A country-wide diabetic survey of the population (age 15 years and above) of Singapore shows that the prevalence of diabetes mellitus in Singapore is 1.99 percent. It is commoner in males (2.36 percent) than in females (1.64 percent). The prevalence of diabetes in the age group 15-39 years is only 0.40 percent and in the age group 40 years and older it is 5.08 percent. The prevalence of diabetes in Indians (6.07 percent) is significantly higher than that in Malays (2.43 percent) and Chinese (1.55 percent). Indian diabetics have an insignifi"cantly higher incidence of positive family of diabetes (12.7 percent) than Malays (10.9 percent) and Chinese (6.5 percent). Obesity was commoner in Malay diabetics (67.4 percent) than in Chinese diabetics (41.6 percent) and Indian diabetics (35.7 percent). The survey shows that 40.4 percent of the diabetics are known while 59.6 percent of the diabetics are newly diagnosed. The majority of the diabetics are treated with oral hypoglycaemic drugs (71.5 percent) and only 4.8 percent are receiving insulin injections. A mong the female diabetics, 63.0 percent have 4 or more pregnancies and large babies at birth are recorded in 12.3 percent. In the newly diagnosed diabetics, 64.3 percent have no symptoms. The complications of the diabetics are hypertension (26.8 percent), nephropathy (9.8 percent), retinopathy (8.5 percent), coronary heart disease (6.1 percent), skin infection (4.6 percent) and neuropathy (3.3 percent). The high prevalence of diabetes among the Indians is likely to be due to a genetic predisposition coupled with an environmental factor (obesity), although this hypothesis is not conclusively demonstrated by the present study.
312 diabetics were seen in a multiracial urban general practice in Peninsular Malaysia during a five-year period. Of these, 210 (67%) were Indians, confirming the higher prevalence of diabetes among Indians reported in other studies. 67 were newly found diabetics. The sex, age, family history, of the diabetics, duration and complications of diabetes, are reviewed and compared with similar studies. The larger number of diabetics may partly be attributed to the presence in the community of a large number of Indians born in India. Stress also may contribute to the high prevalence of the disease in Indians, who are prone to diabetes by virtue of heredity.
Study site: General practice clinic, Kelang, Selangor, Malaysia
A Specialist Clinic was commenced in August 1983, from the Medical School at Universiti Sains Malaysia, Penang, Malaysia to assess: 1) the present control and 2) the incidence of complications in a diabetic population already receiving primary health care at Penang General Hospital. The ethnic groups among the diabetics were Chinese (39%), Malays (26%) and Indian (35%). There was a greater percentage of Indians than would be expected from the ethnic distribution of the population of Penang. The results of the first 100 (43 males and 57 females) non-insulin dependent diabetic patients are reviewed. The mean age was 54 years, 41% had relatives with diabetes, and all were taking oral agents. The diet comprehension and compliance were poor. 65% of the group, 54% of males and 75% of females were obese. The mean blood glucose was 11 m.mols/l (fasting) and 12.8 m.mols/1 (2 hours post prandial). The complications seen in the 100 diabetics were: albuminurea 41, skin infection 37, cataracts 35, hypertension 32, peripheral sensory neuropathy 32, retinopathy 22, ischaemic heart disease 19, autonomic neuropathy 10, impaired renal function 4 (urea or creatinine elevated), foot ulcer 2 and gangrene 1. Urinalysis for glucose at the Clinic showed very little correlation with blood glucose at the same time. Nine out of 43 males admitted to impotence on questioning. Comparisons of findings in Penang were made with recent studies in Singapore and Hong Kong.
Matched MeSH terms: Diabetes Mellitus, Type 2/complications*; Diabetes Mellitus, Type 2/genetics; Diabetes Mellitus, Type 2/therapy
Estimated prevalence of diabetes mellitus in Malaysia was about 2%. Diabetes was most common in Indians especially males and least common in Chinese. There was a slight male preponderance seen in Malays and Indians. Positive family history was obtained in 14% of cases most commonly in Malays, almost 1/3 of whom had more than one family member with diabetes. Familial association was uncommon in Chinese. Over 50% of patients were overweight. Obesity was noted in nearly 70% of female Malays and Indians while the majority of Chinese were not overweight. More than 80% of patients were non insulin requiring. Youth onset diabetes was considered rare; those 10 years and below were estimated to be only 0.4% and below 20 years of age between 2%-4% of the diabetic population. Females were twice as common than males in this type of diabetes and familial association was greater. Malnutrition-related diabetes and pancreatic calcification were not well-documented but youth-onset non insulin requiring diabetics with mild symptoms but strong family history of diabetes were observed. More than half of hospital-based patients had evidence of complications, mainly amongst Malays and Indians. Hypertension was the most frequent associated disease followed by foot ulcers and ischaemic heart disease. Hypertension usually associated with chronic renal failure was most common amongst Malays while gangrenic ulcers and heart diseases were seen mainly in Indians. The major causes of death were chronic renal failure, myocardial infarction, ketoacidosis, stroke and septicaemia related to gangrene.(ABSTRACT TRUNCATED AT 250 WORDS)
Matched MeSH terms: Diabetes Mellitus/genetics; Diabetes Mellitus/mortality; Diabetes Mellitus/epidemiology*; Diabetes Mellitus, Type 1/epidemiology; Diabetes Mellitus, Type 2/epidemiology
Singapore is a tropical island city-state with a population of 2.4178 million consisting of Chinese (76.7%), Malays (14.7%), Indians (6.4%) and other races (2.2%). A diabetic survey of the adult population, aged 15 years and above, carried out in 1975, shows that the prevalence of diabetes is 1.99%; it is higher in males (2.36%) than in females (1.64%). It occurs mainly in the age group 40 years and above (5.08%) and is uncommon in the age group 15-39 years (0.40%). In males, the highest prevalence of diabetes (7.0%) is in the age group 45-49 years while in females the highest prevalence (7.2%) is in the age group 55-59 years. 43.3% of the diabetics are of normal weight while 44.3% are overweight and 12.4% are underweight. 59.6% of the diabetics are newly diagnosed while 40.4% are known diabetics; 64.3% of the newly diagnosed diabetics have no symptoms. The prevalence of diabetes among the Indians (6.07%) is significantly higher than that in Malays (2.43%) and Chinese (1.55%). Indian diabetics have a slightly higher positive family history of diabetes (12.7%) than Malays (10.9%) and Chinese (6.5%). Obesity is commoner in Malay diabetics (64.7%) than in Chinese (41.6%) and Indians (35.7%). The possible factors leading to the significantly higher prevalence of diabetes among the Indians compared to the other ethnic groups in Singapore are discussed. It is suggested that the Indian gene is susceptible to diabetes (diabetic genotype) and increased food consumption, altered lifestyle and greater obesity leads to the expression of diabetes.(ABSTRACT TRUNCATED AT 250 WORDS)
The pattern of plasma and urine sugar changes after 50g glucose load in 1900 Malaysians (522 males and 1378 females) consisting predominantly of Malays, Chinese and Indians were studied. The data were analysed using Statistical Package for Social Sciences (SPSS). The results show bimodal distribution of 120 min. plasma sugar values in the age groups 21 years and above and trimodal distribution in most groups above 40 years. The mean 120 minutes plasma sugar cut-off values for nondiabetics (ND), impaired glucose tolerance (IGT), and diabetics (DM) of 8.4 and 11.1 mmol/l respectively were close to the values recommended by the National Diabetic Data Group (NDDG). Fifty two percent of all subjects showed peaked plasma sugar values at 60 minutes (14% of them had IGT, 12% DM), 25% peaked at 30 minutes (98% of them were ND). The rest showed peaked values at 90 minutes (17%), 120 minutes (4%) and 150 minutes (2%) and from this group forty two percent were DM and 23% had IGT. Reliance on urine sugar qualitative tests could misclassify 7.3% of subjects (predominantly elderly females) with hyperglycaemia of greater than 11 mmol/l. This study shows that in the 50 g glucose tolerance test, the NDDG criteria for ND, IGT, DM is still applicable to the Malaysian population. The sampling time could be reduced to four points at 0, 60, 90, and 120 minutes. Blood analysis is the preferred method for the diagnosis of hyperglycaemia in elderly females.
Insulin-dependent diabetes mellitus (IDDM) is inherited in a multifactorial manner with polygenes and environmental factors contributing to its emergence in a particular individual. The evidence for such a mode of inheritance is reviewed. One of the most important genetic roles is that played by the HLA genes on chromosome 6 and the different alleles which increase or decrease susceptibility in Caucasians, Japanese, Singapore Chinese and Shanghai Chinese are described. It is inferred that these alleles are different in different ethnic groups. The other genes which are important are unknown. The environmental influences are less well known although viral infections may act as triggers. Because the morbidity and mortality are still extremely serious in IDDM patients in spite of insulin therapy, it is proposed that preventive measures should be instituted in families prone to IDDM. The role of prenatal diagnosis is discussed especially in those families with multiple HLA susceptibility genes present. Great care paid to management of hyperglycemia from onset of the disease may reduce future morbidity and mortality.
Matched MeSH terms: Diabetes Mellitus, Type 1/etiology; Diabetes Mellitus, Type 1/genetics; Diabetes Mellitus, Type 1/metabolism; Diabetes Mellitus, Type 1/epidemiology; Diabetes Mellitus, Type 1/prevention & control*
Citation: National Health Morbidity Survey 1986. Kuala Lumpur: Ministry of Health, Malaysia, 1987
Study name: National Health and Morbidity Survey (NHMS-1986)
National Health and Morbidity Survey (NHMS) was first initiated in 1986. Its objectives were to supplement existing data on the pattern of health problems, health needs and expenditure on health in the community to enable the Ministry of Health to review priorities and activities of programmes, plan future allocation of resources and evaluate the impact of strategies.
The scopes covered in the survey were morbidity rates, health service utilizations and their barriers, health expenditure and their sources, immunization coverage, acute respiratory illness, hypertension, angina, smoking, diabetes, astma and injuries. The survey only focused in Peninsular Malaysia with response rate in different modules ranging from 92 to 100%. The survey was spearheaded by the Institute for Public Health (IPH) and partially supported by the World Health Organisation (WHO) Grant.
The scopes covered in this survey were load of illness, health seeking behaviour, health care consumption cost, health related behaviours (exercise, breast-feeding practices, pap-smear examination, breast examination, smoking, alcohol consumption, obesity, adolescent risky behaviour: smoking, alcohol consumption, drug abuse, sexual practices), specific health problems (hypertension, ischaemic heart disease, diabetes mellitus, medically diagnosed cancer, injury, physical impairments, astman and acuter respiratory inflections), and blood cholesterol level. The response rate at Living Quarters (LQ) level was 86.9%.
The problem of diabetes is large unknown due to lack of good epidemiological studies. The author's own studies showed a prevalence rate, in the Malays, of less than 1.0% in remote rural areas, 3.9% in a village close to Kuala Lumpur, and 3.0% for Malays working in a railway yard in Kuala Lumpur. The prevalence rate for the Chinese was 4.9% in the same survey, and for the Indian it was 16.0%. A survey in GHKL showed that 17.9% of the patients admitted for a month period in 1986 were due to diabetes and its complications. Majority of diabetes in Malaysia are non-insulin-dependent type.