APOA5 and triglyceride metabolism, lesson from human APOA5 deficiency

PURPOSE OF REVIEW: In this review we compare the phenotype and lipoprotein abnormalities of some patients who were found to carry mutations in the APOA5 gene predicted to result in apolipoprotein A-V deficiency. RECENT FINDINGS: The sequencing of the APOA5 gene in patients with primary hypertriglyceridemia, in whom mutations of the LPL and APOC2 genes had been excluded, led to the identification of four families with two different mutations in this gene predicted to result in truncated apolipoprotein A-V. The first mutation (Q148X) was found in a homozygous state in a child with severe type V hyperlipidemia, some clinical manifestations of chylomicronemia syndrome and a slight reduction in plasma postheparin lipoprotein lipase activity. Carriers of a different mutation (Q139X) were recently reported. Four Q139X heterozygotes had type V hyperlipidemia and markedly reduced plasma postheparin lipoprotein lipase activity. The hypertriglyceridemic Q139X heterozygote had other factors that could have contributed to hypertriglyceridemia. ApoB-100 kinetic studies in hypertriglyceridemic Q139X heterozygotes revealed an impairment of very low-density lipoprotein catabolism. SUMMARY: Mutations in the APOA5 gene, leading to truncated apolipoprotein A-V devoid of lipid-binding domains located in the carboxy-terminal end of the protein, if present in the homozygous state, are expected to cause severe type V hyperlipidemia in patients with no mutations in LPL or APOC2 genes. If present in the heterozygous state, these mutations predispose to hypertriglyceridemia in combination with other genetic factors or pathological conditions.     

Genetic Variants Associated with Gestational Hypertriglyceridemia and Pancreatitis

Severe hypertriglyceridemia is a well-known cause of pancreatitis. Usually, there is a moderate increase in plasma triglyceride level during pregnancy. Additionally, certain pre-existing genetic traits may render a pregnant woman susceptible to development of severe hypertriglyceridemia and pancreatitis, especially in the third trimester. To elucidate the underlying mechanism of gestational hypertriglyceridemic pancreatitis, we undertook DNA mutation analysis of the lipoprotein lipase (LPL), apolipoprotein C2 (APOC2), apolipoprotein A5 (APOA5), lipase maturation factor 1 (LMF1), and glycosylphosphatidylinositol-anchored high-density lipoprotein-binding protein 1 (GPIHBP1) genes in five unrelated pregnant Chinese women with severe hypertriglyceridemia and pancreatitis. DNA sequencing showed that three out of five patients had the same homozygous variation, p.G185C, in APOA5 gene. One patient had a compound heterozygous mutation, p.A98T and p.L279V, in LPL gene. Another patient had a compound heterozygous mutation, p.A98T & p.C14F in LPL and GPIHBP1 gene, respectively. No mutations were seen in APOC2 or LMF1 genes. All patients were diagnosed with partial LPL deficiency in non-pregnant state. As revealed in our study, genetic variants appear to play an important role in the development of severe gestational hypertriglyceridemia, and, p.G185C mutation in APOA5 gene appears to be the most common variant implicated in the Chinese population. Antenatal screening for mutations in susceptible women, combined with subsequent interventions may be invaluable in the prevention of potentially life threatening gestational hypertriglyceridemia-induced pancreatitis.     

The Prevalence of Probable Familial Chylomicronemia Syndrome in a Southern California Population

ObjectiveTo estimate the prevalence of probable familial chylomicronemia syndrome (FCS) in a major Southern California Academic Center as well as to provide a systematic review of past FCS studies and management recommendations.MethodsElectronic medical records were queried based on single fasting plasma triglyceride (TG) levels of ≥880 mg/dL and at least 1 episode of acute pancreatitis. After the exclusion of secondary causes (diabetes, alcohol misuse, gallbladder disease, chronic kidney disease, uncontrolled hypothyroidism, estrogen, and drug use) and responses to lipid-lowering treatment, probable patients with FCS were identified. A systematic review of all published literature on the prevalence and management guidelines for FCS was then presented and discussed.ResultsOut of 7 699 288 charts queried, 138 patients with TG levels of ≥880 mg/dL and documented evidence of at least 1 episode of acute pancreatitis were identified. Nine patients did not have any documented secondary causes of chylomicronemia. Four of the 9 patients had >20% decrease in TG levels after lipid-lowering treatment, 2 patients were not responsive to lipid-lowering medication, and data on lipid-lowering medications were missing in 3 patients.ConclusionOur study estimates the prevalence of probable FCS at a range of 0.26 to 0.66 per million. Using the recommended criteria, probable FCS cases can be identified to allow early diagnosis and management.     

Clinical Characteristics and Sequelae of Severe Hypertriglyceridemia in Pediatrics

Objective: Severe hypertriglyceridemia (HTG) (i.e., plasma triglycerides [TGs] >1,000 mg/dL) in children is a rare but pernicious and understudied condition. Our objective was to evaluate the etiology, characteristics, and sequelae of severe pediatric HTG.Methods: This was a retrospective electronic medical record review of pediatric patients with severe HTG at a tertiary referral Children's hospital over a 17-year period.Results: There were a total of 124 patients with severe HTG. The etiology varied: hemato-oncologic (n = 48), diabetes and insulin resistance–related (n = 46), total parenteral nutrition (TPN)-related (n = 6), renal (n = 12), and miscellaneous (n = 12). There was considerable variability in the number of days for the plasma TGs to decrease to <1,000 mg/dL (147.7 ± 567.3 days) and to further decrease to <500 mg/dL (136.84 ± 230.9 days). Patients with diabetes required the longest time to improve their plasma TGs (165.8 ± 305.7 days) compared to other groups. There were 11 cases of pancreatitis, comorbid with diabetes (n = 5), hemato-oncologic conditions (n = 3), and TPN (n = 3). Sixty-seven patients (54%) had persistent HTG.Conclusion: Severe HTG in pediatrics is commonly due to secondary causes. Patients with diabetes tend to have a longer course of dyslipidemia. A substantial number of patients had persistent dyslipidemia, indicating underlying genetic susceptibility to HTG that is phenotypically expressed consequent to a secondary metabolic insult.Abbreviations: DKA = diabetic ketoacidosis; EMR = electronic medical record; GSD = glycogen storage disorder; HbA1c = hemoglobin A1c; HIV = human immunodeficiency virus; HTG = hypertriglyceridemia; ICD-9 = International Classification of Diseases–Ninth Revision; IV = intravenous; LCHAD = long-chain 3-hydroxyacyl coenzyme A dehydrogenase deficiency; LPL = lipoprotein lipase; NPO = nothing by mouth; PCOS = polycystic ovary syndrome; T1DM = type 1 diabetes mellitus; T2DM = type 2 diabetes mellitus; TG = triglyceride; TPN = total parenteral nutrition; VLDL = very-low-density lipoprotein     

Pancreatic Safety in Studies of The Glucagon-Like Peptide-1 Receptor Agonist Albiglutide

Objective: Albiglutide, a glucagon-like peptide-1 receptor agonist (GLP-1RA), reduces glycated hemoglobin with a low risk of hypoglycemia in patients with type 2 diabetes. The relationship between GLP-1RAs and risk of pancreatitis is unresolved. This independent, rigorous, expert review of the albiglutide HARMONY Phase III clinical program examined suspected cases of acute pancreatitis.Methods: An independent pancreatitis adjudication committee (PAC), composed of physicians with expertise in gastroenterology and pancreatic disease, was prospectively established to review cases of suspected acute pancreatitis in the HARMONY studies.Results: Patients treated in Phase III trials with albiglutide (n = 2,365), or active or placebo comparators (n = 2,530), averaged 56 years of age with a mean 8.3-year diabetes duration. Across the 8 studies, the PAC reviewed potential cases of treatment-emergent acute pancreatitis in 43 patients. Definite or probable acute pancreatitis was adjudicated for 11 patients (8 albiglutide; 3 active comparators). Most of these were considered by the PAC to be at least possibly related to study treatment (6 of 8 albiglutide cases and 2 of 3 active comparator cases). Both cases in the active comparator group adjudicated as definite or probable pancreatitis with at least a possible relationship to study treatment were in patients treated with a GLP-1RA. The frequency of pancreatitis was higher among patients treated with albiglutide (6/2,365, 0.3%) than with placebo (0/486, 0%) or active comparators (2/2,062, 0.08%).Conclusion: In the HARMONY Phase III program, adjudicated cases of acute pancreatitis were uncommon. However, within the limitations of available data, the incidence of acute pancreatitis with albiglutide appears to be within the range described for other studies of GLP-1RAs.Abbreviations: AE = adverse event; CI = confidence interval; DPP-4 = dipeptidyl peptidase-4; GLP-1 = glucagon-like peptide-1; GLP-1RA = glucagon-like peptide-1 receptor agonist; MH-OR = Mantel-Haenszel odds ratio; OR = odds ratio; PAC = pancreatitis adjudication committee; SAE = serious adverse event; ULN = upper limit of normal     

External Validation of a Predictive Model for Acute Pancreatitis Risk in Patients with Severe Hypertriglyceridemia

Objective: We previously developed a predictive model to assess the risk of developing acute pancreatitis (AP) in patients with severe hypertriglyceridemia (HTG). In this study, we aimed to externally validate this model.Methods: The validation cohort included cross-sectional data between 2013 and 2017. Adult patients (≥18 years old) with triglyceride levels ≥1,000 mg/dL were identified. Based on our previous 4-factor predictive model (age, triglyceride &lsqb;TG], excessive alcohol use, and gallstone disease), we estimated the probability of developing AP. Model performance was assessed using area under receiver operating characteristic curve (AUROC).Results: In comparison to the original cohort, patients in the validation cohort had more prevalent acute pancreatitis (16.2% versus 9.2%; P<.001) and gallstone disease (7.5% versus 2.1%; P<.001). Other characteristics were comparable and not statistically significant. The AUROCs were almost identical: 0.8337 versus 0.8336 in the validation and the original cohorts, respectively. In univariable analyses, the highest increase in odds of AP was associated with HTG, followed by gallstones, excessive alcohol use, and younger age.Conclusion: This study externally validates the 4-factor predictive model to estimate the risk of AP in adult patients with severe HTG (TG ≥1,000 mg/dL). Younger age was confirmed to place patients at high risk of AP. The clinical risk categories suggested in this study may be useful to guide treatment options.Abbreviations: AP = acute pancreatitis; ASCVD = atherosclerotic cardiovascular disease; AUROC = area under the receiver operating characteristic curve; FRAX = fracture risk assessment tool; HTG = hypertriglyceridemia; OR = odds ratio; TG = triglyceride level     

Adipsic Diabetes Insipidus: A Review

Objective: Adipsic diabetes insipidus (ADI) is a rare disorder consisting of central diabetes insipidus (CDI) and a deficient or absent thirst response to hyperosmolality. Patients with ADI experience marked morbidity and mortality. Diagnosis and management of these patients is quite challenging, even in expert hands. In this review, we aim to provide an updated overview of this difficult clinical scenario.Methods: We conducted a PubMed search for articles related to ADI. The search terms “adipsia,” “adipsic,” “thirst,” and “diabetes insipidus” were used to identify relevant literature.Results: ADI has been described in only approximately 100 patients. This rarity has limited the quality and quantity of literature to case reports, case series, and expert opinion. Diagnosis focuses on confirmation of CDI followed by documenting subnormal or completely absent thirst in response to a hypertonic stimulus. Among the described patients with ADI, the majority experience morbidity (e.g., severe hypernatremia, sleep apnea, venous thromboembolism [VTE], and obesity) and an increased mortality risk. Management focuses on frequent reassessment of daily prescribed water intake with fixed antidiuretic therapy (desmopressin) and comorbidity screening.Conclusion: The complexity of patients with ADI provides a difficult challenge for clinicians. Prompt recognition of thirst disorders in patients with CDI should lead to appropriately regimented management strategies and can result in safe outpatient care for these unique patients.Abbreviations:ACoA = anterior communicating arteryADI = adipsic diabetes insipidusAVP = arginine vasopressinCDI = central diabetes insipidusDDAVP = desmopressinDI = diabetes insipidusSDB = sleep-disordered breathingVTE = venous thromboembolism     

Management of Diabetes During Air Travel: A Systematic Literature Review of Current Recommendations and their Supporting Evidence

Objective: Individuals with diabetes are increasingly seeking pretravel advice, but updated professional recommendations remain scant. We performed a systematic review on diabetes management during air travel to summarize current recommendations, assess supporting evidence, and identify areas of future research.Methods: A systematic review of the English literature on diabetes management during air travel was undertaken utilizing PubMed and MEDLINE. Publications regarding general travel advice; adjustment of insulin and noninsulin therapies; and the use of insulin pumps, glucometers and subcutaneous glucose sensors at altitude were included. Gathered information was used to create an updated summary of glucose-lowering medication adjustment during air travel.Results: Sixty-one publications were identified, most providing expert opinion and few offering primary data (47 expert opinion, 2 observational studies, 2 case reports, 10 device studies). General travel advice was uniform, with increasing attention to preflight security. Indications for oral antihyperglycemic therapy adjustments varied. There were few recommendations on contemporary agents and on nonhypoglycemic adverse events. There was little consensus on insulin adjustment protocols, many antedating current insulin formulations. Most publications advocated adjusting insulin pump time settings after arrival; however, there was disagreement on timing and rate adjustments. Glucometers and subcutaneous glucose sensors were reported to be less accurate at altitude, but not to an extent that would preclude their clinical use.Conclusion: Recommendations for diabetes management during air travel vary significantly and are mostly based on expert opinion. Data from systematic investigation on glucose-lowering medication adjustment protocols may support the development of a future consensus statement.Abbreviations:CSII = continuous subcutaneous insulin infusion (device)DPP-4 = dipeptidyl peptidase 4EGA = error grid analysisGDH = glucose dehydrogenaseGOX = glucose oxidaseGLP1 = glucagon-like peptide-1NPH = neutral protamine HagedornSGLT2 = sodium-glucose cotransporter-2     

Asymmetric Dimethylarginine Levels and Atherosclerosis Markers in Cushing Syndrome

Objective: As a consequence of hypercortisolism, Cushing syndrome (CS) is frequently observed with other diseases that are associated with atherosclerosis, including diabetes mellitus, dyslipidemia, hypertension, and obesity. Cardiovascular disease (CVD) is the primary cause of mortality and morbidity in CS. We investigate CVD risk markers such as asymmetric dimethylarginine (ADMA), lipoprotein-associated phospholipase A2 (Lp-PLA2), highsensitive C-reactive protein (hsCRP), homocysteine, lipid levels, ankle-brachial index (ABI), and carotid intimamedia thickness (CIMT) in CS.Methods: Our study included 27 patients with CS and 27 age-, sex-, body mass index (BMI)-, and comorbid disease–matched control subjects.Results: Plasma ADMA levels were significantly lower in the CS group than the control group (P = .013). Total cholesterol, low-density lipoprotein, triglycerides, high-density lipoprotein, and apolipoprotein A1 and apolipoprotein B levels were higher in patients with CS than the control group (P<.05). We did not find any statistically significant differences in levels of hsCRP, Lp-PLA2, or homocysteine or CIMT and ABI measurements between the CS group and comorbidity-matched control group (P>.05).Conclusion: We found that ADMA levels were lower in CS, the finding that should be further investigated. Levels of hsCRP, Lp-PLA2, and homocysteine levels and CIMT and ABI measurements were similar between the CS group and comorbidity-matched control group. None of these markers was prominent to show an increased risk of CVD in CS, independent of the comorbidities of CS.Abbreviations:ABI = ankle-brachial indexApo = apolipoproteinADMA = asymmetric dimethylarginineBMI = body mass indexCVD = cardiovascular diseaseCIMT = carotid intima-media thicknessCS = Cushing syndromeDM = diabetes mellitusDDAH = dimethylarginine dimethylaminohydrolaseELISA = enzyme-linked immunosorbent assayHDL = high-density lipoproteinhsCRP = high-sensitive C-reactive proteinHOMA-IR = homeostatic model assessment of insulin resistanceHT = hypertensionLDL = low-density lipoproteinLp-PLA2 = lipoprotein-associated phospholipase A2Lp-a = lipoprotein aNO = nitric oxide     

Overexpression of human apolipoprotein A-II in mice induces hypertriglyceridemia due to defective very low density lipoprotein hydrolysis

Two lines of transgenic mice, hAIItg-delta and hAIItg-lambda, expressing human apolipoprotein (apo)A-II at 2 and 4 times the normal concentration, respectively, displayed on standard chow postprandial chylomicronemia, large quantities of very low density lipoprotein (VLDL) and low density lipoprotein (LDL) but greatly reduced high density lipoprotein (HDL). Hypertriglyceridemia may result from increased VLDL production, decreased VLDL catabolism, or both. Post-Triton VLDL production was comparable in transgenic and control mice. Postheparin lipoprotein lipase (LPL) and hepatic lipase activities decreased at most by 30% in transgenic mice, whereas adipose tissue and muscle LPL activities were unaffected, indicating normal LPL synthesis. However, VLDL-triglyceride hydrolysis by exogenous LPL was considerably slower in transgenic compared with control mice, with the apparent Vmax of the reaction decreasing proportionately to human apoA-II expression. Human apoA-II was present in appreciable amounts in the VLDL of transgenic mice, which also carried apoC-II. The addition of purified apoA-II in postheparin plasma from control mice induced a dose-dependent decrease in LPL and hepatic lipase activities. In conclusion, overexpression of human apoA-II in transgenic mice induced the proatherogenic lipoprotein profile of low plasma HDL and postprandial hypertriglyceridemia because of decreased VLDL catabolism by LPL.     

Anabolic Therapy and Optimal Treatment Sequences for Patients With Osteoporosis at High Risk for Fracture

Objective: Provide an update regarding anabolic medications for osteoporosis, which are often considered to be the last resort for patients with osteoporosis, after multiple fractures have already occurred and other medications have already been administered.Methods: Literature review and discussion.Results: Recent pivotal trial data for anabolic agents and randomized trials comparing anabolic and antiresorptive medications suggest that three anabolic agents (teriparatide, abaloparatide, and romosozumab) reduce nonvertebral and vertebral fractures faster and to a greater extent than potent antiresorptive treatments. Furthermore, bone density accrual is maximized when patients are given anabolic agents first, followed by potent antiresorptive therapy. Since total hip bone density during or after osteoporosis treatment has emerged as an excellent surrogate for future fracture risk, attaining a greater hip bone mineral density is a treatment goal for high-risk osteoporosis patients.Conclusion: This review defines the highest-risk patients and summarizes the rationale for the evolving role of anabolic therapy in the management of postmenopausal women at high risk for fracture.Abbreviations: ACTIVE = Abaloparatide Comparator Trial in Vertebral Endpoints; ARCH = Active Controlled Fracture Study in Postmenopausal Women with Osteoporosis at High Risk; BMD = bone mineral density; FRAME = Fracture Study in Postmenopausal Women with Osteoporosis; FRAX = Fracture Risk Assessment Tool; PTH = parathyroid hormone; TBS = trabecular bone score     

American Association of Clinical Endocrinology Disease State Clinical Review on the Evaluation and Management of Adrenocortical Carcinoma in an Adult: a Practical Approach

Objective: The aim of this Disease State Clinical Review is to provide a practical approach to patients with newly diagnosed adrenocortical carcinoma, as well as to follow-up and management of patients with persistent or recurrent disease.Methods: This is a case-based clinical review. The provided recommendations are based on evidence available from randomized prospective clinical studies, cohort studies, cross-sectional and case-based studies, and expert opinions.Results: Adrenocortical carcinoma is a rare malignancy, often with poor outcomes. For any patient with an adrenal mass suspicious for adrenocortical carcinoma, the approach should include prompt evaluation with detailed history and physical exam, imaging, and biochemical adrenal hormone assessment. In addition to adrenal-focused imaging, patients should be evaluated with chest-abdomen-pelvis cross-sectional imaging to define the initial therapy plan. Patients with potentially resectable disease limited to the adrenal gland should undergo en bloc open surgery by an expert surgeon. For patients presenting with advanced or recurrent disease, a multidisciplinary approach considering curative repeat surgery, local control with surgery, radiation therapy or radiofrequency ablation, or systemic therapy with mitotane and/or cytotoxic chemotherapy is recommended.Conclusion: As most health care providers will rarely encounter a patient with adrenocortical carcinoma, we recommend that patients with suspected adrenocortical carcinoma be evaluated by an expert multidisciplinary team which includes clinicians with expertise in adrenal tumors, including endocrinologists, oncologists, surgeons, radiation oncologists, pathologists, geneticists, and radiologists. We recommend that patients in remote locations be followed by the local health care provider in collaboration with a multidisciplinary team at an expert adrenal tumor program.Abbreviations: ACC = adrenocortical carcinoma; ACTH = adrenocorticotropic hormone; BRACC = borderline resectable adrenocortical carcinoma; CT = computed tomography; DHEAS = dehydroepiandrosterone sulfate; EDP = etoposide, doxorubicin, cisplatin; FDG = ¹⁸F-fluorodeoxyglucose; FNA = fine-needle aspiration; HU = Hounsfield units; IVC = inferior vena cava; LFS = Li-Fraumeni syndrome; MEN1 = multiple endocrine neoplasia type 1; MRI = magnetic resonance imaging; OAC = oncocytic adrenocortical carcinoma; PC = palliative care; PET = positron emission tomography     

A Case Of Severe Neuropat Hy Associated With Hypertriglyceridemia

ObjectiveTo describe a case of severe neuropathy associated with hypertriglyceridemia.MethodsWe describe the clinical and laboratory findings of the study patient and review the relevant literature.ResultsA 45-year-old woman presented to the emergency department with recurrent abdominal pain and severe peripheral neuropathy. Her laboratory data revealed elevated lipase and a very high triglyceride concentration (> 10 000 mg/dL), consistent with a diagnosis of recurrent hypertriglyceridemia-induced pancreatitis. Workup for peripheral neuropathy showed normal concentrations of thyrotropin, fasting blood glucose, vitamin B₁₂, and creatinine, as well as a normal hemoglobin A_1c level, serum protein electrophoresis, and urine protein electrophoresis. Rapid plasma reagin antibodies, antinuclear antibodies, and lyme antibodies were not detected. In the absence of other identifiable causes, hypertriglyceridemia was deemed the likely etiology of severe neuropathy in this patient.ConclusionsPeripheral nerve conduction abnormalities can be identified in patients with mild hypertriglyceridemia in the absence of symptoms. Early recognition and aggressive management of hypertriglyceridemia may prevent the complications of severe peripheral neuropathy.(Endocr Pract. 2008;14:1020-1022)     

Refining Lipoprotein Assessment in Diabetes: Apolipoprotein B Makes Sense

ObjectiveTo summarize the data that support the measurement of apolipoprotein B as an accurate reflection of low-density lipoprotein (LDL) particle number and an easily adapted parameter in clinical practice.MethodsStudy findings are reviewed and a flow chart is provided to guide lipid assessment in patients with dyslipidemia.ResultsCurrent treatment guidelines for lipid management emphasize LDL cholesterol as the primary treatment target in patients at high risk of cardiovascular events. However, LDL cholesterol is a poor surrogate for LDL particle number, particularly in patients with altered LDL composition, such as those with insulin resistance, metabolic syndrome, and type 2 diabetes. Direct measurement of LDL particle number or size is not practical because of methodology and cost considerations. A suggested alternative target in patients with hypertriglyceridemia is non–high-density lipoprotein (HDL) cholesterol. Abundant evidence suggests that even non-HDL cholesterol is an inadequate approximation of the LDL particle number in such patients. The flow chart emphasizes the need to continue achieving the well-established LDL-cholesterol goal, while also considering apolipoprotein B measurement in those with hypertriglyceridemia, rather than relying on the less accurate surrogate of non-HDL cholesterol, when targeting therapy in such patients.ConclusionPresented evidence supports the measurement of apolipoprotein B as a more accurate reflection of LDL particle number than non-HDL cholesterol, and it is an easily adapted parameter in clinical practice. (Endocr Pract. 2009;15:370-376)     

Diabetes and Prediabetes are Significantly Higher in Morbidly Obese Children Compared With Obese Children

Objective: The objective of this study was to examine the prevalence and characteristics of comorbidities in obese and morbidly obese children with a comparison between the 2 sets of children.Methods: This was a retrospective electronic chart review of obese and morbidly obese children and adolescents as defined by body mass index. We evaluated medical history of comorbid conditions, medication use, and cardiovascular risk markers, including blood pressure, lipid profile, and glycosylated hemoglobin.Results: There were 1,111 subjects (African American = 635; non-Hispanic white = 364; Hispanic = 36; others = 86), of which 274 were obese and 837 were morbidly obese children with a mean age of 12.7 ± 3.37 years. Morbidly obese children had a higher prevalence of prediabetes (19.5% of obese versus 27.3% of morbidly obese; P<.0001) and type 2 diabetes (39.8% of obese versus 52.4% of morbidly obese; P<.0001). Use of medications for treatment of asthma was significantly higher in the morbidly obese group compared with the obese group (21% versus 14%; P = .01).Conclusion: Morbidly obese children have a higher prevalence of diabetes, prediabetes, and use of asthma medications compared with obese children.Abbreviations: AA = African American ADHD = attention deficit hyperactivity disorder BMI = body mass index BP = blood pressure CVD = cardiovascular disease DBP = diastolic blood pressure EMR = electronic medical record GERD = gastroesophageal reflux disease HbA_1c = glycated hemoglobin HDL = high-density lipoprotein HTN = hypertension LDL = low-density lipoprotein NHW = non-Hispanic white SBP = systolic blood pressure T2DM = type 2 diabetes mellitus     

Identification of Potential Markers for Cushing Disease

Objective: Cushing disease (CD) causes a wide variety of nonspecific symptoms, which may result in delayed diagnosis. It may be possible to uncover unusual combinations of otherwise common symptoms using International Classification of Diseases, Ninth Revision, Clinical Modification (ICD-9-CM) codes. Our aim was to identify and evaluate dyads of clinical symptoms or conditions associated with CD.Methods: We conducted a matched case-control study using a commercial healthcare insurance claims database designed to compare the relative risk (RR) of individual conditions and dyad combinations of conditions among patients with CD versus matched non-CD controls.Results: With expert endocrinologist input, we isolated 10 key conditions (localized adiposity, hirsutism, facial plethora, polycystic ovary syndrome, abnormal weight gain, hypokalemia, deep venous thrombosis, muscle weakness, female balding, osteoporosis) with RRs varying from 5.3 for osteoporosis to 61.0 for hirsutism (and infinite RR for localized adiposity). The RRs of dyads of these conditions ranged from 4.1 for psychiatric disorders/serious infections to 128.0 for hirsutism/fatigue in patients with versus without CD. Construction of uncommon dyads resulted in further increases in RRs beyond single condition analyses; for example, osteoporosis alone had an RR of 5.3, which increased to 8.3 with serious infections and to 52.0 with obesity.Conclusion: This study demonstrated that RR of any one of 10 key conditions selected by expert opinion was ≥5 times greater in CD compared to non-CD, and nearly all dyads had RR≥5. An uncommon dyad of osteoporosis and obesity had an RR of 52.0. If clinicians consider the diagnosis of CD when the highest-risk conditions are seen, identification of this rare disease may improve.Abbreviations:CD = Cushing diseaseCPT = Current Procedural TerminologyCS = Cushing syndromeEMR = electronic medical recordICD-9-CM = International Classification of Diseases, Ninth Revision, Clinical ModificationID = identificationRR = relative risk     

Conditioning Factors for High Cardiovascular Risk in Patients with Cushing Syndrome

Objective: To characterize the alterations in carbohydrate and lipoprotein metabolism, to evaluate markers of lipoprotein functionality, and to identify the presence of novel atherogenic risk factors in patients with Cushing syndrome (CS) in comparison with sex- and age-matched controls.Methods: In an open, cross-sectional study, 32 nontreated patients with active CS were consecutively recruited from the Endocrinology Service at “José de San Martín” Clinical Hospital, University of Buenos Aires, Argentina, between April 11, 2010 and December 11, 2012. The patients were compared with sex- and age-matched controls.Results: Versus controls, patients with CS presented with excess weight, central obesity, and hypercortisolism. They also exhibited an insulin-resistant state, with high resistin levels (median [interquartile range], 16 [10 to 22] ng/mL versus 6 [5 to 9] ng/mL; P<.0001), a more atherogenic lipoprotein profile, high oxidized low-density lipoprotein levels (oxLDL; mean ± SD, 100 ± 31 U/L versus 75 ± 32 U/L; P<.05) and high sensitive C-reactive protein levels (median [interquartile range], 1.2 [0.6 to 3.1] mg/L versus 0.6 [0.3 to 1.1] mg/L; P<.05), and increased leukocyte count (mean ± SD, 9.5 ± 2.6 × 10³ cells/μL versus 6.5 ± 1.4 × 10³ cells/μL; P<.0001). Multivariate analyses showed that the increase in waist circumference was associated with both the diagnosis of CS and the degree of insulin resistance. Resistin concentration was related to a greater extent to the diagnosis of CS than to homeostasis model assessment–insulin resistance. Triglyceride and oxLDL levels were only significantly associated with the diagnosis of CS.Conclusion: Hypercortisolism is related to the increase observed in triglycerides and oxLDL levels, and, in combination with insulin resistance, acts to increase waist circumference and amplify the inflammatory process, key factors for the development of cardiovascular disease.Abbreviations: apo = apolipoprotein ARE = arylesterase CETP = cholesteryl ester transfer protein CRP = C-reactive protein CS = Cushing syndrome CV = coefficient of variation HDL = high-density lipoprotein HDL-C = high-density-lipoprotein cholesterol HOMA = homeostasis model assessment LDL = low-density lipoprotein LDL-C = low-density-lipoprotein cholesterol Lp-PLA₂ = lipoprotein-associated phospholipase A₂ oxLDL = oxidized LDL PON = paraoxonase TG = triglyceride     

American Association of Clinical Endocrinologists and American College of Endocrinology Comprehensive Clinical Practice Guidelines for Medical Care of Patients with Obesity

Objective: Development of these guidelines is mandated by the American Association of Clinical Endocrinologists (AACE) Board of Directors and the American College of Endocrinology (ACE) Board of Trustees and adheres to published AACE protocols for the standardized production of clinical practice guidelines (CPGs).Methods: Recommendations are based on diligent review of clinical evidence with transparent incorporation of subjective factors.Results: There are 9 broad clinical questions with 123 recommendation numbers that include 160 specific statements (85 [53.1%] strong [Grade A], 48 [30.0%] intermediate [Grade B], and 11 [6.9%] weak [Grade C], with 16 [10.0%] based on expert opinion [Grade D]) that build a comprehensive medical care plan for obesity. There were 133 (83.1%) statements based on strong (best evidence level [BEL] 1 = 79 [49.4%]) or intermediate (BEL 2 = 54 [33.7%]) levels of scientific substantiation. There were 34 (23.6%) evidence-based recommendation grades (Grades A-C = 144) that were adjusted based on subjective factors. Among the 1,788 reference citations used in this CPG, 524 (29.3%) were based on strong (evidence level [EL] 1), 605 (33.8%) were based on intermediate (EL 2), and 308 (17.2%) were based on weak (EL 3) scientific studies, with 351 (19.6%) based on reviews and opinions (EL 4).Conclusion: The final recommendations recognize that obesity is a complex, adiposity-based chronic disease, where management targets both weight-related complications and adiposity to improve overall health and quality of life. The detailed evidence-based recommendations allow for nuanced clinical decision-making that addresses real-world medical care of patients with obesity, including screening, diagnosis, evaluation, selection of therapy, treatment goals, and individualization of care. The goal is to facilitate high-quality care of patients with obesity and provide a rational, scientific approach to management that optimizes health outcomes and safety.Abbreviations:A1C = hemoglobin A1cAACE = American Association of Clinical EndocrinologistsACE = American College of EndocrinologyAMA = American Medical AssociationBEL = best evidence levelBMI = body mass indexCCO = Consensus Conference on ObesityCPG = clinical practice guidelineCSS = cross-sectional studyCVD = cardiovascular diseaseEL = evidence levelFDA = Food and Drug AdministrationGERD = gastroesophageal reflux diseaseHDL-c = high-density lipoprotein cholesterolIFG = impaired fasting glucoseIGT = impaired glucose toleranceLDL-c = low-density lipoprotein cholesterolMNRCT = meta-analysis of non-randomized prospective or case-controlled trialsNE = no evidencePCOS = polycystic ovary syndromeRCT = randomized controlled trialSS = surveillance studyU.S = United States     

Normal binding of lipoprotein lipase, chylomicrons, and apo-AV to GPIHBP1 containing a G56R amino acid substitution

GPIHBP1 is an endothelial cell protein that serves as a platform for lipoprotein lipase-mediated processing of triglyceride-rich lipoproteins within the capillaries of heart, adipose tissue, and skeletal muscle. The absence of GPIHBP1 causes severe chylomicronemia. A hallmark of GPIHBP1 is the ability to bind lipoprotein lipase, chylomicrons, and apolipoprotein (apo-) AV. A homozygous G56R mutation in GPIHBP1 was recently identified in two siblings with chylomicronemia, and the authors of that study suggested that the G56R substitution was responsible for the hyperlipidemia. In this study, we created a human GPIHBP1 expression vector, introduced the G56R mutation, and tested the ability of the mutant GPIHBP1 to reach the cell surface and bind lipoprotein lipase, chylomicrons, and apo-AV. Our studies revealed that the G56R substitution did not affect the ability of GPIHBP1 to reach the cell surface, nor did the amino acid substitution have any discernible effect on the binding of lipoprotein lipase, chylomicrons, or apo-AV.     

Glucocorticoid-Induced Adrenal Insufficiency: A Study of the Incidence in Hospital Patients and A Review of Peri-Operative Management

Objective: Glucocorticoid (GC) pharmacotherapy is an effective treatment for a range of diseases, but exposure can suppress the hypothalamic-pituitary-adrenal axis, leading to glucocorticoid-induced adrenal insufficiency (GC-AI) in some patients. However, the incidence of diagnosed GC-AI and the associated health burden, including the incidence of adrenal crises (ACs), are unknown. Although GC-AI treatment is based on well-established principles, there are no agreed protocols regarding the peri-operative management of exposed patients. The aims of this study were to assess the incidence of diagnosed GC-AI in hospital patients and review current approaches to peri-operative management of surgical patients with GC exposure.Methods: An analysis of hospital admission data concerning adult patients diagnosed with GC-AI and a review of published recommendations for peri-operative GC cover.Results: Between 2001 and 2013, admission with a diagnosis of GC-AI in New South Wales, Australia was rare (annual average of 22.5 admissions/year) and ACs were even more rare (n = 3). Almost two-thirds (64.4%, n = 188) of the patients with diagnosed GC-AI were aged between 50 and 79 years and 45.2% (n = 132) had a comorbid infection. The current approach to peri-operative management of patients with GC exposure appears to be influenced by both the absence of clear guidelines and historic practices. This results in the exposure of some patients to supraphysiologic doses of GCs during the peri-operative period.Conclusion: Hospital admission with a diagnosis of GC-AI (with or without an AC) is very rare. Clear guidelines on peri-operative GC cover are necessary to avoid overreplacement with supraphysiologic doses in susceptible patients.Abbreviations: AC = adrenal crisis; ACTH = adrenocorticotropic hormone; AI = adrenal insufficiency; CI = confidence interval; GC = glucocorticoid; GC-AI = glucocorticoid-induced adrenal insufficiency; HPA = hypothalamic-pituitary-adrenal; OR = odds ratio