Thursday, September 20, 2012

Origami Magic Ball (Dragon's Egg by Yuri Shumakov)



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Floral arrangement - Glowing centerpiece idea



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Floral arrangement - Glowing centerpiece idea



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Amazing Water Absorbing Polymer Beads -Slo Mo



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How to Make Water Beads~ by Jenny Kim



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Floral arrangement - Glowing centerpiece idea



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Amazing Water Absorbing Polymer Beads -Slo Mo



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Finger Paint Writing



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How to Make Water Beads~ by Jenny Kim



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Water beads growing



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Cool Slime Science Kit - Incredible Science



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Water Balz Jumbo Polymer Balls



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Propellerclock - Ring Of Fire



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Persistance of vision Globe with propeller clock



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Propeller clock #1



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LED faucet light, Világító LED csap, LED Wasserhahn



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LED Cube 8x8x8



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Weekend Projects - Little Big Lamp



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Diabetes Mellitus- Differential Diagnosis and Management


by Dr. Namrata Chhabra

Differential Diagnosis

Hyperglycemia Secondary to Other Causes
Secondary hyperglycemia has been associated with various disorders of insulin target tissues (liver, muscle, and adipose tissue). Other secondary causes of carbohydrate intolerance include endocrine disorders—often specific endocrine tumors—associated with excess production of growth hormone, glucocorticoids, catecholamines, glucagon, or somatostatin. With excess of glucocorticoids, catecholamines, or glucagon, increased hepatic output of glucose is a contributory factor; in the case of catecholamines, decreased insulin release is an additional factor in producing carbohydrate intolerance, and with excess somatostatin production it is the major factor.
Secondary causes of hyperglycemia
A)Hyperglycemia due to tissue insensitivity to insulin
1) Hormonal tumors (acromegaly, Cushing's syndrome, glucagonoma, pheochromocytoma)
2) Pharmacologic agents (corticosteroids, sympathomimetic drugs, niacin)
3) Liver disease (cirrhosis, Hemochromatosis)
4) Muscle disorders (myotonic dystrophy)
5) Adipose tissue disorders (Lipodystrophy, truncal obesity)
6) Insulin receptor disorders (acanthosis nigricans syndromes, Leprechaunism)
B)Hyperglycemia due to reduced insulin secretion
1) Hormonal tumors (somatostatinoma, pheochromocytoma)
2) Pancreatic disorders (pancreatitis, Hemosiderosis, Hemochromatosis
3) Pharmacologic agents (thiazide diuretics, phenytoin, pentamidine)
A rare syndrome of extreme insulin resistance associated with acanthosis nigricans afflicts either young women with androgenic features as well as insulin receptor mutations or older people, mostly women, in whom a circulating immunoglobulin binds to insulin receptors and reduces their affinity to insulin.
Medications such as diuretics, phenytoin, niacin, and high-dose corticosteroids can produce hyperglycemia that is reversible once the drugs are discontinued or when diuretic-induced hypokalemia is corrected. Chronic pancreatitis or subtotal pancreatectomy reduces the number of functioning B cells and can result in a metabolic derangement very similar to that of genetic type 1 diabetes except that a concomitant reduction in pancreatic A cells may reduce glucagon secretion so that relatively lower doses of insulin replacement are needed. Insulin-dependent diabetes is occasionally associated with Addison's disease and autoimmune thyroiditis (Schmidt's syndrome, or polyglandular failure syndrome). This occurs more commonly in women and represents an autoimmune disorder in which there are circulating antibodies to adrenocortical and thyroid tissue, thyroglobulin, and gastric parietal cells.
Nondiabetics Glycosuria
Nondiabetic Glycosuria (renal Glycosuria) is a benign asymptomatic condition wherein glucose appears in the urine despite a normal amount of glucose in the blood, either basally or during a glucose tolerance test. Its cause may vary from an autosomally transmitted genetic disorder to one associated with dysfunction of the proximal renal tubule (Fanconi's syndrome, chronic renal failure), or it may merely be a consequence of the increased load of glucose presented to the tubules by the elevated glomerular filtration rate during pregnancy. As many as 50% of pregnant women normally have demonstrable sugar in the urine, especially during the third and fourth months. This sugar is practically always glucose except during the late weeks of pregnancy, when lactose may be present.

Management of Type 1 Diabetes Mellitus

The goals of therapy for type 1 or type 2 DM are to: (1) eliminate symptoms related to hyperglycemia, (2) reduce or eliminate the long-term micro vascular and macro vascular complications of DM, and (3) allow the patient to achieve as normal a lifestyle as possible.
Because individuals with type 1 DM partially or completely lack endogenous insulin production, administration of basal, exogenous insulin is essential for regulating glycogen breakdown, gluconeogenesis, lipolysis, and ketogenesis. Likewise, insulin replacement for meals should be appropriate for the carbohydrate intake and promote normal glucose utilization and storage.
Insulin regimens
Two therapeutic regimens are currently in use- Standard and Intensive insulin treatment.
1) Standard treatment versus Intensive treatment
Standard treatment which has its therapeutic goal the clinical well being of the patient, typically consists of one or two daily injections of insulin. Mean blood glucose obtained are typically in the 225 to 275 mg/dl range, with an HbA1c of eight to nine percent of the total hemoglobin (The rate of formation of HbA1c is proportional to the average blood glucose concentration over the previous several months. Thus, HbA1c provides a measure of how well the treatment has normalized blood glucose in the diabetic over time.)
In contrast to standard therapy,
Intensive diabetes management has the goal of achieving euglycemia or near-normal glycemia. This approach requires multiple resources including thorough and continuing patient education, comprehensive recording of plasma glucose measurements and nutrition intake by the patient, and a variable insulin regimen that matches glucose intake and insulin dose. Insulin regimens usually include multiple-component insulin regimens, multiple daily injections (MDI), or insulin infusion devices. Mean blood glucose levels of 150 mg/dl can be achieved, with HbA1c 7% of the total hemoglobin. The patients on intensive therapy showed a 60% reduction in the long term complications of diabetes-retinopathy, nephropathy and neuropathy- compared with patients receiving standard care. This confirms that the complications of diabetes are related to an elevation of plasma glucose.
Insulin Preparations
Insulin is indicated for type 1 diabetes as well as for type 2 diabetic patients with insulinopenia whose hyperglycemia does not respond to diet therapy either alone or combined with other hypoglycemic drugs.
With the development of highly purified human insulin preparations, immunogenicity has been markedly reduced, thereby decreasing the incidence of therapeutic complications such as insulin allergy, immune insulin resistance, and localized lipoatrophy at the injection site. However, the problem of achieving optimal insulin delivery remains unsolved with the present state of technology. It has not been possible to reproduce the physiologic patterns of intraportal insulin secretion with subcutaneous injections of short-acting or longer-acting insulin preparations. Even so, with the help of appropriate modifications of diet and exercise and careful monitoring of capillary blood glucose levels at home, it has often been possible to achieve acceptable control of blood glucose by using various mixtures of short- and longer-acting insulins injected at least twice daily or portable insulin infusion pumps.
Human insulin is produced by recombinant DNA techniques (biosynthetic human insulin) as Humulin (Eli Lilly) and as Novolin (Novo Nordisk). It is dispensed as either regular (R) or NPH (N) formulations. Five analogs of human insulin—three rapidly acting (insulin lispro, insulin aspart, insulin glulisine) and two long-acting (insulin glargine and insulin detemir)—have been approved by the FDA for clinical use
Insulins can be classified as short-acting or long-acting The short-acting preparations are regular insulin and the rapidly acting insulin analogs They are dispensed as clear solutions at neutral pH and contain small amounts of zinc to improve their stability and shelf life. The long-acting preparations are NPH insulin and the long-acting insulin analogs. NPH insulin is dispensed as a turbid suspension at neutral pH with protamine in phosphate buffer. The long-acting insulin analogs are also dispensed as clear solutions.
Mixed insulin preparations
Since intermediate insulins require several hours to reach adequate therapeutic levels, their use in patients with type 1 diabetes requires supplements of regular or rapidly acting insulin analogs preprandially. For convenience, regular or rapidly acting insulin analogs and NPH insulin may be mixed together in the same syringe and injected subcutaneously in split dosage before breakfast and supper.
Summary of bioavailability characteristics of insulins
Insulin PreparationsOnset of ActionPeak ActionEffective Duration
Insulins lispro, aspart, glulisine5–15 minutes1–1.5 hours3–4 hours
Human regular30–60 minutes2 hours6–8 hours
Human NPH2–4 hours6–7 hours10–20 hours
Insulin glargine1.5 hoursFlat~24 hours
Insulin detemir1 hourFlat17 hours
Methods of insulin administration
1) Insulin syringes and needles
Plastic disposable syringes are available in 1-mL, 0.5-mL, and 0.3-mL sizes.(Figure-1)
Figure-1- Showing Insulin syringe
2) Insulin pen injector devices
Insulin pens eliminate the need for carrying insulin vials and syringes. Cartridges of insulin lispro, insulin aspart, insulin glargine, regular insulin, NPH insulin, and 70% NPH/30% regular insulin are available for reusable pens (Figure-2).
Figure-2- showing prefilled insulin pen.
3) Insulin pumps
Insulin infusion pumps are used for subcutaneous delivery of insulin. (Figure-3).These pumps are small (about the size of a pager) and very easy to program. They offer many features, including the ability to set a number of different basal rates throughout the 24 hours and to adjust the time over which bolus doses are given.
Figure-3- showing insulin pump
4) Inhaled insulin
A novel method for delivering a pre-prandial powdered form of insulin by inhalation (Exubera) has been approved by the FDA.
5) Islet cell transplantation is a minimally invasive procedure, wide application of this procedure for the treatment of type 1 diabetes is limited by the dependence on multiple donors and the requirement for potent long-term immunotherapy.
A judicious balance of the size and frequency of meals with moderate regular exercise can often stabilize the insulin dosage in diabetics. A reasonable aim of therapy is to approach normal glycemic excursions without provoking severe or frequent hypoglycemia. What has been considered "acceptable" control includes blood glucose levels of 90–130 mg/dL before meals and after an overnight fast, and levels no higher than 180 mg/dL 1 hour after meals and 150 mg/dL 2 hours after meals. Glycohemoglobins levels should be no higher than 1% above the upper limit of the normal range.
Complications of Insulin Therapy
Hypoglycemia, Insulin allergy, immune insulin resistance and Lipodystrophy at the injection site are some of the complications of insulin therapy.
Hypoglycemia in type 1 diabetes
One of the therapeutic goals of diabetes is to decrease blood glucose levels in an effort to minimize the development of the long-term complications of the disease. However, appropriate dosage is difficult to achieve in all patients, and hypoglycemia caused by excess insulin is the most common complication of insulin therapy, occurring in more than 90 % of the patients. The frequency of hypoglycemic episodes, coma and seizures is particularly high with intensive treatment regimens designed to achieve tight control of blood glucose. In normal individuals, hypoglycemia triggers a compensatory secretion of counter regulatory hormones, most notably glucagon and epinephrine, which promote hepatic production of glucose. However patients with type 1 diabetes also develop a deficiency of glucagon secretion. This defect occurs early in the disease and is almost universally present four years after diagnosis. These patients thus rely on epinephrine secretion to prevent severe hypoglycemia. However as the disease progresses, type 1 diabetes patients show diabetic autonomic neuropathy and impaired ability to secrete epinephrine in response to hypoglycemia. The combined deficiency of glucagon and epinephrine secretion creates a condition sometimes called “Hypoglycemia unawareness”. Thus patients with long standing diabetes are particularly vulnerable to hypoglycemia. Hypoglycemia can also be caused by strenuous exercise. Exercise promotes glucose uptake in to muscles and decreases the need for exogenous insulin. Patients should therefore check blood glucose levels before or after intensive exercise to prevent or abort hypoglycemia.
Around ¼ of all patients who get type 1 diabetes develop what is known as a ‘honeymoonperiod within days or weeks of the onset of treatment. It is as if the patient has gone into remission and it can be confusing for the patient as it would appear that the condition has corrected itself. Some patients actually require no insulin during this phase and this may last for weeks or months. It is usually best to keep treating with insulin even if the requirements are negligible, to avoid possible insulin allergy upon re-exposure and also to maintain a treatment regimen and not give false hope to the patient.
Other Agents that Improve Glucose Control
The role of amylin, a 37-amino-acid peptide co secreted with insulin from pancreatic beta cells, in normal glucose homeostasis is uncertain. However, based on the rationale that patients who are insulin deficient are also amylin deficient, an analogue of amylin (pramlintide) was created and found to reduce postprandial glycemic excursions in type 1 and type 2 diabetic patients taking insulin.
Besides insulin therapy, life long dietary and life style modifications are required to be done to achieve euglycemia.
Stem cell therapy
Stem cell therapy is one of the most promising treatments for the near future. It is expected that this kind of therapy can ameliorate or even reverse some diseases.
Prognosis- Prognosis of patients with type 1 diabetes can be markedly improved by optimal care.


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