.

The house economist and the eating paradox

An important observation of the experiments of George Collier is that animals normally prefer to maintain their body weight by eating a large number of small meals each day. However, as the effort to obtain access to food increases, the animals adapt by changing to a schedule of eating a small number of large meals each day. A strong implication of this is that there is a hidden cost to eating large meals, and this is the basis of the eating paradox that states that although food is a necessary commodity, the act of ingesting it poses certain metabolic problems for animals. Experiments on cephalic insulin secretion, conditioned insulin secretion and meal feeding are discussed to make the point that the economy demonstrated by rats in Collier's paradigm is dictated in part by predictions of the eating paradox.