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Thursday, February 5, 2009

什麼是糖尿病?

糖尿病的特點就是在血液及尿液中的葡萄糖濃度過高。
正常的情況下,身體燃燒葡萄糖提供我們日常所需的能量;為了要燃燒葡萄糖,身體需要一種由胰臟產生的荷爾蒙 - 胰島素。

胰島素的工作就是調節體內血糖。當缺乏胰島素時,身體就無法燃燒葡萄糖製造能量,以致在血液中堆積並由尿中排出,造成「在尿中有糖」的現象。

糖尿病是一種會跟隨人一生的疾病。糖尿病雖然無法治癒,但卻可加以控制。

糖尿病治療的主要目標就是血糖的控制,並使它維持在正常的標準值內。
以往糖尿病被認為是富裕國家的疾病,而在開發中國家則較為罕見,如今這種情況已不復存在。

有些開發中國家的糖尿病盛行率已高達10 -20%,而在已開發國家卻只有2 - 5%。

在香港,糖尿病是繼腫瘤、心血管後,第三大非自然致死疾病,同時也是導致失明,

腎功能衰竭和截肢的主要原因。

  而許多糖尿病患者,並不知道他們已經得了糖尿病。往往是在例行性檢查或

因為其他疾病接受治療時,才意外地發現已經罹患了糖尿病。

糖尿病的種類


胰島素依賴型糖尿病 (IDDM,第一型)
此型糖尿病病人的胰臟不生產或生產極少量的胰島素。這一型的糖尿病過去稱為幼年發病型糖尿病(Juvenile - Onset Diabetes)。

一般在孩童以及年齡在30歲以下的年輕人最常見,必須每日注射胰島素,才能代謝利用食物。

雖然致病原因仍未明瞭,一般相信身體本身的防禦系統會攻擊並摧毀在胰臟製作胰島素的細胞。

非胰島素依賴型糖尿病 (NIDDM,第二型)

此型糖尿病病人的胰臟,雖然多少會生產胰島素但是常常無法發揮適當作用。因此雖然有胰島素的存在,但血糖值仍不正常。

此型通常好發於年齡超過30歲者,所以過去稱為成年發病型糖尿病(Adult - Onset Diabetes)第二型糖尿病可以多種方式加以治療,包括減輕體重、適當飲食、減少糖類攝取以及運動。
只有在嚴重的病例才須用胰島素治療。



糖尿病主人翁:
遺傳  肥胖  曾經生產過重嬰兒的母親  年齡超過四十歲以上
糖尿病病徵:
多尿或小便頻密
容易疲倦
經常口渴
食量大增和容易飢餓
體重減輕
皮膚或陰部痕癢
傷口較難癒合
視力模糊
小心注意:部份患者並沒有明顯病徵。
糖尿病治療法:
飲食調節
飲食調節加口服降糖藥
飲食調節加注射胰島素
無論採用那一類療法,都是為了把血糖濃度保持在正常的水平內。
(4-8mmol/L)
血糖度數認識:
血糖度數雖然高過正常水平,但沒有任何徵狀,都是患了糖尿病。
糖尿病的醫學定義是身體不能分泌足夠胰島素或體內對胰島素產生抗拒,
引致血液糖份過高,與此同時亦做成脂肪及蛋白質的新陳代謝紊亂。
很多早期糖尿病人完全沒有徵狀,但過高的血糖已經開始在體內逐漸造
成破壞,要確定你是否患上糖尿病,你應以血液化驗結果作準則。
非糖尿病患者,空肚血糖度數應低於6度﹙mmol/L﹚,餐後二小時血糖
度數應低於8度。即使沒有任何徵狀,根據世界衛生組織及美國糖尿
協會的定義,若然空肚血糖度數兩次超過7至8度,或耐糖測試二小時
後血糖度數超過11度,都顯示已患上了糖尿病。
血糖過低現象:
手震、飢餓、頭暈、出汗、顫抖、軟弱無力、面色蒼白、舌或唇麻木、
遲鈍、脾氣改變。後果做成精神錯亂,動作和言語不清及昏迷等。
血糖過低處理法:
患者必須立刻服食一些容易吸收的糖類食物:
4粒方糖
2茶匙蜜糖、砂糖或葡萄糖
1/3罐汽水
待血糖回升後,繼而進食適量的三文治或餅乾等。注意當病人昏迷時,
不要餵病人進食任何食物或飲品,以免發生窒息情況,並應立即送往
醫院救治。
血糖過高現象:
小便頻密或多尿
劇渴
容易疲倦
視力模糊
神智不清
嘔吐、食慾不振
後果會引致昏迷情況出現。
血糖過高處理法:
保持精神放鬆,避免進食過量食物,注意依時依量注射胰島素或口服
降糖藥,應及早醫治。
糖尿病的併發症:
若沒有接受適當的治理,長期血糖過高,可引致下列器官出現嚴重問題:
(一)心 臟:冠狀動脈栓塞,心絞痛,甚或死亡
(二)腦 部:腦血管栓塞,中風。
(三)腳 部:下肢血管栓塞,神經線衰褪,皮膚潰瘍,嚴重者需要
       接受截肢手術,切除患病的肢體。
(四)眼 睛:白內障,青光眼,視網膜脫落,眼底出血引致失明。
(五)腎 臟:蛋白尿,水腫,腎衰竭,最終可能需要洗腎治療。
(六)性無能:(男性)。
血糖過高、低預防:
保持血糖水平在4-8mmol/L
禁止吸煙,避免血管收窄
保持標準體重,過重更難控制糖尿病
血壓保持正常
保持適量運動
定期由眼科醫生檢查眼睛
保持足部護理

Diabetes is the Fastest Growing Disease in the World Today!

Diabetes is the Fastest Growing Disease in the World Today!
According to the Centers for Disease Control:
Diabetes is an epidemic.

17 million Americans have diabetes . . .
with 5.9 million completely unaware that they even have the disease.

Diabetes is the 5th leading cause of death in the United States . . .
with over 200,000 deaths each year from diabetes-related complications.

Among U.S. adults, diagnosed diabetes increased 49% from 1990 to 2000.
Similar increases are expected in the next decade and beyond.
What is Diabetes ?
In the simplest terms . . . diabetes mellitus (commonly referred to as just "diabetes") is a blood sugar disease . . . a disease in which the body either does not produce or does not properly utilize insulin.
Insulin is a hormone that is needed to convert sugar, starches and other food into energy needed for daily life. Because diabetics have a problem with insulin, their body's can't use glucose (blood sugar) for energy, which results in elevated blood glucose levels (hyperglycemia) and the eventual urination of sugar out of their bodies. As a result . . . diabetics can literally starve themselves to death.

There are three main types of diabetes:

Type 1 ("insulin-dependent" and previously called "juvenile diabetes"). Type 1 diabetes is associated with a malfunctioning pancreas which does not produce adequate amounts of insulin. It develops most often in children and young adults. Type 1 diabetes is traditionally treated with insulin.

Type 2 ("noninsulin-dependent" or sometomes called "adult-onset diabetes"). Type 2 diabetes is associated with insulin resistant cells. It is much more common and usually develops in older adults. Type 2 diabetes is now being found at younger ages and is even being diagnosed among children and teens.

Gestational (pregnancy-related). Some women develop diabetes during pregnancy usually toward the end of pregnancy. It effects approximately 3 to 5 percent of all pregnant women. Although it goes away after pregnancy, these women have a higher risk for developing type 2 diabetes later in life.


Symptoms of Diabetes
Millions of people have diabetes and don't even know it because the symptoms develop so gradually, people often don't recognize them. Some people, particularly pre-diabetics, have no symptoms at all. Diabetics may have SOME or NONE of the following symptoms:

Frequent urination
Excessive thirst
Extreme hunger
Unexplained weight loss
Sudden vision changes
Tingling or numbness in hands or feet
Poor circulation
Poor sleep
Feeling very tired much of the time
Irritability
Very dry skin
Sores that are slow to heal
More infections than usual
What causes Diabetes ?
Type 1 Diabetes
Interspersed evenly throughout the pancreas, is a very specialized tissue, containing cells which make and secrete hormones. This tissue, called the "Islets of Langerhans" is named after the German pathologist Paul Langerhans, who discovered them in 1869. Through a microscope, Langerhans observed these cells cluster in groups, which he likened to little islands in the pancreas.
One such group of cells, the beta cells, produce insulin in response to blood glucose. These beta cells are tiny insulin factories that sense the level of glucose in the blood stream, and produce insulin in precise proportion to that level. Therefore, following a meal, blood sugar levels will rise significantly, and the beta cells will release a large amount of insulin. This insulin will cause body cells to take up the sugar, causing blood sugar to quickly return to its normal range. Once blood sugar is in the normal range, the beta cells will reduce the output of insulin to an idling state. In this way, the beta cells adjust their production of insulin on a minute-by-minute basis, always producing just enough insulin to deal with the amount of blood sugar presently in the blood stream.

In type 1 diabetes, the islets are destroyed by the person's own immune system, which mistakenly identifies these essential cells as foreign invaders. This self-destructive mechanism is the basis of many so-called autoimmune diseases. Once the islets are killed, the ability to produce insulin is lost, and the overt symptoms and consequences of diabetes begin.

Type 2 Diabetes
The most common causes of type 2 diabetes are poor diet and/or lack of exercise, both of which can result in insulin resistance . . . a condition where the cells in our bodies aren't sensitive enough to react to the insulin produced by our pancreas.

Recent research suggests that the root cause of insulin resistance is a breakdown in intercellular signaling. Insulin is a chemical messenger. It signals proteins called GLUT-4 transporters (residing within the cell) to rise up to the cell's membrane, where they can grab on to glucose and take it inside the cell. In patients with insulin resistance, the cells don't get the message. They simply can't hear insulin "knocking" on the door, which results in elevated blood levels of both insulin and glucose.

In the early stages of insulin resistance, the pancreas compensates by producing more and more insulin, and so the "knocking" becomes louder and louder. The message is eventually "heard", enabling glucose transportation into the cells, resulting in the eventual normalization of blood glucose levels. This is known as "compensated insulin resistance".

Over time, the stress of excessive insulin production wears out the pancreas and it cannot keep up this accelerated output. As a result, glucose levels remain elevated for prolonged periods. This is called "uncompensated insulin resistance" and is the essence of advanced type 2 diabetes.

Type 2 diabetes is characterized by a series of chain reactions:

The ingestion of too many carbohydrates leads to a spike in blood sugar levels.

This is followed by a corresponding rise in insulin.

This in turn causes blood sugar to drop.

Eventually, this drastic up-and-down activity begins to take its toll on the body's ability to use insulin and thus metabolize sugar.

Over time, the pancreas "wears out" and can no longer pump out enough insulin to overcome this insulin resistance.

This results in a decreased insulin production and/or increased insulin resistance which propagates the cycle and leads to the onset of diabetes.
It is not known if obesity causes insulin resistance; or if insulin resistance causes obesity; or if they develop independently. We do know that insulin resistance is correlated to obesity . . . particularly the type where your weight collects around your middle (like an apple). We also know that physical inactivity contributes to insulin resistance, as does eating too much dietary carbohydrate.


Diabetes and Oxidative Stress
Most researchers are in basic agreement that the theory of oxidative stress is central to explaining the cause of diabetes. To understand the theory, one must first conceptualize that a "free radical" is any atom or molecule which has an "unpaired electron" in it's outer ring. Because it is lacking an electron, it is unstable and very much wants to find one electron to fill its need. This "free radical" will steal an electron from any other molecule it encounters that is more willing to give one up . . . and thus it becomes satisfied . . . but now the victim molecule has become a free radical itself and so it now will look for another victim molecule to steal it's much desired electron from . . . thus propagating this cycle over and over again. This cycle is called "the chain reaction of free radicals".
The chief danger of free radicals comes from the damage they can do when they react with important cellular components such as DNA, or the cell membrane. Cells may function poorly or die if this occurs.

To prevent free radical damage the body has a defense system of antioxidants. Antioxidants are molecules which can safely interact with free radicals and terminate the chain reaction before vital molecules are damaged. Although there are several enzyme systems within the body that scavenge free radicals, the principle antioxidants are: glutathione, SOD (superoxide dismutase), beta carotene, vitamin E, vitamin C, CoQ10, melatonin, and alpha lipoic acid.

According to the theory of oxidative stress, free radicals run rampant through the body reeking havoc. In the case of type 1 diabetes . . . damaging beta cells in the pancreas, negatively impacting their ability to produce insulin . . . in the case if type 2 diabetes . . . damaging cell membranes, leading to a breakdown in intercellular signaling.

And if that were not bad enough . . . free radicals deplete our body's reserve of antioxidants . . . further contributing to the problem.

This is why it is so important to lower the oxidative stress with better diet, more exercise, improved lifestyle; and to take all the antioxidant supplements known to neutralize the excess free radicals.

There is still a lot to learn about the causes of diabetes, but what is known, is that our bodies may begin to malfunction five to seven years before we are ever diagnosed with diabetes. That is why researchers believe that nearly 30-50% of the people who have diabetes don't even know it.

Risk Factors for Diabetes
The two major factors contributing to today's alarming rise in diabetes are: poor diet and lack of exercise. In today's fast paced culture, with its emphasis on "fast foods", and it's de-emphasis on exercise, more and more of us are eating unhealthy diets and choosing poor lifestyles.
Our typical diet has become way out of balance. We eat way too many simple sugars, way too often. Most people consume candy, french fries, potato chips, ice cream, pasta etc on a regular basis. We eat twice the calories we need, twice the protein we need, and each year the average person consumes over 160 pounds of sugars and sweeteners we don't need at all.

When you consider that so many of us are overfed and so few of us get any regular exercise. . . and then add to that . . . the fact that many of us overuse alcohol and nicotine which increases oxidative stress. . . it's no wonder that millions of us already suffer from diabetes, or are at great risk of developing diabetes in the near future.

The ever increasing number of overweight, out of shape, oxidatively stressed people in today’s societies around the world, is directly proportional to the epidemic rise of diabetes.

The following is a list of risk factors for getting diabetes:

Being more than 20% overweight

Physical inactivity

Having a first degree relative with diabetes (parents or siblings)

Belonging to any of the following ethnic groups:
African American, Native American, Latin American, Asian American, Pacific Islander

Having an "Impaired Fasting Glucose" (IFG)
or "Impaired Glucose Tolerance" (IGF) on previous blood tests.

Having Triglycerides (blood fats) which are more than 250 mg/dl

Having HDL cholesterol ("good" cholesterol ) which is less than 35 mg/dl

Having a history of hypertension (high blood pressure)

Having a history of gestational (pregnancy-related) diabetes
or giving birth to a baby which weighed more than 9 pounds

Complications of Diabetes
The most important health impacts of diabetes are the long-term complications it can cause. Most of these long-term complications are related to the adverse effects diabetes has on arteries and nerves.


Complications related to artery damage
Diabetes causes damage to both large and small arteries. This artery damage results in medical problems that are both common and serious:
Cardiovascular disease. Diabetics have up to a 400% greater chance of heart attack or stroke. Heart disease and stroke cause about 65% of deaths among people with diabetes.These deaths could be reduced by 30% with improved care to control blood pressure and blood glucose and lipid levels.

Amputations. About 82,000 people have diabetes-related leg and foot amputations each year. Over 60% of non-traumatic lower limb amputations are diabetes related. Foot care programs that include regular examinations and patient education could prevent up to 85% of these amputations.

Kidney disease. About 38,000 people with diabetes develop kidney failure each year. Treatment to better control blood pressure and blood glucose levels could reduce diabetes-related kidney failure by about 50%.

Eye disease and blindness. Each year, 12,000-24,000 people become blind because of diabetic eye disease, including diabetic retinopathy. Diabetes is the leading cause of new cases of blindness among adults 20-74 years old. Screening and care could prevent up to 90% of diabetes-related blindness.

Sexual Dysfunction. Approximately 70% of all adult males with diabetes currently suffer or will experience sexual dysfunction or impotence.
Complications related to nerve damage
60 to 70% of people with diabetes have mild to severe forms of nervous system damage. This diabetic neuropathy may result in numbness, tingling, and paresthesias in the extremities and, less often, debilitating, severe, deep-seated pain and hyperesthesias. The following are examples of diabetic neuropathy

Peripheral neuropathy The feet and legs can develop tingling, pain, or a loss of feeling. This problem makes foot ulcers and foot infections more common, adding to the possibility that an amputation may be needed.

Stomach and bowel problems The nerves that trigger normal movements of the stomach and intestines can become less active or less predictable. This can result in nausea, constipation or diarrhea. A stomach that is slow to empty has a diabetes condition called gastroparesis.

Dizziness when standing Your circulation has to make some adjustments to move blood from your toes to your torso when you are standing up, since it is pumping against gravity. When your body is working correctly, this adjustment includes tightening of blood vessels to prevent pooling of blood in your lower body. The circulation relies on nerve signals to know when to make this adjustment. These signals can fail in diabetes, leaving you with low blood pressure and lightheadedness when you are standing.

Sexual-function problems Impotence is especially common in people with nerve damage from diabetes. Artery damage also contributes to impotence.

Localized nerve failures A nerve that controls a single muscle can lose its function. Examples of problems that might result are eye movement problems with double vision, or drooping of the cheek on one side of the head (commonly known as Bell's palsy).

Other Complications
Flu- and pneumonia-related deaths. Each year, 10,000-30,000 people with diabetes die of complications from flu or pneumonia. They are roughly three times more likely to die of these complications than people without diabetes.

Pregnancy complications. About 18,000 women with preexisting diabetes deliver babies each year, and an estimated 135,000 expectant mothers are diagnosed with gestational diabetes. These women and their babies have an increased risk for serious complications.
Many of these potential complications can significantly shorten the life of a person with diabetes, and all of them can diminish the quality of life.

Diabetes complications are primarily caused by 2 factors:
Excessive Glycosylation and Sorbitol Accumulation.
Excessive Glycosylation
Glycosylation is the process by which the sugar molecule binds irreversibly to a protein molecule. This process takes place in all humans, but because diabetics have higher levels of glucose in their blood and for longer durations than non diabetics, they have a much higher degree of glycosylation ocurring.

Excessive glycosylation results in abnormal protein structures which lead to a host of cellular dysfunctions such as: inactivation of enzymes, inhibition of regulatory molecule binding, decreased susceptibility to proteolysis, abnormalities of nucleic acid function, altered macromolecular recognitions and increased immunogenicity.

In diabetics, glucose binds to proteins in the blood, nerves and the eyes. This pathological process causes much of the damage in the complications of diabetes.
Sorbitol Accumulation
Sorbitol is the byproduct of glucose metabolism and is produced through the action of the enzyme aldose reductase.

In non-diabetics, sorbitol is converted to fructose and is easily excreted from the cell, but inside the cells of diabetics, when glucose levels become elevated (even after glucose levels outside of the cell return to normal), sorbitol is produced faster than it can be broken down. Since it cannot cross the cell membrane, it builds up to a toxic level inside the cells, creating an imbalance and causing a loss of electrolytes and other minerals. This accumulated sorbitol draws water in to the cell, by the process known as osmosis, and ultimately leads to the collapse of its architecture and loss of its function.

Sorbitol-induced osmotic swelling is believed to be one of the main causes of tissue damage in diabetics. This condition seems to target organs and tissues that are not dependent on insulin for their absorption of glucose. Elevations of sorbitol levels are a major problem in peripheral nerves, blood vessels, the cells of the retinal blood vessels, the lens of the eye, the pancreas, kidneys and other organs due to their lack of insulin dependence.

How Is Diabetes Diagnosed ?
Diabetes is diagnosed by evaluating both symptoms and lab test results.

There are two common lab tests:

Fasting Plasma Glucose test (FPG): With the FPG test, your blood glucose level is measured after an 8 hour fast. If your glucose is higher than normal (100 mg/dl), you have what's called "Impaired Fasting Glucose" (IFG), which suggests pre-diabetes. A diagnosis of Diabetes is made when an FPG level of greater than 125 mg/dl is measured on two occasions.

Oral Glucose Tolerance Test (OGTT): An OGTT may be helpful in diagnosing type 2 Diabetes in patients whose FPG is between 115 and 125 mg/dl. During an OGTT test, your blood sugar is measured after a fast and then again 2 hours after drinking a beverage containing a large amount of glucose. Two hours after the drink, if your glucose is higher than normal (140 mg/dl), you have what's called "Impaired Glucose Tolerance" (IGF), which suggests pre-diabetes. A diagnosis of Diabetes is made when an OGTT level is greater than 200 mg/dl