Epidemiology of DM pdf - د. فارس

EPIDEMIOLOGY OF DIABETES

MELLITUS

Dr Faris Al-Lami

MB ChB PhD FFPH

Definition:

It is a heterogeneous group of disorders

characterized by:

•

Hyperglycemia, and

•

Disturbances of carbohydrate, fat and protein

metabolism with

•

Absolute or relative deficiency of insulin

action and or secretion

General Epidemiological Characteristics:

•

It affects large number of people, 366 millions

were affected in 2011, and expected to reach 530

million in 2030

•

It affects all ethnic and socioeconomic groups

•

Incidence & prevalence are highly varied between

& within countries

20-60 folds

difference

•

Considerable impact on economic and social

condition.

General Epidemiological Characteristics:

•

DM is an important cause of premature death and

causes serious health consequences

•

It is important RF of CHD

•

CHD is the leading cause of death among diabetics

•

In developing countries, the incidence and prevalence of

Type 2 DM are rapidly increasing, mostly due to

modernization of life style

•

In developing countries, mortality from acute

complications is high due to lack of basic requirements

CLINICAL STAGING OF DM

I. DM

Regardless of underlying cause is subdivided

into:

•

Insulin requiring for survival

•

Insulin requiring for control

•

Not Insulin requiring

II. Impaired Glucose Regulation

•

It is a metabolic state intermediate between normal

glucose homeostasis and DM

•

IFG: Impaired fasting glycemia (fasting)

FPG: > 110 mg/dl- <126 mg/dl (>6.1- <7 mmol/L)

Whole blood : >100 mg/dl-<110mg/dl (>5.6-< 6.1

mmol/L)

•

IGT: Impaired glucose tolerance (postprandial)

II. Impaired glucose regulation

•

All those with IFG should have OGTT

•

Individuals with IFG or IGT may be euglycemic in

their daily life as seen through HbA

•

IGT and IFG are not clinical entities, rather risk

categories for future DM and or CVD

•

They are often associated with Metabolic Syndrome

III. Normoglycemia

•

FPG < 110/dl

CLINICAL STAGING OF DM

•

Clinical staging regardless of its etiology, progresses

through several clinical staging during its natural

history

•

Individual subject may move from one stage to

another in either direction

•

Clinical staging reflects the hyperglycemia which

reflects the extent of the disease process

Diagnosis:

•

Diagnosis is clear when symptoms are severe

with gross hyperglycemia

•

Sever hyperglycemia under stress is not

sufficient

Diagnosis:

Asymptomatic subject:

•

A single abnormal test is not sufficient

•

At least one additional result within diabetic range ,

if it fails , then surveillance with periodic retesting

taking in consideration ethnicity , family history , age,

adiposity, and concomitant risk factors

•

Glycated Hb had similar sensitivity and specificity for

glucose test

•

OGTT is indicated if casual blood test is uncertain

Diagnostic range

•

Fasting Plasma Glucose: 126 mg/dl (7.0

mmol/L)

•

Whole blood: 110mg/dl (6.1mmol/L)

•

In epidemiologic studies FPG is sufficient or

2hr after 75 gm oral glucose load

AETIOLOGICAL CLASSIFICATION

I - Type 1

•

B-cell destruction usually leading to absolute

insulin deficiency (low or undetected c-peptide

level)

•

Insulin is usually required for survival

•

Risk of ketoacidosis

Type 1

a) Autoimmune DM

•

Results from autoimmune destruction of B-cell

•

Destruction could be rapid especially in

children or slow especially in adults (Latent

Autoimmune Diabetes in Adults LADA)

Markers of Immune destruction

•

Islet cell auto Abs

•

Insulin Auto Abs

•

Auto Abs to glutamic acid decarboxylase

(GAD)

Type 1

a) Autoimmune DM

–

Some individuals may be metabolically normal before the

disease become evident, but the progress of B cell

destruction can be detected

–

Immunological markers are present in 85-90% of those

patients

–

Peak incidence in childhood and adolescence

–

Environmental factors play a role

–

Genetic predisposition

–

Patients are usually not obese

–

Other autoimmune diseases may be present

Type-1

b) Idiopathic

•

No known etiology

•

Seen more in Africans and Asians

II – Type 2

•

Relative rather than absolute insulin deficiency with

resistance to insulin action

•

Do not require insulin for survival

•

May remain undetected for long time

•

Increased risk of macro and micro vascular

complications

•

Autoimmune destruction does not occur

•

Ketoacidosis is infrequent

•

Obesity is very common

•

Insulin level could be normal or elevated

II – Type 2

•

Insulin sensitivity can be increased by decreasing

weight, increasing physical activity and or

pharmacologic treatment

•

Risk increases with age, obesity, lack of physical

activity

•

More in women with GDM and individuals with HT or

Dyslipidemia

•

Genetic predisposition is common

•

Prevalence showed racial / ethnic variation

III – Other specific types

•

Genetic defects of B cell function

•

Genetic defects of insulin action

•

Diseases of exocrine pancreas

•

Endocrinopathies

•

Drugs or chemical induced DM

•

infections

•

Uncommon but specific forms of immune

mediated DM

•

Other genetic syndromes sometimes associated

with DM

GESTATIONAL HYPERGLYCEMIA AND

DIABETES

It is carbohydrate intolerance resulting in

various severity of hyperglycemia with onset

or first recognized during pregnancy

GESTATIONAL HYPERGLYCEMIA AND DIABETES

•

Elevated fasting or postprandial plasma

glucose level in the early pregnancy (first

trimester, and first half of second trimester)

indicates that DM antedate pregnancy

•

Normal OGTT in early pregnancy does not

exclude the possibility that GDM is not going

to develop

High Risk Groups

•

Older women

•

Women with previous history of large for

gestational age baby

•

Women from certain ethnic group

•

Any women with elevated fasting or casual

blood glucose

High Risk Groups

•

It is better to screen such groups during the first

trimester to detect previous undiagnosed DM

•

Formal systematic testing for gestational DM is usually

done between

24 and 28 weeks

•

After the pregnancy ends, the woman should be re-

classified as having:

DM, IGT, or Normal Glucose Tolerance based on

OGTT

done 6 weeks or more after delivery

•

Women with GDM are at increased risk for subsequent

THE METABOLIC SYNDROME

Working definition:

•

Glucose intolerance, IGT or DM and /or insulin

resistance together with 2 or more of the following:

•

Raised BP (>140/90)

•

Raised Pl.TG =/> 150 mg/dl and/or low HDL-C (<35mg/dl

in males; < 39 mg/dl in females)

•

Central obesity (waist: hip ratio: Males: >0.9, Females:

>0.85)

•

And /or BMI >30

•

Microalbuminurea (>/= 20 ug/ml or Albumin/creatinin

ratio >/= 30 mg/gm)

•

Other components: hyperuricemia, coagulation

disorders, raised PAI-1

THE METABOLIC SYNDROME

•

There is

heterogeneity

in the strength of insulin

resistance

•

Metabolic syndrome increases risk of

Macrovascular

disorders

•

Management should include control strategies of

all

components

and not only hyperglycemia

•

Metabolic syndrome may be present for up to 10

years before detection of the glycemic disorder

PRIMARY PREVENTION OF TYPE 1 DM

It should be done before onset of type 1 pathological

process. i.e: before development of immunological

markers

•

It is still EXPERIMENTAL

Because of the very low prevalence, it required

screening test of high specificity and sensitivity,

inexpensive and easy to perform

Screening include:

•

Family history

•

Genetic markers (HLA)

•

Immunological risk markers

•

(ICA, IAA, Anti GAD)

•

Metabolic risk factors

Screening

•

Screening is costly and technically difficult

•

Those have these factors have 10 folds excess

risk

•

Still 95-97% of them do not develop the

disease later

Primary Prevention Strategy

•

Deprivation of caw milk protein in the neonatal and early

infancy

•

Administration of free radical scavenger, as nicotinamide

•

Allowing B-cell rest by administration of early insulin

treatment

•

Encouraging the development of Antigen tolerance by

administration of early insulin treatment or oral antigens

•

Immunosuppression or Immunomodulation

PRIMARY PREVENTION OF TYPE 2 DM

•

No population based studies on primary

prevention of type 2 DM

•

Prevention should be based on efforts to

decrease insulin resistance and promotion of

insulin secretion

Life –style measures that decrease insulin

resistance:

•

Correction and prevention of

obesity

•

Avoidance of

high fat

diet

•

Encouraging using

unrefined sugar

and soluble fibers

•

Avoidance or cautious use of

diabetogenic

drugs

•

Encourage physical

activity

SECONDARY PREVENTION OF TYPE 2 DM

Aims at retarding progression of DM, decreases risk or

severity of complications and so decreases premature

morbidity and mortality

1. Screening for undetected DM

2. Control of hyperglycemia, and other metabolic

abnormalities

3. Correction of other CV RFs (smoking, dyslipidemias,

obesity)

Screening approaches

•

Population approach

•

Selective screening: on high risk individuals

•

Opportunistic screening: most appropriate

and highly cost effective

TERTIARY PREVENTIONOF TYPE 2 DM

Aims at decreasing morbidity and mortality by

delaying or arresting the complications

Good glycemic control (by intensive treatment,

frequent monitoring of blood glucose level)

slow or arrest development of early

microvascular complications